### R.m4 -- extra macros for configuring R -*- Autoconf -*- ### ### Copyright (C) 1998-2010 R Core Team ### ### This file is part of R. ### ### R 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 of the License, or (at your ### option) any later version. ### ### R 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 R; if not, a copy is available at ### http://www.r-project.org/Licenses/ ### * General support macros ## R_ARG_USE ## --------- AC_DEFUN([R_ARG_USE], [if test "${withval}" = no; then use_$1=no else use_$1=yes fi ])# R_ARG_USE ## R_ARG_USE_SYSTEM ## ---------------- AC_DEFUN([R_ARG_USE_SYSTEM], [if test "${withval}" = no; then use_system_$1=no else use_system_$1=yes fi ])# R_ARG_USE_SYSTEM ## R_SH_VAR_ADD(VARIABLE, VALUE, [SEPARATOR = " "]) ## ------------------------------------------------ ## Set sh variable VARIABLE to VALUE if empty (or undefined), or append ## VALUE to the value of VARIABLE, separated by SEPARATOR. ## Currently, safe only if all arguments are literals. ## Useful mostly when we do not know whether VARIABLE is empty or not. ## Should maybe also have a fourth argument to control whether adding ## happens by appending (default) or prepending ... AC_DEFUN([R_SH_VAR_ADD], [separator="$3" test -z "${separator}" && separator=" " if test -z "${[$1]}"; then $1="$2" else $1="${[$1]}${separator}$2" fi])# R_SH_VAR_ADD ## R_MISSING_PROG(NAME, PROGRAM) ## ----------------------------- ## Simplified variant of AM_MISSING_PROG. ## Set NAME to PROGRAM if this is found and works (in the sense of ## properly implementing --version, or to an appropriate invocation ## if the missing script otherwise. AC_DEFUN([R_MISSING_PROG], [AC_MSG_CHECKING([for working $2]) if ($2 --version) < /dev/null > /dev/null 2>&1; then $1=$2 AC_MSG_RESULT([found]) else $1="\$(SHELL) \$(top_srcdir)/tools/missing $2" AC_MSG_RESULT([missing]) fi AC_SUBST($1) ])# R_MISSING_PROG ### * Programs ## R_PROG_AR ## --------- AC_DEFUN([R_PROG_AR], [AC_CHECK_PROGS(AR, [${AR} ar]) : ${ARFLAGS="rc"} AC_SUBST(ARFLAGS) ])# R_PROG_AR ## R_PROG_INSTALL ## -------------- ## Find a good install program. ## We like to provide INSTALL in the top-level Makeconf. ## Hence, if AC_PROG_INSTALL ends up with the 'tools/install-sh' script, ## we need to ensure a relative path (i.e., in case we build in srcdir) ## gets prefixed by top_srcdir. (This would not be necessary if we had ## '@INSTALL@' in each Makefile.in, but we prefer to share ...) AC_DEFUN([R_PROG_INSTALL], [AC_REQUIRE([AC_PROG_INSTALL]) case "${INSTALL}" in [[\\/]]* | ?:[[\\/]]* ) # absolute ;; *) INSTALL="\$\(top_srcdir\)/tools/install-sh -c" ;; esac case "${host_os}" in hpux*) ## On some versions of HP-UX (seen on both 10.20 and 11.0) we end up ## a broken install (seen in /opt/imake/bin) which has the default ## permissions wrong (PR#2091). Let's just always use install-sh on ## HP-UX. INSTALL="\$\(top_srcdir\)/tools/install-sh -c" ;; esac ])# R_PROG_INSTALL ## R_PROG_PAGER ## ------------ AC_DEFUN([R_PROG_PAGER], [AC_PATH_PROGS(PAGER, [${PAGER} less more page pg], false) if test "${PAGER}" = false; then warn_pager="I could not determine a pager" AC_MSG_WARN([${warn_pager}]) fi ])# R_PROG_PAGER ## R_PROG_TEXMF ## ------------ AC_DEFUN([R_PROG_TEXMF], [ ## PDFTEX PDFLATEX MAKEINDEX TEXI2DVI are used to make manuals ## PDFLATEX and MAKEINDEX in the emulation mode of tools::texi2dvi ## TEXI2DVICMD sets default for R_TEXI2DVICMD, used for options('texi2dvi') ## TEX AND LATEX are no longer used AC_PATH_PROGS(TEX, [${TEX} tex], ) AC_PATH_PROGS(PDFTEX, [${PDFTEX} pdftex], ) if test -z "${ac_cv_path_PDFTEX}" ; then warn_pdf1="you cannot build PDF versions of the R manuals" AC_MSG_WARN([${warn_pdf1}]) fi AC_PATH_PROGS(PDFLATEX, [${PDFLATEX} pdflatex], ) if test -z "${ac_cv_path_PDFLATEX}" ; then warn_pdf2="you cannot build PDF versions of vignettes and help pages" AC_MSG_WARN([${warn_pdf2}]) fi AC_PATH_PROGS(MAKEINDEX, [${MAKEINDEX} makeindex], ) R_PROG_MAKEINFO AC_PATH_PROGS(TEXI2DVI, [${TEXI2DVI} texi2dvi], ) TEXI2DVICMD=${ac_cv_path_TEXI2DVI} if test -z "${TEXI2DVICMD}"; then TEXI2DVICMD=texi2dvi fi AC_SUBST(TEXI2DVICMD) AC_PATH_PROGS(KPSEWHICH, [${KPSEWHICH} kpsewhich], "") r_rd4pdf="times,inconsolata,hyper" if test -n "${KPSEWHICH}"; then if test -z `${KPSEWHICH} inconsolata.sty`; then r_rd4pdf="times,hyper" if test -z "${R_RD4PDF}" ; then warn_pdf3="inconsolata.sty not found: PDF vignettes and package manuals will not be rendered optimally" AC_MSG_WARN([${warn_pdf3}]) fi fi fi : ${R_RD4PDF=${r_rd4pdf}} AC_SUBST(R_RD4PDF) ])# R_PROG_TEXMF ## R_PROG_MAKEINFO ## --------------- AC_DEFUN([R_PROG_MAKEINFO], [AC_PATH_PROGS(MAKEINFO, [${MAKEINFO} makeinfo]) if test -n "${MAKEINFO}"; then _R_PROG_MAKEINFO_VERSION AC_PATH_PROGS(INSTALL_INFO, [${INSTALL_INFO} ginstall-info install-info], false) if test "ac_cv_path_INSTALL_INFO" = "false"; then if test "${r_cv_prog_perl_v5}" = yes; then INSTALL_INFO="perl \$(top_srcdir)/tools/install-info.pl" fi fi AC_SUBST(INSTALL_INFO) fi if test "${r_cv_prog_makeinfo_v4}" != yes; then warn_info="you cannot build info or HTML versions of the R manuals" AC_MSG_WARN([${warn_info}]) MAKEINFO="" else MAKEINFO="${MAKEINFO}" fi ])# R_PROG_MAKEINFO ## _R_PROG_MAKEINFO_VERSION ## ------------------------ ## Building the R Texinfo manuals requires Makeinfo v4.7 or better. ## Set shell variable r_cv_prog_makeinfo_v4 to 'yes' if a recent ## enough Makeinfo is found, and to 'no' otherwise. ## If you change the minimum version here, also change it in ## doc/manual/Makefile.in and doc/manual/R-admin.texi. AC_DEFUN([_R_PROG_MAKEINFO_VERSION], [AC_CACHE_CHECK([whether makeinfo version is at least 4.7], [r_cv_prog_makeinfo_v4], [makeinfo_version=`${MAKEINFO} --version | \ grep "^makeinfo" | sed 's/[[^)]]*) \(.*\)/\1/'` makeinfo_version_maj=`echo ${makeinfo_version} | cut -f1 -d.` makeinfo_version_min=`echo ${makeinfo_version} | \ cut -f2 -d. | tr -dc '0123456789.' ` if test -z "${makeinfo_version_maj}" \ || test -z "${makeinfo_version_min}"; then r_cv_prog_makeinfo_v4=no elif test ${makeinfo_version_maj} -lt 4 \ || test ${makeinfo_version_min} -lt 7; then r_cv_prog_makeinfo_v4=no else r_cv_prog_makeinfo_v4=yes fi]) ])# _R_PROG_MAKEINFO_VERSION ## R_PROG_BROWSER ## -------------- ## xdg-open is the freedesktop.org interface to kfmclient/gnome-open AC_DEFUN([R_PROG_BROWSER], [if test -z "${R_BROWSER}"; then AC_PATH_PROGS(R_BROWSER, [firefox mozilla galeon opera xdg-open kfmclient gnome-moz-remote open]) fi if test -z "${R_BROWSER}"; then warn_browser="I could not determine a browser" AC_MSG_WARN([${warn_browser}]) else AC_MSG_RESULT([using default browser ... ${R_BROWSER}]) fi AC_SUBST(R_BROWSER) ])# R_BROWSER ## R_PROG_PDFVIEWER ## ---------------- ## Try to determine a PDF viewer. ## According to Jeff Gentry , 'acroread4' is ## the FreeBSD acroread port. AC_DEFUN([R_PROG_PDFVIEWER], [AC_PATH_PROGS(R_PDFVIEWER, [${R_PDFVIEWER} acroread acroread4 xdg-open evince xpdf gv gnome-gv ggv okular kpdf open gpdf kghostview]) if test -z "${R_PDFVIEWER}"; then warn_pdfviewer="I could not determine a PDF viewer" AC_MSG_WARN([${warn_pdfviewer}]) fi AC_SUBST(R_PDFVIEWER) ])# R_PDFVIEWER ### * C compiler and its characteristics. ## R_PROG_CPP_CPPFLAGS ## ------------------- ## In case of gcc, check whether the C preprocessor complains about ## having '/usr/local/include' in its header search path (no matter how ## it came there). GCC 3.1 and 3.2 (at least) give warnings about ## 'changing search order for system directory "/usr/local/include" as ## it has already been specified as a non-system directory' which are at ## least quite annoying. ## ## We currently do not distinguish whether '/usr/local/include' was ## added as the R default, or by an explicit CPPFLAGS arg to configure. ## If we wanted to, we should change ## : ${CPPFLAGS="-I/usr/local/include"} ## in 'configure.ac' by something like ## : ${CPPFLAGS=${r_default_CPPFLAGS="-I/usr/local/include"}} ## and test whether r_default_CPPFLAGS is non-empty. ## AC_DEFUN([R_PROG_CPP_CPPFLAGS], [AC_REQUIRE([AC_PROG_CC]) AC_REQUIRE([AC_PROG_CPP]) if test "${GCC}" = yes; then AC_LANG_PUSH(C) AC_LANG_CONFTEST([AC_LANG_PROGRAM()]) if ${CPP} ${CPPFLAGS} conftest.${ac_ext} 2>&1 1>/dev/null | \ grep 'warning:.*system directory.*/usr/local/include' >/dev/null; then CPPFLAGS=`echo ${CPPFLAGS} | \ sed 's|\(.*\)-I/usr/local/include *\(.*\)|\1\2|'` fi rm -f conftest.${ac_ext} AC_LANG_POP(C) fi])# R_PROG_CPP_CPPFLAGS ## R_PROG_CC_VERSION ## ----------------- ## Determine the version of the C compiler (currently only for gcc). AC_DEFUN([R_PROG_CC_VERSION], [AC_REQUIRE([AC_PROG_CC]) CC_VERSION= if test "${GCC}" = yes; then CC_VERSION=`${CC} -v 2>&1 | grep "^.*g.. version" | \ sed -e 's/^.*g.. version *//'` fi])# R_PROG_CC_VERSION ## R_PROG_CC_M ## ----------- ## Check whether we can figure out C Make dependencies. AC_DEFUN([R_PROG_CC_M], [AC_REQUIRE([R_PROG_CC_VERSION]) AC_MSG_CHECKING([whether we can compute C Make dependencies]) AC_CACHE_VAL([r_cv_prog_cc_m], [echo "#include " > conftest.c ## No real point in using AC_LANG_* and ${ac_ext}, as we need to create ## hard-wired suffix rules. ## Another obvious candidate to try is '${MAKEDEPEND-makedepend} -f-'. ## However, this does not work out of the box when srcdir and builddir ## are different, as it creates dependencies of the form ## ${srcdir}/foo.o: /path/to/bar.h ## Could be made to work, of course ... ## Note also that it does not create a 'conftest.o: conftest.c' line. ## For gcc 3.2 or better, we want to use '-MM' in case this works. cc_minus_MM=false if test "${GCC}" = yes; then case "${CC_VERSION}" in 1.*|2.*|3.[[01]]*) ;; *) cc_minus_MM="${CC} -MM" ;; esac fi for prog in "${cc_minus_MM}" "${CC} -M" "${CPP} -M" "cpp -M"; do if ${prog} conftest.c 2>/dev/null | \ grep 'conftest.o: conftest.c' >/dev/null; then r_cv_prog_cc_m="${prog}" break fi done]) if test -z "${r_cv_prog_cc_m}"; then AC_MSG_RESULT([no]) else AC_MSG_RESULT([yes, using ${r_cv_prog_cc_m}]) fi ])# R_PROG_CC_M ## R_PROG_CC_C_O_LO ## ---------------- ## Check whether the C compiler supports '-c -o FILE.lo'. AC_DEFUN([R_PROG_CC_C_O_LO], [AC_CACHE_CHECK([whether ${CC} supports -c -o FILE.lo], [r_cv_prog_cc_c_o_lo], [test -d TMP || mkdir TMP echo "int some_variable = 0;" > conftest.c ## No real point in using AC_LANG_* and ${ac_ext}, as we need to create ## hard-wired suffix rules. ac_try='${CC} ${CFLAGS} -c conftest.c -o TMP/conftest.lo 1>&AS_MESSAGE_LOG_FD' if AC_TRY_EVAL(ac_try) \ && test -f TMP/conftest.lo \ && AC_TRY_EVAL(ac_try); then r_cv_prog_cc_c_o_lo=yes else r_cv_prog_cc_c_o_lo=no fi rm -rf conftest* TMP]) ])# R_PROG_CC_C_O_LO ## R_PROG_CC_MAKEFRAG ## ------------------ ## Generate a Make fragment with suffix rules for the C compiler. ## Used for both building R (Makeconf) and add-ons (etc/Makeconf). AC_DEFUN([R_PROG_CC_MAKEFRAG], [r_cc_rules_frag=Makefrag.cc AC_REQUIRE([R_PROG_CC_M]) cat << \EOF > ${r_cc_rules_frag} .c.o: $(CC) $(ALL_CPPFLAGS) $(ALL_CFLAGS) -c $< -o $[@] EOF if test -n "${r_cv_prog_cc_m}"; then cat << EOF >> ${r_cc_rules_frag} .c.d: @echo "making \$[@] from \$<" @${r_cv_prog_cc_m} \$(ALL_CPPFLAGS) $< > \$[@] EOF else cat << \EOF >> ${r_cc_rules_frag} .c.d: @echo > $[@] EOF fi AC_SUBST_FILE(r_cc_rules_frag) ])# R_PROG_CC_MAKEFRAG ## R_PROG_CC_LO_MAKEFRAG ## --------------------- ## Generate a Make fragment with suffix rules for the C compiler. ## Used for both building R (Makeconf) and add-ons (etc/Makeconf). ## Need to make .lo files in src/nmath/standalone only ## NB test -d .libs || mkdir .libs can be run more than once ## and hence race when a parallel make is used AC_DEFUN([R_PROG_CC_LO_MAKEFRAG], [r_cc_lo_rules_frag=Makefrag.cc_lo AC_REQUIRE([R_PROG_CC_C_O_LO]) if test "${r_cv_prog_cc_c_o_lo}" = yes; then cat << \EOF > ${r_cc_lo_rules_frag} .c.lo: $(CC) $(ALL_CPPFLAGS) $(ALL_CFLAGS_LO) -c $< -o $[@] EOF else cat << \EOF > ${r_cc_lo_rules_frag} .c.lo: @-test -d .libs || mkdir .libs $(CC) $(ALL_CPPFLAGS) $(ALL_CFLAGS_LO) -c $< -o .libs/$[*].o mv .libs/$[*].o $[*].lo EOF fi AC_SUBST_FILE(r_cc_lo_rules_frag) ])# R_PROG_CC_LO_MAKEFRAG ## R_PROG_CC_FLAG(FLAG, [ACTION-IF-TRUE]) ## --------------------------------------- ## Check whether the C compiler handles command line option FLAG, ## and set shell variable r_cv_prog_cc_flag_SFLAG accordingly (where ## SFLAG is a shell-safe transliteration of FLAG). ## In addition, execute ACTION-IF-TRUE in case of success. AC_DEFUN([R_PROG_CC_FLAG], [ac_safe=AS_TR_SH($1) AC_MSG_CHECKING([whether ${CC} accepts $1]) AC_CACHE_VAL([r_cv_prog_cc_flag_${ac_safe}], [AC_LANG_PUSH(C) r_save_CFLAGS="${CFLAGS}" CFLAGS="${CFLAGS} $1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], [eval "r_cv_prog_cc_flag_${ac_safe}=yes"], [eval "r_cv_prog_cc_flag_${ac_safe}=no"]) CFLAGS="${r_save_CFLAGS}" AC_LANG_POP(C) ]) if eval "test \"`echo '$r_cv_prog_cc_flag_'$ac_safe`\" = yes"; then AC_MSG_RESULT([yes]) [$2] else AC_MSG_RESULT([no]) fi ])# R_PROG_CC_FLAG ## R_PROG_CC_FLAG_D__NO_MATH_INLINES ## --------------------------- ## In glibc 2.1, inline version [x86] of exp was broken (exp(-Inf) = NaN). ## We fix this by adding '-D__NO_MATH_INLINES' to R_XTRA_CFLAGS rather ## than AC_DEFINE(__NO_MATH_INLINES) as the former also takes care of ## compiling C code for add-on packages. AC_DEFUN([R_PROG_CC_FLAG_D__NO_MATH_INLINES], [AC_CACHE_CHECK([whether C runtime needs -D__NO_MATH_INLINES], [r_cv_c_no_math_inlines], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #if defined(__GLIBC__) #include int main () { double x, y; x = -1./0.; y = exp(x); exit (y != 0.); } #else int main () { exit(0); } #endif ]])], [r_cv_c_no_math_inlines=no], [r_cv_c_no_math_inlines=yes], [r_cv_c_no_math_inlines=no])]) if test "${r_cv_c_no_math_inlines}" = yes; then R_SH_VAR_ADD(R_XTRA_CFLAGS, [-D__NO_MATH_INLINES]) fi ])# R_PROG_CC_FLAG_D__NO_MATH_INLINES ## R_C_OPTIEEE ## ----------- ## Check whether the C compiler needs '-OPT:IEEE_NaN_inf=ON' to ## correctly deal with IEEE NaN/Inf. ## This flag is needed for the native SGI C compiler. ## If needed, add the flag to R_XTRA_CFLAGS. AC_DEFUN([R_C_OPTIEEE], [AC_CACHE_CHECK([whether C compiler needs -OPT:IEEE_NaN_inf=ON], [r_cv_c_optieee], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main () { double x = 0; fpsetmask(0); x = x / x; exit (x != x); } ]])], [r_cv_c_optieee=yes], [r_cv_c_optieee=no], [r_cv_c_optieee=no])]) if test "${r_cv_c_optieee}" = yes; then R_SH_VAR_ADD(R_XTRA_CFLAGS, [-OPT:IEEE_NaN_inf=ON]) fi ])# R_C_OPTIEEE ## R_C_INLINE ## ---------- ## modified version of AC_C_INLINE to use R_INLINE not inline AC_DEFUN([R_C_INLINE], [AC_REQUIRE([AC_PROG_CC_STDC])dnl AC_CACHE_CHECK([for inline], r_cv_c_inline, [r_cv_c_inline="" for ac_kw in inline __inline__ __inline; do AC_COMPILE_IFELSE([AC_LANG_SOURCE( [#ifndef __cplusplus static $ac_kw int static_foo () {return 0; } $ac_kw int foo () {return 0; } #endif ])], [r_cv_c_inline=$ac_kw; break]) done ]) case $r_cv_c_inline in no) AC_DEFINE(R_INLINE,, [Define as `inline', or `__inline__' or `__inline' if that's what the C compiler calls it, or to nothing if it is not supported.]) ;; *) AC_DEFINE_UNQUOTED(R_INLINE, $r_cv_c_inline) ;; esac ])# R_C_INLINE ### * C++ compiler and its characteristics. ## R_PROG_CXX_M ## ------------ ## Check whether the C++ compiler accepts '-M' for generating ## dependencies. AC_DEFUN([R_PROG_CXX_M], [AC_REQUIRE([R_PROG_CC_M]) AC_CACHE_CHECK([whether ${CXX} accepts -M for generating dependencies], [r_cv_prog_cxx_m], [echo "#include " > conftest.cc ## No real point in using AC_LANG_* and ${ac_ext}, as we need to create ## hard-wired suffix rules. We could be a bit more careful as we ## actually only test suffix '.cc'. if test -n "`${CXX} -M conftest.cc 2>/dev/null | grep conftest`"; then r_cv_prog_cxx_m=yes else r_cv_prog_cxx_m=no fi]) ])# R_PROG_CXX_M ## R_PROG_CXX_MAKEFRAG ## ------------------- ## Generate a Make fragment with suffix rules for the C++ compiler. ## Used for both building R (Makeconf) and add-ons (etc/Makeconf). AC_DEFUN([R_PROG_CXX_MAKEFRAG], [r_cxx_rules_frag=Makefrag.cxx AC_REQUIRE([R_PROG_CXX_M]) cat << \EOF > ${r_cxx_rules_frag} .cc.o: $(CXX) $(ALL_CPPFLAGS) $(ALL_CXXFLAGS) -c $< -o $[@] .cpp.o: $(CXX) $(ALL_CPPFLAGS) $(ALL_CXXFLAGS) -c $< -o $[@] EOF if test "${r_cv_prog_cxx_m}" = yes; then cat << \EOF >> ${r_cxx_rules_frag} .cc.d: @echo "making $[@] from $<" @$(CXX) -M $(ALL_CPPFLAGS) $< > $[@] .cpp.d: @echo "making $[@] from $<" @$(CXX) -M $(ALL_CPPFLAGS) $< > $[@] EOF else cat << \EOF >> ${r_cxx_rules_frag} .cc.d: @echo > $[@] .cpp.d: @echo > $[@] EOF fi AC_SUBST_FILE(r_cxx_rules_frag) ])# R_PROG_CXX_MAKEFRAG ## R_PROG_CXX_FLAG ## --------------- ## Check whether the C++ compiler handles command line option FLAG, ## and set shell variable r_cv_prog_cc_flag_SFLAG accordingly (where ## SFLAG is a shell-safe transliteration of FLAG). ## In addition, execute ACTION-IF-TRUE in case of success. AC_DEFUN([R_PROG_CXX_FLAG], [ac_safe=AS_TR_SH($1) AC_MSG_CHECKING([whether ${CXX-c++} accepts $1]) AC_CACHE_VAL([r_cv_prog_cxx_flag_${ac_safe}], [AC_LANG_PUSH(C++) r_save_CXXFLAGS="${CXXFLAGS}" CXXFLAGS="${CXXFLAGS} $1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], [eval "r_cv_prog_cxx_flag_${ac_safe}=yes"], [eval "r_cv_prog_cxx_flag_${ac_safe}=no"]) CXXFLAGS="${r_save_CXXFLAGS}" AC_LANG_POP(C++) ]) if eval "test \"`echo '$r_cv_prog_cxx_flag_'$ac_safe`\" = yes"; then AC_MSG_RESULT([yes]) [$2] else AC_MSG_RESULT([no]) fi ])# R_PROG_CXX_FLAG ### * Fortran 77 compiler/converter and its characteristics. ## R_PROG_F77 ## ---------- ## Find a Fortran 77 compiler ## ## If we have not been forced to use a particular Fortran compiler, try ## to find one using one of the several common names. The list is based ## on what the current autoconf CVS contains (2005-05-21). This says, ## ## ## Known compilers: ## f77/f90/f95: generic compiler names ## g77: GNU Fortran 77 compiler ## gfortran: putative GNU Fortran 95+ compiler (in progress) ## 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: Portland Group F77/F90/F95 compilers ## xlf/xlf90/xlf95: IBM (AIX) F77/F90/F95 compilers ## 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 ## ## ## and uses the following lists: ## F95: f95 fort xlf95 ifort ifc efc pgf95 lf95 gfortran ftn ## F90: f90 xlf90 pgf90 pghpf epcf90 ## F77: g77 f77 xlf frt pgf77 cf77 fort77 fl32 af77 ## ## We use basically the same, with the following exceptions: ## * On HP-UX fort77 is the POSIX-compatible native compiler and ## f77 is not: hence we need look for fort77 first! ## ## Is this still true? ## ## * It seems that g95 has been resurrected, see www.g95.org, hence we ## add this to the list of F95 compilers. ## * Older versions of the Autoconf code used to have 'fc' as a wrapper ## around f2c (last in the list). It no longer has, but we still do, ## in src/scripts, but it must be specified manually. ## ## Is this still needed? ## ## * If the C compiler is gcc, we try looking for a matching GCC Fortran ## compiler (gfortran for 4.x, g77 for 3.x) first. This should handle ## problems if GCC 4.x and 3.x suites are installed and, depending on ## the gcc default, the "wrong" GCC Fortran compiler is picked up (as ## reported by Bill Northcott for OSX with ## 4.0 as default and g77 around and the "old" search order F77 F95 ## F90 in use). AC_DEFUN([R_PROG_F77], [AC_BEFORE([$0], [AC_PROG_LIBTOOL]) AC_REQUIRE([R_PROG_CC_VERSION]) if test -n "${F77}"; then AC_MSG_RESULT([defining F77 to be ${F77}]) else F77= F95_compilers="f95 fort xlf95 ifort ifc efc pgf95 lf95 gfortran ftn g95" F90_compilers="f90 xlf90 pgf90 pghpf epcf90" case "${host_os}" in hpux*) F77_compilers="g77 fort77 f77 xlf frt pgf77 cf77 fl32 af77" ;; *) F77_compilers="g77 f77 xlf frt pgf77 cf77 fort77 fl32 af77" ;; esac GCC_Fortran_compiler= if test "${GCC}" = yes; then case "${CC_VERSION}" in 3.*) GCC_Fortran_compiler=g77 ;; 4.*) GCC_Fortran_compiler=gfortran ;; esac fi AC_CHECK_PROGS(F77, [ ${GCC_Fortran_compiler} ${F95_compilers} \ ${F90_compilers} ${F77_compilers} fc ]) fi if test -n "${F77}"; then ## If the above 'found' a Fortran 77 compiler, we run AC_PROG_F77 as ## this does additional testing (GNU, '-g', ...). AC_PROG_F77 else AC_MSG_ERROR([No F77 compiler found]) fi ])# R_PROG_F77 ## R_PROG_F77_FLIBS ## ---------------- ## Run AC_F77_LIBRARY_LDFLAGS, and fix some known problems with FLIBS. ## Only do this if the user has not already set FLIBS. AC_DEFUN([R_PROG_F77_FLIBS], [AC_BEFORE([$0], [AC_F77_LIBRARY_LDFLAGS]) if test -z "${FLIBS}"; then ## ## Currently (Autoconf 2.50 or better, it seems) FLIBS also contains all ## elements of LIBS when AC_F77_LIBRARY_LDFLAGS is run. This is because ## _AC_PROG_F77_V_OUTPUT() uses 'eval $ac_link' for obtaining verbose ## linker output, and AC_LANG(Fortran 77) sets up ac_link to contain ## LIBS. Most likely a bug, and a nuisance in any case ... ## But we cannot simply eliminate the elements in FLIBS duplicated from ## LIBS (e.g. '-lm' should be preserved). Hence, we try to call ## AC_F77_LIBRARY_LDFLAGS() with LIBS temporarily set to empty. r_save_LIBS="${LIBS}" LIBS= AC_F77_LIBRARY_LDFLAGS if test -z "${MAIN_LD}" ; then LIBS= R_C_LIBRARY_LDFLAGS else CLIBS= fi LIBS="${r_save_LIBS}" ## Currently g77 on Darwin links against '-lcrt1.o' (and for GCC 3.1 or ## better also against '-lcrtbegin.o'), which (unlike '-lcrt0.o') are ## not stripped by AC_F77_LIBRARY_LDFLAGS. This in particular causes ## R_PROG_F77_CC_COMPAT to fail. Hence, we make sure all -lcrt*.o are ## removed. In Addition, -lmx and -lSystem are implicit and their ## manual inclusion leads to ordering problems (remove when autoconf ## is fixed - supposedly the CVS version is, but 2.6.0 is not). ## ## Native f90 on HPUX 11 comes up with '-l:libF90.a' causing trouble ## when using gcc for linking. The '-l:' construction is similar to ## plain '-l' except that search order (archive/shared) given by '-a' ## is not important. We escape such flags via '-Wl,' in case of gcc. ## Note that the current Autoconf CVS uses _AC_LINKER_OPTION for a ## similar purpose when computing FLIBS: this uses '-Xlinker' escapes ## for gcc and does nothing otherwise. Note also that we cannot simply ## unconditionally escape with '${wl}' from libtool as on HPUX we need ## SHLIB_LD=ld for native C compilers (problem with non-PIC 'crt0.o', ## see 'Individual platform overrides' in section 'DLL stuff' in file ## 'configure.ac'. ## ## Using the Intel Fortran compiler (ifc) one typically gets incorrect ## flags, as the output from _AC_PROG_F77_V_OUTPUT() contains double ## quoted options, e.g. "-mGLOB_options_string=......", see also e.g. ## http://www.octave.org/octave-lists/archive/octave-maintainers.2002/msg00038.html. ## One possible solution is to change AC_F77_LIBRARY_LDFLAGS() to remove ## double quotes for ifc, as it already does for the Cray cft90. As we ## prefer not to overload Autoconf code, we try to fix things here ... ## ## As of 2.1.0 we try to tidy this up a bit. ## 1) -lfrtbegin and -lgfortranbegin are used by g77/gfortran only for a ## Fortran main program, which we do not have. ## 2) g77 also tends to duplicate paths via ../../.., so we canonicalize ## paths and remove duplicates. ## 3) We do not need -L/lib etc, nor those in LDFLAGS ## 4) We exclude path with CC will include when linking. ## ## First try to fathom out what -Lfoo commands are unnecessary. case "${host_os}" in linux*) r_libpath_default="/usr/lib64 /lib64 /usr/lib /lib" ;; solaris*) r_libpath_default="/usr/lib /lib" ;; *) r_libpath_default= ;; esac r_extra_libs= for arg in ${LDFLAGS} ${CLIBS}; do case "${arg}" in -L*) lib=`echo ${arg} | sed "s/^-L//"` test -d "${lib}" || continue ## Canonicalize (/usr/lib/gcc-lib/i686-linux/3.4.3/../../..). lib=`cd "${lib}" && ${GETWD}` r_extra_libs="${r_extra_libs} $lib" ;; esac done flibs= if test "${GCC}" = yes; then linker_option="-Wl," else linker_option= fi r_save_flibs="" for arg in ${FLIBS}; do case "${arg}" in ## this is not for a Fortran main program -lcrt*.o | -lfrtbegin | -lgfortranbegin | -lmx | -lSystem) ;; -[[a-zA-Z]]/*\" | -[[a-zA-Z]]*\\) # ifc ;; -l:*) flibs="${flibs} ${linker_option}${arg}" ;; -L*) lib=`echo ${arg} | sed "s/^-L//"` ## Do not add non-existent directories. test -d "${lib}" || continue ## Canonicalize (/usr/lib/gcc-lib/i686-linux/3.4.3/../../..). lib=`cd "${lib}" && ${GETWD}` r_want_lib=true ## Do not add something twice nor default paths nor those in LDFLAGS for dir in ${r_save_flibs} ${r_libpath_default} ${r_extra_libs}; do if test "${dir}" = "${lib}"; then r_want_lib=false break fi done if test x"${r_want_lib}" = xtrue; then flibs="${flibs} -L${lib}" r_save_flibs="${r_save_flibs} ${lib}" fi ;; *) flibs="${flibs} ${arg}" ;; esac done FLIBS="${flibs}" fi ])# R_PROG_F77_FLIBS ## R_PROG_F77_APPEND_UNDERSCORE ## ---------------------------- ## See if the Fortran 77 compiler appends underscores. ## What we really should do is determine how to properly mangle the ## names of C/C++ identifiers (potentially containing underscores) so ## that they match the name-mangling scheme used by the Fortran 77 ## compiler. Autoconf 2.50 or better has macros F77_FUNC(name, NAME) ## and F77_FUNC_(name, NAME) for this. However, the F77_* macros in ## the R API have one argument only and therefore cannot deal with ## Fortran 77 compilers which convert to upper case or add an extra ## underscore for identifiers containing underscores. We give an error ## in the former case; as ISO Fortran 77 does not allow underscores in ## function names, we do nothing about the latter. AC_DEFUN([R_PROG_F77_APPEND_UNDERSCORE], [AC_REQUIRE([AC_F77_WRAPPERS]) ## DANGER! We really needs the results of _AC_F77_NAME_MANGLING as ## stored in the cache var ac_cv_f77_mangling which is not documented ## and hence may change ... case "${ac_cv_f77_mangling}" in "upper "*) AC_MSG_WARN([Fortran compiler uses uppercase external names]) AC_MSG_ERROR([cannot use Fortran]) ;; esac AC_MSG_CHECKING([whether ${F77} appends underscores to external names]) AC_CACHE_VAL([r_cv_prog_f77_append_underscore], [case "${ac_cv_f77_mangling}" in *", underscore, "*) r_cv_prog_f77_append_underscore=yes ;; *", no underscore, "*) r_cv_prog_f77_append_underscore=no ;; esac]) if test -n "${r_cv_prog_f77_append_underscore}"; then AC_MSG_RESULT([${r_cv_prog_f77_append_underscore}]) else AC_MSG_RESULT([unknown]) AC_MSG_ERROR([cannot use Fortran]) fi if test "${r_cv_prog_f77_append_underscore}" = yes; then AC_DEFINE(HAVE_F77_UNDERSCORE, 1, [Define if your Fortran compiler appends an underscore to external names.]) fi AC_MSG_CHECKING([whether ${F77} appends extra underscores to external names]) AC_CACHE_VAL([r_cv_prog_f77_append_second_underscore], [case "${ac_cv_f77_mangling}" in *", extra underscore") r_cv_prog_f77_append_second_underscore=yes ;; *", no extra underscore") r_cv_prog_f77_append_second_underscore=no ;; esac]) if test -n "${r_cv_prog_f77_append_second_underscore}"; then AC_MSG_RESULT([${r_cv_prog_f77_append_second_underscore}]) else AC_MSG_RESULT([unknown]) AC_MSG_ERROR([cannot use Fortran]) fi if test "${r_cv_prog_f77_append_second_underscore}" = yes; then AC_DEFINE(HAVE_F77_EXTRA_UNDERSCORE, 1, [Define if your Fortran compiler appends an extra_underscore to external names containing an underscore.]) fi ])# R_PROG_F77_APPEND_UNDERSCORE ## R_PROG_F77_CAN_RUN ## -------------------- ## Check whether the C/Fortran set up produces runnable code, as ## a preliminary to the compatibility tests. ## May fail if Fortran shared libraries are not in the library path. ## As from 2.4.0 use the same code as the compatibility test, as ## on at least one system the latter actually used -lgfortran ## (which was broken) and the previous test here did not. AC_DEFUN([R_PROG_F77_CAN_RUN], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether mixed C/Fortran code can be run]) AC_CACHE_VAL([r_cv_prog_f77_can_run], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD ## Yes we need to double quote this ... [cat > conftest.c < #include #include "confdefs.h" #ifdef HAVE_F77_UNDERSCORE # define F77_SYMBOL(x) x ## _ #else # define F77_SYMBOL(x) x #endif int main () { exit(0); } EOF] if ${CC} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## ## This should really use MAIN_LD, and hence come after this is ## determined (and necessary additions to MAIN_LDFLAGS were made). ## But it seems that we currently can always use the C compiler. ## Also, to be defensive there should be a similar test with SHLIB_LD ## and SHLIB_LDFLAGS (and note that on HPUX with native cc we have to ## use ld for SHLIB_LD) ... ## Be nice to people who put compiler architecture opts in CFLAGS if ${CC} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} conftestf.${ac_objext} ${FLIBS} \ ${LIBM} 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; ## then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` if test ${?} = 0; then r_cv_prog_f77_can_run=yes fi fi fi ]) rm -rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_f77_can_run}"; then AC_MSG_RESULT([yes]) else if test "${cross_compiling}" = yes; then AC_MSG_RESULT([don't know (cross-compiling)]) else AC_MSG_WARN([cannot run mixed C/Fortran code]) AC_MSG_ERROR([Maybe check LDFLAGS for paths to Fortran libraries?]) fi fi ])# R_PROG_F77_CAN_RUN ## R_PROG_F77_CC_COMPAT ## -------------------- ## Check whether the Fortran 77 and C compilers agree on int and double. AC_DEFUN([R_PROG_F77_CC_COMPAT], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether ${F77} and ${CC} agree on int and double]) AC_CACHE_VAL([r_cv_prog_f77_cc_compat], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD ## Yes we need to double quote this ... [cat > conftest.c < #include #include #include "confdefs.h" #ifdef HAVE_F77_UNDERSCORE # define F77_SYMBOL(x) x ## _ #else # define F77_SYMBOL(x) x #endif extern void F77_SYMBOL(cftest)(int *a, int *b, double *x, double *y); int main () { int a[3] = {17, 237, 2000000000}, b[2], res = 0; double x[3] = {3.14159265, 123.456789, 2.3e34}, z[3]; double eps = 1e-6; double zres[3]; int i, bres[2]; zres[0] = (double) a[2]/x[1]; zres[1] = x[2]*x[0]; zres[2] = pow(x[1]/x[0], 17.0); bres[0] = a[2]/a[1]; bres[1] = a[2] - a[0]*a[1]; F77_SYMBOL(cftest)(a, b, x, z); if(b[0] != bres[0]) res++; if(b[1] != bres[1]) res++; for(i = 0; i < 3; i++) if(fabs(z[i]/zres[i] - 1) > eps) res++; printf("number of errors %d\n", res); exit(res); } EOF] if ${CC} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## ## This should really use MAIN_LD, and hence come after this is ## determined (and necessary additions to MAIN_LDFLAGS were made). ## But it seems that we currently can always use the C compiler. ## Also, to be defensive there should be a similar test with SHLIB_LD ## and SHLIB_LDFLAGS (and note that on HPUX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} conftestf.${ac_objext} ${FLIBS} \ ${LIBM} 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; ## then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` if test ${?} = 0; then r_cv_prog_f77_cc_compat=yes fi fi fi ]) rm -rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_f77_cc_compat}"; then AC_MSG_RESULT([yes]) else if test "${cross_compiling}" = yes; then AC_MSG_RESULT([don't know (cross-compiling)]) else AC_MSG_WARN([${F77} and ${CC} disagree on int and double]) AC_MSG_ERROR([Maybe change CFLAGS or FFLAGS?]) fi fi ])# R_PROG_F77_CC_COMPAT ## R_PROG_F77_CC_COMPAT_COMPLEX ## ---------------------------- ## Check whether the Fortran 77 and C compilers agree on double complex. AC_DEFUN([R_PROG_F77_CC_COMPAT_COMPLEX], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether ${F77} and ${CC} agree on double complex]) AC_CACHE_VAL([r_cv_prog_f77_cc_compat_complex], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD ## Yes we need to double quote this ... [cat > conftest.c < #include #include "confdefs.h" #include #ifdef HAVE_F77_UNDERSCORE # define F77_SYMBOL(x) x ## _ #else # define F77_SYMBOL(x) x #endif typedef struct { double r; double i; } Rcomplex; extern void F77_SYMBOL(cftest)(Rcomplex *x); int main () { Rcomplex z[3]; z[0].r = 3.14159265; z[0].i = 2.172; z[1].i = 3.14159265; z[1].r = 2.172; z[2].r = 123.456; z[2].i = 0.123456; F77_SYMBOL(cftest)(z); printf("%f %f\n", z[0].r, z[0].i); if(fabs(z[0].r - 123.456) < 1e-4 && fabs(z[0].i - 14.71065) < 1e-4) exit(0); else exit(1); } EOF] if ${CC} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## ## This should really use MAIN_LD, and hence come after this is ## determined (and necessary additions to MAIN_LDFLAGS were made). ## But it seems that we currently can always use the C compiler. ## Also, to be defensive there should be a similar test with SHLIB_LD ## and SHLIB_LDFLAGS (and note that on HPUX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} conftestf.${ac_objext} ${FLIBS} \ ${LIBM} 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; ## then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` if test ${?} = 0; then r_cv_prog_f77_cc_compat_complex=yes fi fi fi ]) rm -rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_f77_cc_compat_complex}"; then AC_MSG_RESULT([yes]) AC_DEFINE(HAVE_FORTRAN_DOUBLE_COMPLEX, 1, [Define if C's Rcomplex and Fortran's COMPLEX*16 can be interchanged, and can do arithmetic on the latter.]) else warn_f77_cc_double_complex="${F77} and ${CC} disagree on double complex" AC_MSG_WARN([${warn_f77_cc_double_complex}]) fi AC_SUBST(HAVE_FORTRAN_DOUBLE_COMPLEX) ])# R_PROG_F77_CC_COMPAT_COMPLEX ## R_PROG_F77_FLAG(FLAG, [ACTION-IF-TRUE]) ## --------------------------------------- ## Check whether the Fortran 77 compiler handles command line option ## FLAG, and set shell variable r_cv_prog_f77_flag_SFLAG accordingly ## (where SFLAG is a shell-safe transliteration of FLAG). ## In addition, execute ACTION-IF-TRUE in case of success. AC_DEFUN([R_PROG_F77_FLAG], [ac_safe=AS_TR_SH($1) AC_MSG_CHECKING([whether ${F77} accepts $1]) AC_CACHE_VAL([r_cv_prog_f77_flag_${ac_safe}], [AC_LANG_PUSH(Fortran 77) r_save_FFLAGS="${FFLAGS}" FFLAGS="${FFLAGS} $1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], [eval "r_cv_prog_f77_flag_${ac_safe}=yes"], [eval "r_cv_prog_f77_flag_${ac_safe}=no"]) FFLAGS="${r_save_FFLAGS}" AC_LANG_POP(Fortran 77) ]) if eval "test \"`echo '$r_cv_prog_f77_flag_'$ac_safe`\" = yes"; then AC_MSG_RESULT([yes]) [$2] else AC_MSG_RESULT([no]) fi ])# R_PROG_F77_FLAG ## R_PROG_OBJC_M ## ------------- ## Check whether we can figure out ObjC Make dependencies. AC_DEFUN([R_PROG_OBJC_M], [AC_MSG_CHECKING([whether we can compute ObjC Make dependencies]) AC_CACHE_VAL([r_cv_prog_objc_m], [echo "#include " > conftest.m for prog in "${OBJC} -MM" "${OBJC} -M" "${CPP} -M" "cpp -M"; do if ${prog} conftest.m 2>/dev/null | \ grep 'conftest.o: conftest.m' >/dev/null; then r_cv_prog_objc_m="${prog}" break fi done]) if test -z "${r_cv_prog_objc_m}"; then AC_MSG_RESULT([no]) else AC_MSG_RESULT([yes, using ${r_cv_prog_objc_m}]) fi ])# R_PROG_OBJC_M ## R_PROG_OBJC_MAKEFRAG ## -------------------- ## Generate a Make fragment with suffix rules for the Obj-C compiler. AC_DEFUN([R_PROG_OBJC_MAKEFRAG], [r_objc_rules_frag=Makefrag.m AC_REQUIRE([R_PROG_OBJC_M]) cat << \EOF > ${r_objc_rules_frag} .m.o: $(OBJC) $(ALL_CPPFLAGS) $(ALL_OBJCFLAGS) -c $< -o $[@] EOF if test -n "${r_cv_prog_objc_m}"; then cat << EOF >> ${r_objc_rules_frag} .m.d: @echo "making \$[@] from \$<" @${r_cv_prog_objc_m} \$(ALL_CPPFLAGS) $< > \$[@] EOF else cat << \EOF >> ${r_cc_rules_frag} .m.d: @echo > $[@] EOF fi AC_SUBST_FILE(r_objc_rules_frag) ])# R_PROG_OBJC_MAKEFRAG ## R_PROG_OBJC_FLAG(FLAG, [ACTION-IF-TRUE]) ## --------------------------------------- ## Check whether the Obj-C compiler handles command line option FLAG, ## and set shell variable r_cv_prog_objc_flag_SFLAG accordingly (where ## SFLAG is a shell-safe transliteration of FLAG). ## In addition, execute ACTION-IF-TRUE in case of success. AC_DEFUN([R_PROG_OBJC_FLAG], [ac_safe=AS_TR_SH($1) if test -z "${OBJC}"; then eval r_cv_prog_objc_flag_${ac_safe}=no else AC_MSG_CHECKING([whether ${OBJC} accepts $1]) AC_CACHE_VAL([r_cv_prog_objc_flag_${ac_safe}], [AC_LANG_PUSH([Objective C]) r_save_OBJCFLAGS="${OBJCFLAGS}" OBJCFLAGS="${OBJCFLAGS} $1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], [eval "r_cv_prog_objc_flag_${ac_safe}=yes"], [eval "r_cv_prog_objc_flag_${ac_safe}=no"]) OBJCFLAGS="${r_save_OBJCFLAGS}" AC_LANG_POP([Objective C]) ]) if eval "test \"`echo '$r_cv_prog_objc_flag_'$ac_safe`\" = yes"; then AC_MSG_RESULT([yes]) [$2] else AC_MSG_RESULT([no]) fi fi ])# R_PROG_OBJC_FLAG ## R_PROG_OBJC_RUNTIME ## ------------------- ## Check for ObjC runtime and style. ## Effects: ## * r_cv_objc_runtime ## either "none" or flags necessary to link ObjC runtime ## in the latter case they are also appended to OBJC_LIBS ## * r_cv_objc_runtime_style ## one of: unknown, gnu, next ## * conditionals OBJC_GNU_RUNTIME and OBJC_NEXT_RUNTIME AC_DEFUN([R_PROG_OBJC_RUNTIME], [ if test -z "${OBJC}"; then r_cv_objc_runtime=none else AC_LANG_PUSH([Objective C]) # Don't check for headers, becasue that will require Obj-C preprocessor unconditionally (autoconf bug?) #AC_MSG_CHECKING([for ObjC headers]) # Check for common headers #AC_CHECK_HEADERS_ONCE([objc/objc.h objc/objc-api.h objc/Object.h], [ ac_has_objc_headers=yes ], [ # AC_MSG_FAILURE([Objective C runtime headers were not found]) #]) # FIXME: we don't check whether the runtime needs -lpthread which is possible # (empirically Linux GNU and Apple runtime don't) AC_CACHE_CHECK([for ObjC runtime library], [r_cv_objc_runtime], [ save_OBJCFLAGS="$OBJCFLAGS" save_LIBS="$LIBS" r_cv_objc_runtime=none for libobjc in objc objc-gnu objc-lf objc-lf2; do LIBS="${save_LIBS} -l${libobjc}" #OBJCFLAGS="$OBJCFLAGS $PTHREAD_CFLAGS -fgnu-runtime" AC_LINK_IFELSE([ AC_LANG_PROGRAM([ #include ], [ @<:@Object class@:>@; ]) ], [ r_cv_objc_runtime="-l${libobjc}" break ]) done LIBS="$save_LIBS" OBJCFLAGS="$save_OBJCFLAGS" ]) OBJC_LIBS="${r_cv_objc_runtime} ${OBJC_LIBS}" if test "${r_cv_objc_runtime}" != none; then AC_CACHE_CHECK([for ObjC runtime style], [r_cv_objc_runtime_style], [ save_OBJCFLAGS="$OBJCFLAGS" save_LIBS="$LIBS" r_cv_objc_runtime_style=unknown LIBS="${OBJC_LIBS} $LIBS" for objc_lookup_class in objc_lookup_class objc_lookUpClass; do AC_LINK_IFELSE([ AC_LANG_PROGRAM([ #include #include ], [ id class = ${objc_lookup_class} ("Object"); ]) ], [ if test ${objc_lookup_class} = objc_lookup_class; then r_cv_objc_runtime_style=gnu else r_cv_objc_runtime_style=next fi break ]) done LIBS="$save_LIBS" OBJCFLAGS="$save_OBJCFLAGS" ]) fi if test "${r_cv_objc_runtime_style}" = gnu; then AC_DEFINE([OBJC_GNU_RUNTIME], 1, [Define if using GNU-style Objective C runtime.]) fi if test "${r_cv_objc_runtime_style}" = next; then AC_DEFINE([OBJC_NEXT_RUNTIME], 1, [Define if using NeXT/Apple-style Objective C runtime.]) fi AC_LANG_POP([Objective C]) fi # -n ${OBJC} ] ) ## R_PROG_OBJCXX_WORKS(compiler, [action on success], [action on failure]) ## ------------------- ## ## Check whether $1 compiles ObjC++ code successfully. ## The default action on success is to set OBJCXX to $1 AC_DEFUN([R_PROG_OBJCXX_WORKS], [AC_MSG_CHECKING([whether $1 can compile ObjC++]) ## we don't use AC_LANG_xx because ObjC++ is not defined as a language (yet) ## (the test program is from the gcc test suite) cat << \EOF > conftest.mm #include #include @interface Greeter : Object - (void) greet: (const char *)msg; @end @implementation Greeter - (void) greet: (const char *)msg { std::cout << msg; } @end int main () { std::cout << "Hello from C++\n"; Greeter *obj = @<:@Greeter new@:>@; @<:@obj greet: "Hello from Objective-C\n"@:>@; } EOF echo "running: $1 -c conftest.mm ${CPPFLAGS} ${OBJCXXFLAGS}" >&AS_MESSAGE_LOG_FD if $1 -c conftest.mm ${CPPFLAGS} ${OBJCXXFLAGS} >&AS_MESSAGE_LOG_FD 2>&1; then AC_MSG_RESULT([yes]) rm -rf conftest conftest.* core m4_default([$2], OBJCXX=$1) else AC_MSG_RESULT([no]) rm -f conftest.mm [$3] fi ]) # R_PROG_OBJCXX_WORKS ## R_PROG_OBJCXX ## ------------- ## Check for ObjC++ compiler and set+subst OBJCXX correspondingly. ## ## We could add Objective-C++ language definition, but we still hope ## that autoconf will do that at some point, so we'll confine ourselves ## to finding a working compiler. AC_DEFUN([R_PROG_OBJCXX], [AC_BEFORE([AC_PROG_CXX], [$0]) AC_BEFORE([AC_PROG_OBJC], [$0]) AC_MSG_CHECKING([for Objective C++ compiler]) AC_CACHE_VAL([r_cv_OBJCXX],[ AC_MSG_RESULT([trying some possibilities]) if test -n "${OBJCXX}"; then R_PROG_OBJCXX_WORKS(${OBJCXX},,OBJCXX='') fi # try the sequence $OBJCXX, $CXX, $OBJC if test -z "${OBJCXX}"; then R_PROG_OBJCXX_WORKS(${CXX},, if test -z "${OBJC}"; then R_PROG_OBJCXX_WORKS(${OBJC}) fi ) fi r_cv_OBJCXX="${OBJCXX}" ]) OBJCXX="${r_cv_OBJCXX}" if test -z "${OBJCXX}"; then AC_MSG_RESULT([no working compiler found]) else AC_MSG_RESULT([${OBJCXX}]) fi AC_SUBST(OBJCXX) ])# R_PROG_OBJCXX ### * Library functions ## R_FUNC___SETFPUCW ## ----------------- AC_DEFUN([R_FUNC___SETFPUCW], [AC_CHECK_FUNC(__setfpucw, [AC_CACHE_CHECK([whether __setfpucw is needed], [r_cv_func___setfpucw_needed], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ int main () { #include #include #if defined(_FPU_DEFAULT) && defined(_FPU_IEEE) exit(_FPU_DEFAULT != _FPU_IEEE); #endif exit(0); } ]])], [r_cv_func___setfpucw_needed=no], [r_cv_func___setfpucw_needed=yes], [r_cv_func___setfpucw_needed=no])]) if test "x${r_cv_func___setfpucw_needed}" = xyes; then AC_DEFINE(NEED___SETFPUCW, 1, [Define if your system needs __setfpucw() to control FPU rounding. This was used to control floating point precision, rounding and floating point exceptions on older Linux systems. As of GLIBC 2.1 this function is not used anymore.]) fi]) ])# R_FUNC___SETFPUCW ## R_FUNC_CALLOC ## ------------- AC_DEFUN([R_FUNC_CALLOC], [AC_CACHE_CHECK([for working calloc], [r_cv_func_calloc_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include int main () { int *p = calloc(0, sizeof(int)); exit(p == 0); } ]])], [r_cv_func_calloc_works=yes], [r_cv_func_calloc_works=no], [r_cv_func_calloc_works=no])]) if test "x${r_cv_func_calloc_works}" = xyes; then AC_DEFINE(HAVE_WORKING_CALLOC, 1, [Define if calloc(0) returns a null pointer.]) fi ])# R_FUNC_CALLOC ## R_FUNC_ISFINITE ## --------------- AC_DEFUN([R_FUNC_ISFINITE], [AC_CACHE_CHECK([for working isfinite], [r_cv_func_isfinite_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include "confdefs.h" int main () { #ifdef HAVE_DECL_ISFINITE exit(isfinite(1./0.) | isfinite(0./0.) | isfinite(-1./0.)); #else exit(1); #endif } ]])], [r_cv_func_isfinite_works=yes], [r_cv_func_isfinite_works=no], [r_cv_func_isfinite_works=no])]) if test "x${r_cv_func_isfinite_works}" = xyes; then AC_DEFINE(HAVE_WORKING_ISFINITE, 1, [Define if isfinite() is correct for -Inf/NaN/Inf.]) fi ])# R_FUNC_ISFINITE ## R_FUNC_LOG1P ## ------------ ## Suggested by Nelson H. F. Beebe to deal with ## inaccuracies on at least NetBSD 1.6 and OpenBSD 3.2. ## However, don't test all the way into denormalized x (he had k > -1074) ## and at x = 2^-54 (d - x)/x is around 3e-17. AC_DEFUN([R_FUNC_LOG1P], [AC_CACHE_CHECK([for working log1p], [r_cv_func_log1p_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include "confdefs.h" int main () { #ifdef HAVE_LOG1P int k; double d; double x = 1.0; for(k = 0; k < 53; k++) x /= 2.0; /* log(1+x) = x - (1/2)x^2 + (1/3)x^3 - (1/4)x^4 ... */ /* = x for x sufficiently small */ for(k = -54; k > -1022; --k) { x /= 2.0; if(x == 0.0) exit(0); /* OK: reached underflow limit */ d = log1p(x); if(d == 0.0) exit(1); /* ERROR: inaccurate log1p() */ /* for large k, ((1/2)x^2)/x might appear in the guard digits */ if(k < -80 && d != x) exit(1); /* ERROR: inaccurate log1p() */ } exit(0); #else exit(1); #endif } ]])], [r_cv_func_log1p_works=yes], [r_cv_func_log1p_works=no], [r_cv_func_log1p_works=no])]) if test "x${r_cv_func_log1p_works}" = xyes; then AC_DEFINE(HAVE_WORKING_LOG1P, 1, [Define if log1p() exists and is accurate enough.]) RMATH_HAVE_WORKING_LOG1P="# define HAVE_WORKING_LOG1P 1" else RMATH_HAVE_WORKING_LOG1P="# undef HAVE_WORKING_LOG1P" fi AC_SUBST(RMATH_HAVE_WORKING_LOG1P) ])# R_FUNC_LOG1P ## R_FUNC_FTELL ## ------------ AC_DEFUN([R_FUNC_FTELL], [AC_CACHE_CHECK([whether ftell works correctly on files opened for append], [r_cv_working_ftell], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include main() { FILE *fp; int pos; fp = fopen("testit", "wb"); fwrite("0123456789\n", 11, 1, fp); fclose(fp); fp = fopen("testit", "ab"); pos = ftell(fp); fclose(fp); unlink("testit"); exit(pos != 11); } ]])], [r_cv_working_ftell=yes], [r_cv_working_ftell=no], [r_cv_working_ftell=no])]) if test "x${r_cv_working_ftell}" = xyes; then AC_DEFINE(HAVE_WORKING_FTELL, 1, [Define if your ftell works correctly on files opened for append.]) fi ])# R_FUNC_FTELL ### * Headers ## R_HEADER_SETJMP ## --------------- AC_DEFUN([R_HEADER_SETJMP], [AC_CACHE_CHECK([whether setjmp.h is POSIX.1 compatible], [r_cv_header_setjmp_posix], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[#include ]], [[sigjmp_buf b; sigsetjmp(b, 0); siglongjmp(b, 1);]])], [r_cv_header_setjmp_posix=yes], [r_cv_header_setjmp_posix=no])]) AC_CHECK_DECLS([sigsetjmp, siglongjmp], , , [#include ]) if test "$ac_cv_have_decl_sigsetjmp" = no; then r_cv_header_setjmp_posix=no fi if test "$ac_cv_have_decl_siglongjmp" = no; then r_cv_header_setjmp_posix=no fi if test "${r_cv_header_setjmp_posix}" = yes; then AC_DEFINE(HAVE_POSIX_SETJMP, 1, [Define if you have POSIX.1 compatible sigsetjmp/siglongjmp.]) fi ])# R_HEADER_SETJMP ## R_HEADER_GLIBC2 ## --------------- AC_DEFUN([R_HEADER_GLIBC2], [AC_CACHE_CHECK([for GNU C library with version >= 2], [r_cv_header_glibc2], [AC_EGREP_CPP([yes], [#include #if defined __GLIBC__ && __GLIBC__ >= 2 yes #endif ], [r_cv_header_glibc2=yes], [r_cv_header_glibc2=no], [r_cv_header_glibc2=no]) ]) if test "${r_cv_header_glibc2}" = yes; then AC_DEFINE(HAVE_GLIBC2, 1, [Define if you have the GNU C library version >= 2. This is needed to fix a problem with getting the prototype of strptime().]) fi ])# R_HEADER_GLIBC2 ### * Types ## R_TYPE_SOCKLEN ## -------------- AC_DEFUN([R_TYPE_SOCKLEN], [AC_MSG_CHECKING([for type of socket length]) AC_CACHE_VAL([r_cv_type_socklen], [for t in socklen_t size_t int; do AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #include #include #ifdef HAVE_SYS_SOCKET_H # include #endif #ifdef Win32 # include #endif ]], [[(void)getsockopt (1, 1, 1, NULL, (${t} *)NULL)]])], [r_cv_type_socklen=${t}; break], [r_cv_type_socklen=]) done]) ## size_t works on Windows but is unsigned and int is correct case "${host_os}" in cygwin*|mingw*|windows*|winnt) r_cv_type_socklen=int ;; esac if test "x${r_cv_type_socklen}" = x; then warn_type_socklen="could not determine type of socket length" AC_MSG_WARN([${warn_type_socklen}]) else AC_MSG_RESULT([${r_cv_type_socklen} *]) fi AC_DEFINE_UNQUOTED(R_SOCKLEN_T, ${r_cv_type_socklen}, [Type for socket lengths: socklen_t, sock_t, int?]) ])# R_TYPE_SOCKLEN ## R_HAVE_KEYSYM ## ------------- ## Check whether X11/X.h has KeySym typedef-ed. AC_DEFUN([R_TYPE_KEYSYM], [AC_REQUIRE([R_X11]) if test "${use_X11}" = yes; then r_save_CFLAGS="${CFLAGS}" CFLAGS="${CFLAGS} ${X_CFLAGS}" AC_CHECK_TYPE([KeySym], r_cv_type_keysym=yes, r_cv_type_keysym=no, [#include ]) CFLAGS="${r_save_CFLAGS}" if test "${r_cv_type_keysym}" = yes; then AC_DEFINE(HAVE_KEYSYM, 1, [Define if you have KeySym defined in X11.]) fi fi])# R_TYPE_KEYSYM ### * System services ## R_X11 ## ----- ## Updated for R 2.5.0. We need -lXt, and nowadays that is unbundled. AC_DEFUN([R_X11], [AC_PATH_XTRA # standard X11 search macro use_X11="no" if test -z "${no_x}"; then ## now we look for Xt and its header: it seems Intrinsic.h is key. r_save_CFLAGS="${CFLAGS}" CFLAGS="${CFLAGS} ${X_CFLAGS}" AC_CHECK_HEADER(X11/Intrinsic.h) CFLAGS="${r_save_CFLAGS}" if test "${ac_cv_header_X11_Intrinsic_h}" = yes ; then AC_CHECK_LIB(Xt, XtToolkitInitialize, [have_Xt=yes], [have_Xt=no], [${X_LIBS} -lX11]) if test "${have_Xt}" = yes; then use_X11="yes" fi fi fi if test "x${use_X11}" = "xyes"; then AC_DEFINE(HAVE_X11, 1, [Define if you have the X11 headers and libraries, and want the X11 GUI to be built.]) X_LIBS="${X_LIBS} -lX11 -lXt" else if test "x${with_x}" != "xno"; then AC_MSG_ERROR( [--with-x=yes (default) and X11 headers/libs are not available]) fi fi AC_MSG_RESULT([using X11 ... ${use_X11}]) ])# R_X11 ## R_X11_Xmu ## --------- ## test for -lXmu and for X11/Xmu/Xatom.h header (for XA_CLIPBOARD). AC_DEFUN([R_X11_Xmu], [if test "${use_X11}" = yes; then r_save_CFLAGS="${CFLAGS}" CFLAGS="${CFLAGS} ${X_CFLAGS}" AC_CHECK_HEADER(X11/Xmu/Atoms.h) CFLAGS="${r_save_CFLAGS}" if test "${ac_cv_header_X11_Xmu_Atoms_h}" = yes ; then AC_CHECK_LIB(Xmu, XmuInternAtom, [use_Xmu=yes], [use_Xmu=no], ${X_LIBS}) if test "${use_Xmu}" = yes; then AC_DEFINE(HAVE_X11_Xmu, 1, [Define if you have the X11/Xmu headers and libraries.]) X_LIBS="${X_LIBS} -lXmu" fi fi fi])# R_X11_XMu # R_CHECK_FRAMEWORK(function, framework, # [action-if-found], [action-if-not-found], # [other-libs]) # generic check for a framework, a function should be supplied to # make sure the proper framework is found. # default action is to set have_..._fw to yes/no and to define # HAVE_..._FW if present # NB: the does NOT cache have_..._fw, so use with care AC_DEFUN([R_CHECK_FRAMEWORK], [ AC_CACHE_CHECK([for $1 in $2 framework], [r_cv_check_fw_$2], r_cv_check_fw_save_LIBS=$LIBS r_cv_check_fw_$2=no LIBS="-framework $2 $5 $LIBS" AC_LINK_IFELSE([AC_LANG_CALL([],[$1])], [r_cv_check_fw_$2="-framework $2"],[]) LIBS=$r_cv_check_fw_save_LIBS AS_IF([test "$r_cv_check_fw_$2" != no], [m4_default([$3], [AC_DEFINE_UNQUOTED(AS_TR_CPP(HAVE_$2_FW), 1, [Defined if framework $2 is present]) AS_TR_SH(have_$2_fw)=yes])], [m4_default([$4], AS_TR_SH(have_$2_fw)=no)]) ) ])# R_CHECK_FRAMEWORK ## R_AQUA ## ------ AC_DEFUN([R_AQUA], [use_aqua=no if test "${want_aqua}" = yes; then case "${host_os}" in darwin*) ## we can build AQUA only with CoreFoundation, otherwise ## Quartz device won't build if test -n "${r_cv_check_fw_CoreFoundation}" ; then use_aqua=yes else AC_MSG_WARN([requested 'aqua' but CoreFoundation was not found]) fi ;; esac fi if test "${use_aqua}" = yes; then AC_DEFINE(HAVE_AQUA, 1, [Define if you have the Aqua headers and libraries, and want the Aqua GUI components and quartz() device to be built.]) fi ])# R_AQUA ## R_OBJC_FOUNDATION_TEST ## --------------------- ## Checks whether ObjC code using Foundation classes can be compiled and sets ## ac_objc_foundation_works accordingly (yes/no) AC_DEFUN([R_OBJC_FOUNDATION_TEST], [ if test -n "$1"; then AC_MSG_CHECKING([$1]); fi ac_objc_foundation_works=no AC_LINK_IFELSE([AC_LANG_PROGRAM([ #import ], [[ NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init]; NSString *s = @"hello, world"; [pool release]; ]])], [ ac_objc_foundation_works=yes ]) if test "${ac_objc_foundation_works}" = yes; then if test -n "$1"; then AC_MSG_RESULT(yes); fi [$2] else if test -n "$1"; then AC_MSG_RESULT(no); fi [$3] fi ]) ## R_OBJC_FOUNDATION ## ----------------- ## Checks whether a Foundation framework implementation is available. ## * ac_objc_foundation: yes|no ## * FOUNDATION_CPPFLAGS, FOUNDATION_LIBS (subst) ## ## Currently supports (in order of precedence): ## - native (or custom FOUNDATION_LIBS/CPPFLAGS) ## - Apple Foundation (via -framework Foundation) ## - libFoundation ## - GNUstep AC_DEFUN([R_OBJC_FOUNDATION], [ ac_objc_foundation=no if test -n "${OBJC}"; then r_foundation_cached=yes AC_MSG_CHECKING([for cached Foundation settings]) AC_CACHE_VAL([r_cv_cache_foundation_flags], [ r_cv_cache_foundation_flags=yes r_foundation_cached=no]) AC_MSG_RESULT([${r_foundation_cached}]) # if so, fetch them from the cache if test "${r_foundation_cached}" = yes; then AC_CACHE_CHECK([FOUNDATION_LIBS], [r_cv_FOUNDATION_LIBS]) FOUNDATION_LIBS="${r_cv_FOUNDATION_LIBS}" AC_CACHE_CHECK([FOUNDATION_CPPFLAGS], [r_cv_FOUNDATION_CPPFLAGS]) FOUNDATION_CPPFLAGS="${r_cv_FOUNDATION_CPPFLAGS}" else AC_LANG_PUSH([Objective C]) rof_save_LIBS="${LIBS}" rof_save_CPPFLAGS="${CPPFLAGS}" LIBS="${LIBS} ${FOUNDATION_LIBS}" CPPFLAGS="${CPPFLAGS} ${FOUNDATION_CPPFLAGS}" R_OBJC_FOUNDATION_TEST([whether default Foundation framework works]) if test "${ac_objc_foundation_works}" != yes; then LIBS="${rof_save_LIBS} -framework Foundation" CPPFLAGS="${rof_save_CPPFLAGS}" R_OBJC_FOUNDATION_TEST([whether -framework Foundation works], [FOUNDATION_LIBS='-framework Foundation']) fi if test "${ac_objc_foundation_works}" != yes; then LIBS="${rof_save_LIBS} -lFoundation ${OBJC_LIBS}" R_OBJC_FOUNDATION_TEST([whether libFoundation works], [FOUNDATION_LIBS='-lFoundation']) fi if test "${ac_objc_foundation_works}" != yes; then LIBS="${rof_save_LIBS}" ac_working_gnustep=no AC_MSG_CHECKING([for GNUstep]) if test -z "${GNUSTEP_SYSTEM_ROOT}"; then for dir in /usr/lib/GNUstep /usr/local/lib/GNUstep; do if test -e "${dir}/System/Makefiles"; then GNUSTEP_SYSTEM_ROOT="${dir}/System"; break; fi done fi if test -z "${GNUSTEP_SYSTEM_ROOT}"; then AC_MSG_RESULT([no]) else AC_MSG_RESULT([in ${GNUSTEP_SYSTEM_ROOT}]) # this is a hack - we extract the relevant flags from GNUstep's makefiles. # in order to do that, we must setup the entire GNUstep environment which we do # in a separate script as to not pollute configure's environment cat << EOF > gnusteptest.sh #!/bin/sh . ${GNUSTEP_SYSTEM_ROOT}/Library/Makefiles/GNUstep.sh ${MAKE} -s -f gnustepmake -f \${GNUSTEP_MAKEFILES}/common.make -f \${GNUSTEP_MAKEFILES}/rules.make \${1} EOF cat << \EOF > gnustepmake printcppflags: FORCE @echo $(ALL_CPPFLAGS) $(ADDITIONAL_OBJCFLAGS) $(AUXILIARY_OBJCFLAGS) $(GNUSTEP_HEADERS_FLAGS) printlibs: FORCE @echo $(ALL_LIB_DIRS) $(FND_LIBS) $(ADDITIONAL_OBJC_LIBS) $(AUXILIARY_OBJC_LIBS) $(OBJC_LIBS) $(SYSTEM_LIBS) $(TARGET_SYSTEM_LIBS) FORCE: EOF GNUSTEP_CPPFLAGS=`sh gnusteptest.sh printcppflags` GNUSTEP_LIBS=`sh gnusteptest.sh printlibs` #echo " GNUstep CPPFLAGS: ${GNUSTEP_CPPFLAGS}" #echo " GNUstep LIBS: ${GNUSTEP_LIBS}" LIBS="${rof_save_LIBS} ${GNUSTEP_LIBS}" CPPFLAGS="${rof_save_CPPFLAGS} ${GNUSTEP_CPPFLAGS}" rm -f gnusteptest.sh gnustepmake R_OBJC_FOUNDATION_TEST([whether GNUstep works],[ FOUNDATION_CPPFLAGS="${GNUSTEP_CPPFLAGS}" FOUNDATION_LIBS="${GNUSTEP_LIBS}"]) fi # -n GNUSTEP_SYSTEM_ROOT fi LIBS="${rof_save_LIBS}" CPPFLAGS="${rof_save_CPPFLAGS}" AC_SUBST(FOUNDATION_CPPFLAGS) AC_SUBST(FOUNDATION_LIBS) AC_CACHE_VAL([r_cv_FOUNDATION_CPPFLAGS],[r_cv_FOUNDATION_CPPFLAGS="${FOUNDATION_CPPFLAGS}"]) AC_CACHE_VAL([r_cv_FOUNDATION_LIBS],[r_cv_FOUNDATION_LIBS="${FOUNDATION_LIBS}"]) AC_LANG_POP([Objective C]) ac_objc_foundation=${ac_objc_foundation_works} fi # not cached flags fi # -n ${OBJC} AC_CACHE_CHECK([for working Foundation implementation], [r_cv_objc_foundation], [r_cv_objc_foundation="${ac_objc_foundation}"]) ]) ## R_IEEE_754 ## ---------- ## According to C99, isnan and isfinite are macros in math.h, ## but some older systems have isnan as a function (possibly as well). AC_DEFUN([R_IEEE_754], [AC_CHECK_FUNCS([isnan]) AC_CHECK_DECLS([isfinite, isnan], , , [#include ]) AC_CACHE_CHECK([whether you have IEEE 754 floating-point arithmetic], [r_cv_ieee_754], [if (test "${ac_cv_func_isnan}" = yes \ || test "${ac_cv_have_decl_isnan}" = yes); then r_cv_ieee_754=yes else r_cv_ieee_754=no fi]) if test "${r_cv_ieee_754}" = yes; then AC_DEFINE(IEEE_754, 1, [Define if you have IEEE 754 floating point arithmetic.]) else AC_MSG_ERROR([IEEE 754 floating-point arithmetic is required]) fi ])# R_IEEE_754 ## R_BSD_NETWORKING ## ---------------- AC_DEFUN([R_BSD_NETWORKING], [AC_CACHE_CHECK([for BSD networking], [r_cv_bsd_networking], [if test "${ac_cv_header_netdb_h}" = yes \ && test "${ac_cv_header_netinet_in_h}" = yes \ && test "${ac_cv_header_sys_socket_h}" = yes \ && test "${ac_cv_search_connect}" != no \ && test "${ac_cv_search_gethostbyname}" != no; then r_cv_bsd_networking=yes else r_cv_bsd_networking=no fi]) if test "${r_cv_bsd_networking}" = yes; then AC_DEFINE(HAVE_BSD_NETWORKING, 1, [Define if you have BSD networking headers and libraries.]) AC_DEFINE(HAVE_SOCKETS, 1, [Define if you have support for sockets.]) AC_DEFINE(HAVE_INTERNET, 1, [Define if you have support for ftp/http access.]) AC_DEFINE(SUPPORT_LIBXML, 1, [Define if you provide support for the libxml ftp/http functions.]) fi ])# R_BSD_NETWORKING ## R_BITMAPS ## --------- ## Here we only need any old -lz, and don't need zlib.h. ## However, we do need recent enough libpng and jpeg, and so check both ## the header versions and for key routines in the library. ## The png code will do a run-time check of the consistency of libpng ## versions. AC_DEFUN([R_BITMAPS], [BITMAP_LIBS= if test "${use_jpeglib}" = yes; then _R_HEADER_JPEGLIB have_jpeg=${r_cv_header_jpeglib_h} if test "${have_jpeg}" = yes; then AC_CHECK_LIB(jpeg, jpeg_destroy_compress, [have_jpeg=yes], [have_jpeg=no], [${LIBS}]) fi if test "${have_jpeg}" = yes; then BITMAP_LIBS="-ljpeg" AC_DEFINE(HAVE_JPEG, 1, [Define if you have the JPEG headers and libraries.]) fi fi if test "${use_libpng}" = yes; then AC_CHECK_LIB(z, main, [have_png=yes], [have_png=no]) if test "${have_png}" = yes; then _R_HEADER_PNG have_png=${r_cv_header_png_h} fi if test "${have_png}" = yes; then AC_CHECK_LIB(png, png_create_write_struct, [have_png=yes], [have_png=no], [-lz ${LIBS}]) fi if test "${have_png}" = yes; then BITMAP_LIBS="${BITMAP_LIBS} -lpng -lz" AC_DEFINE(HAVE_PNG, 1, [Define if you have the PNG headers and libraries.]) fi fi if test "${use_libtiff}" = yes; then AC_CHECK_HEADERS(tiffio.h) # may need to resolve jpeg routines AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [${BITMAP_LIBS}]) if test "x${ac_cv_header_tiffio_h}" = xyes ; then if test "x${have_tiff}" = xyes; then AC_DEFINE(HAVE_TIFF, 1, [Define this if libtiff is available.]) BITMAP_LIBS="-ltiff ${BITMAP_LIBS}" else have_tiff=no fi fi fi AC_SUBST(BITMAP_LIBS) ])# R_BITMAPS ## _R_HEADER_JPEGLIB ## ----------------- ## Set shell variable r_cv_header_jpeglib_h to 'yes' if a recent enough ## jpeglib.h is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_JPEGLIB], [AC_CACHE_CHECK([if jpeglib version >= 6b], [r_cv_header_jpeglib_h], AC_EGREP_CPP([yes], [#include #if (JPEG_LIB_VERSION >= 62) yes #endif ], [r_cv_header_jpeglib_h=yes], [r_cv_header_jpeglib_h=no])) ])# _R_HEADER_JPEGLIB ## _R_HEADER_PNG ## ------------- ## Set shell variable r_cv_header_png_h to 'yes' if a recent enough ## 'png.h' is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_PNG], [AC_CACHE_CHECK([if libpng version >= 1.2.7], [r_cv_header_png_h], AC_EGREP_CPP([yes], [#include #if (PNG_LIBPNG_VER >= 10207) yes #endif ], [r_cv_header_png_h=yes], [r_cv_header_png_h=no])) ])# _R_HEADER_PNG ## _R_PATH_TCL_CONFIG ## ------------------ ## Try finding tclConfig.sh in common library directories and their ## tcl$x.$y subdirectories. Set shell variable r_cv_path_TCL_CONFIG ## to the entire path of the script if found, and leave it empty ## otherwise. ## /opt/csw/lib and /usr/sfw/lib are for Solaris (blastwave and sunfreeware ## respectively). ## /opt/freeware/lib is for 'IBM AIX Toolbox for Linux Applications' ## We want to look in LIBnn only here. AC_DEFUN([_R_PATH_TCL_CONFIG], [AC_MSG_CHECKING([for tclConfig.sh in library (sub)directories]) AC_CACHE_VAL([r_cv_path_TCL_CONFIG], [for ldir in /usr/local/${LIBnn} /usr/${LIBnn} /${LIBnn} /opt/lib /sw/lib /opt/csw/lib /usr/sfw/lib /opt/freeware/lib; do for dir in \ ${ldir} \ `ls -d ${ldir}/tcl[[8-9]].[[0-9]]* 2>/dev/null | sort -r`; do if test -f ${dir}/tclConfig.sh; then r_cv_path_TCL_CONFIG="${dir}/tclConfig.sh" break 2 fi done done]) if test -n "${r_cv_path_TCL_CONFIG}"; then AC_MSG_RESULT([${r_cv_path_TCL_CONFIG}]) else AC_MSG_RESULT([no]) fi ])# _R_PATH_TCL_CONFIG ## _R_PATH_TK_CONFIG ## ------------------ ## Try finding tkConfig.sh in common library directories and their ## tk$x.$y subdirectories. Set shell variable r_cv_path_TK_CONFIG ## to the entire path of the script if found, and leave it empty ## otherwise. AC_DEFUN([_R_PATH_TK_CONFIG], [AC_MSG_CHECKING([for tkConfig.sh in library (sub)directories]) AC_CACHE_VAL([r_cv_path_TK_CONFIG], [for ldir in /usr/local/${LIBnn} /usr/${LIBnn} /${LIBnn} /opt/lib /sw/lib /opt/csw/lib /usr/sfw/lib /opt/freeware/lib; do for dir in \ ${ldir} \ `ls -d ${ldir}/tk[[8-9]].[[0-9]]* 2>/dev/null | sort -r`; do if test -f ${dir}/tkConfig.sh; then r_cv_path_TK_CONFIG="${dir}/tkConfig.sh" break 2 fi done done]) if test -n "${r_cv_path_TK_CONFIG}"; then AC_MSG_RESULT([${r_cv_path_TK_CONFIG}]) else AC_MSG_RESULT([no]) fi ])# _R_PATH_TK_CONFIG ## _R_TCLTK_CONFIG ## --------------- ## Try finding the tclConfig.sh and tkConfig.sh scripts in PATH as well ## as in common library directories and their tcl/tk subdirectories. ## Set shell variables TCL_CONFIG and TK_CONFIG to the entire paths to ## the scripts if found and check that the corresponding Tcl/Tk versions ## are at least 8; if not, set shell variable have_tcltk to 'no'. AC_DEFUN([_R_TCLTK_CONFIG], [AC_PATH_PROGS(TCL_CONFIG, [${TCL_CONFIG} tclConfig.sh]) if test -z "${TCL_CONFIG}"; then _R_PATH_TCL_CONFIG if test -n "${r_cv_path_TCL_CONFIG}"; then TCL_CONFIG="${r_cv_path_TCL_CONFIG}" fi fi AC_PATH_PROGS(TK_CONFIG, [${TK_CONFIG} tkConfig.sh]) if test -z "${TK_CONFIG}"; then _R_PATH_TK_CONFIG if test -n "${r_cv_path_TK_CONFIG}"; then TK_CONFIG="${r_cv_path_TK_CONFIG}" fi fi if test -z "${TCLTK_CPPFLAGS}" \ || test -z "${TCLTK_LIBS}"; then ## Check whether the versions found via the *Config.sh files are at ## least 8; otherwise, issue a warning and turn off Tcl/Tk support. ## Note that in theory a system could have outdated versions of the ## *Config.sh scripts and yet up-to-date installations of Tcl/Tk in ## standard places ... ## This doesn't make a great deal of sense: on past form ## we don't even expect future versions of 8.x to work, let alone 9.0 if test -n "${TCL_CONFIG}"; then . ${TCL_CONFIG} if test ${TCL_MAJOR_VERSION} -lt 8; then warn_tcltk_version="Tcl/Tk support requires Tcl version >= 8" AC_MSG_WARN([${warn_tcltk_version}]) have_tcltk=no fi fi if test -n "${TK_CONFIG}" \ && test -z "${warn_tcltk_version}"; then . ${TK_CONFIG} if test ${TK_MAJOR_VERSION} -lt 8; then warn_tcltk_version="Tcl/Tk support requires Tk version >= 8" AC_MSG_WARN([${warn_tcltk_version}]) have_tcltk=no fi fi if test -n "${TCL_CONFIG}" \ && test -n "${TK_CONFIG}" \ && test -z "${warn_tcltk_version}"; then if test ${TCL_MAJOR_VERSION} -ne ${TK_MAJOR_VERSION} \ || test ${TCL_MINOR_VERSION} -ne ${TK_MINOR_VERSION}; then warn_tcltk_version="Tcl and Tk major or minor versions disagree" AC_MSG_WARN([${warn_tcltk_version}]) have_tcltk=no fi fi fi ])# _R_TCLTK_CONFIG ## _R_HEADER_TCL ## ------------- ## Set shell variable 'r_cv_header_tcl_h' to 'yes' if a recent enough ## 'tcl.h' is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_TCL], [AC_CACHE_CHECK([for tcl.h], [r_cv_header_tcl_h], [AC_EGREP_CPP([yes], [#include /* Revise if 9.x ever appears (and 8.x seems to increment only every few years). */ #if (TCL_MAJOR_VERSION >= 8) && (TCL_MINOR_VERSION >= 4) yes #endif ], [r_cv_header_tcl_h=yes], [r_cv_header_tcl_h=no])]) ])# _R_HEADER_TCL ## _R_HEADER_TK ## ------------- ## Set shell variable 'r_cv_header_tk_h' to 'yes' if a recent enough ## 'tk.h' is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_TK], [AC_CACHE_CHECK([for tk.h], [r_cv_header_tk_h], [AC_EGREP_CPP([yes], [#include /* Revise if 9.x ever appears (and 8.x seems to increment only every few years). */ #if (TK_MAJOR_VERSION >= 8) && (TK_MINOR_VERSION >= 4) yes #endif ], [r_cv_header_tk_h=yes], [r_cv_header_tk_h=no])]) ])# _R_HEADER_TK ## _R_TCLTK_CPPFLAGS ## ----------------- ## Need to ensure that we can find the tcl.h and tk.h headers, which ## may be in non-standard and/or version-dependent directories, such as ## on FreeBSD systems. ## ## The logic is as follows. If TCLTK_CPPFLAGS was specified, then we ## do not investigate any further. Otherwise, if we still think we ## have Tcl/Tk, then first try via the corresponding *Config.sh file, ## or else try the obvious. AC_DEFUN([_R_TCLTK_CPPFLAGS], [AC_REQUIRE([_R_TCLTK_CONFIG]) if test -z "${TCLTK_CPPFLAGS}"; then ## We have to do the work. if test "${have_tcltk}" = yes; then ## Part 1. Check for tcl.h. found_tcl_h=no if test -n "${TCL_CONFIG}"; then . ${TCL_CONFIG} ## TCL_INCLUDE_SPEC (if set) is what we want. if test -n ${TCL_INCLUDE_SPEC} ; then r_save_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${TCL_INCLUDE_SPEC}" AC_CHECK_HEADER([tcl.h], [TCLTK_CPPFLAGS="${TCL_INCLUDE_SPEC}" found_tcl_h=yes]) CPPFLAGS="${r_save_CPPFLAGS}" fi if test "${found_tcl_h}" = no; then ## Look for tcl.h in ## ${TCL_PREFIX}/include/tcl${TCL_VERSION} ## ${TCL_PREFIX}/include ## Also look in ## ${TCL_PREFIX}/include/tcl${TCL_VERSION}/generic ## to deal with current FreeBSD layouts. These also link the real ## thing to the version subdir, but the link cannot be used as it ## fails to include 'tclDecls.h' which is not linked. Hence we ## must look for the real thing first. Argh ... for dir in \ ${TCL_PREFIX}/include/tcl${TCL_VERSION}/generic \ ${TCL_PREFIX}/include/tcl${TCL_VERSION} \ ${TCL_PREFIX}/include; do AC_CHECK_HEADER([${dir}/tcl.h], [TCLTK_CPPFLAGS="-I${dir}" found_tcl_h=yes break]) done fi fi if test "${found_tcl_h}" = no; then _R_HEADER_TCL if test "${r_cv_header_tcl_h}" = yes; then found_tcl_h=yes else have_tcltk=no fi fi fi if test "${have_tcltk}" = yes; then ## Part 2. Check for tk.h. found_tk_h=no if test -n "${TK_CONFIG}"; then . ${TK_CONFIG} ## TK_INCLUDE_SPEC (if set) is what we want. if test -n ${TK_INCLUDE_SPEC} ; then r_save_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${TCLTK_CPPFLAGS} ${TK_XINCLUDES} ${TK_INCLUDE_SPEC}" AC_CHECK_HEADER([tk.h], [TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} ${TK_INCLUDE_SPEC}" found_tk_h=yes]) CPPFLAGS="${r_save_CPPFLAGS}" fi if test "${found_tk_h}" = no; then ## Look for tk.h in ## ${TK_PREFIX}/include/tk${TK_VERSION} ## ${TK_PREFIX}/include ## Also look in ## ${TK_PREFIX}/include/tcl${TK_VERSION} ## to compensate for Debian madness ... ## Also look in ## ${TK_PREFIX}/include/tk${TK_VERSION}/generic ## to deal with current FreeBSD layouts. See above for details. ## ## As the AC_CHECK_HEADER test tries including the header file and ## tk.h includes tcl.h and X11/Xlib.h, we need to change CPPFLAGS ## for the check. r_save_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${TK_XINCLUDES} ${TCLTK_CPPFLAGS}" for dir in \ ${TK_PREFIX}/include/tk${TK_VERSION}/generic \ ${TK_PREFIX}/include/tk${TK_VERSION} \ ${TK_PREFIX}/include/tcl${TK_VERSION} \ ${TK_PREFIX}/include; do AC_CHECK_HEADER([${dir}/tk.h], [TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} -I${dir}" found_tk_h=yes break]) done CPPFLAGS="${r_save_CPPFLAGS}" fi fi if test "${found_tk_h}" = no; then _R_HEADER_TK if test "{r_cv_header_tk_h}" = yes; then found_tk_h=yes else have_tcltk=no fi fi fi fi if test "${have_tcltk}" = yes; then if test -n "${TK_XINCLUDES}"; then TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} ${TK_XINCLUDES}" else TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} ${X_CFLAGS}" fi fi ])# _R_TCLTK_CPPFLAGS ## _R_TCLTK_LIBS ## ------------- ## Find the tcl and tk libraries. AC_DEFUN([_R_TCLTK_LIBS], [AC_REQUIRE([AC_PATH_XTRA]) AC_REQUIRE([_R_TCLTK_CONFIG]) if test -z "${TCLTK_LIBS}"; then ## We have to do the work. if test "${have_tcltk}" = yes; then ## Part 1. Try finding the tcl library. if test -n "${TCL_CONFIG}"; then . ${TCL_CONFIG} TCLTK_LIBS="${TCL_LIB_SPEC}" else AC_CHECK_LIB(tcl, Tcl_CreateInterp, [TCLTK_LIBS=-ltcl], [have_tcltk=no]) fi fi if test "${have_tcltk}" = yes; then ## Part 2. Try finding the tk library. if test -n "${TK_CONFIG}"; then . ${TK_CONFIG} TCLTK_LIBS="${TCLTK_LIBS} ${TK_LIB_SPEC} ${TK_XLIBSW}" else AC_CHECK_LIB(tk, Tk_Init, , , [${TCLTK_LIBS}]) if test "${ac_cv_lib_tk_Tk_Init}" = no; then ## Grr, simple -ltk does not work. ## But maybe we simply need to add X11 libs. ## Note that we cannot simply repeat the above test with extra ## libs, because AC_CHECK_LIB uses the corresponding cache var ## (ac_cv_lib_tk_Tk_Init in our case) if set. As using unset ## is not portable shell programming according to the Autoconf ## docs, we use Tk_SafeInit in the test with X11 libs added. AC_CHECK_LIB(tk, Tk_SafeInit, [TCLTK_LIBS="${TCLTK_LIBS} -ltk ${X_LIBS}"], [have_tcltk=no], [${TCLTK_LIBS} ${X_LIBS}]) fi fi fi ## Postprocessing for AIX. ## On AIX, the *_LIB_SPEC variables need to contain '-bI:' flags for ## the Tcl export file. These are really flags for ld rather than the ## C/C++ compilers, and hence may need protection via '-Wl,'. ## We have two ways of doing that: ## * Recording whether '-Wl,' is needed for the C or C++ compilers, ## and getting this info into the TCLTK_LIBS make variable ... mess! ## * Protecting all entries in TCLTK_LIBS that do not start with '-l' ## or '-L' with '-Wl,' (hoping that all compilers understand this). ## Easy, hence ... case "${host_os}" in aix*) orig_TCLTK_LIBS="${TCLTK_LIBS}" TCLTK_LIBS= for flag in ${orig_TCLTK_LIBS}; do case "${flag}" in -l*|-L*|-Wl,*) ;; *) flag="-Wl,${flag}" ;; esac TCLTK_LIBS="${TCLTK_LIBS} ${flag}" done ;; esac ## Force evaluation ('-ltcl8.3${TCL_DBGX}' and friends ...). eval "TCLTK_LIBS=\"${TCLTK_LIBS}\"" fi ])# _R_TCLTK_LIBS ## _R_TCLTK_WORKS ## -------------- ## Check whether compiling and linking code using Tcl/Tk works. ## Set shell variable r_cv_tcltk_works to 'yes' or 'no' accordingly. AC_DEFUN([_R_TCLTK_WORKS], [AC_CACHE_CHECK([whether compiling/linking Tcl/Tk code works], [r_cv_tcltk_works], [AC_LANG_PUSH(C) r_save_CPPFLAGS="${CPPFLAGS}" r_save_LIBS="${LIBS}" CPPFLAGS="${CPPFLAGS} ${TCLTK_CPPFLAGS}" LIBS="${LIBS} ${TCLTK_LIBS}" AC_LINK_IFELSE([AC_LANG_PROGRAM( [[#include #include ]], [[static char * p1 = (char *) Tcl_Init; static char * p2 = (char *) Tk_Init; ]])], r_cv_tcltk_works=yes, r_cv_tcltk_works=no) CPPFLAGS="${r_save_CPPFLAGS}" LIBS="${r_save_LIBS}" AC_LANG_POP(C)]) ])# _R_TCLTK_WORKS ## R_TCLTK ## ------- AC_DEFUN([R_TCLTK], [if test "${want_tcltk}" = yes; then have_tcltk=yes ## (Note that the subsequent 3 macros assume that have_tcltk has been ## set appropriately.) _R_TCLTK_CONFIG _R_TCLTK_CPPFLAGS _R_TCLTK_LIBS if test "${have_tcltk}" = yes; then _R_TCLTK_WORKS have_tcltk=${r_cv_tcltk_works} fi else have_tcltk=no ## Just making sure. TCLTK_CPPFLAGS= TCLTK_LIBS= fi if test "${have_tcltk}" = yes; then AC_DEFINE(HAVE_TCLTK, 1, [Define if you have the Tcl/Tk headers and libraries and want Tcl/Tk support to be built.]) use_tcltk=yes else use_tcltk=no fi AC_SUBST(TCLTK_CPPFLAGS) AC_SUBST(TCLTK_LIBS) AC_SUBST(use_tcltk) ])# R_TCLTK ## R_BLAS_LIBS ## ----------- ## Look for a library that implements the BLAS linear-algebra interface ## (see http://www.netlib.org/blas/). On success, sets BLAS_LIBS to the ## requisite library linkages. ## ## This is based on ACX_BLAS by Steven G. Johnson ## from the Official Autoconf Macro Archive ## (http://www.gnu.org/software/ac-archive/htmldoc/acx_blas.m4), ## with the following changes: ## * We also handle HPUX .sl command line specifications. ## * We explictly deal with the case of f2c. Most likely pointless. ## * We only care about the Fortran 77 interface to Atlas, hence do not ## test for -lcblas. ## * We do not use BLAS libs that caused problems in the past: Alpha ## CXML and DXML, and SGI SCSL and SGIMATH (marked with COMMENT tags). ## * As we link with $BLAS_LIBS $FLIBS $LIBS (in that order), we use the ## same order in the tests. ## * We do not use ACTION-IF-FOUND and ACTION-IF-NOT-FOUND. ## The sunperf test calls the library as now required. ## Based on acx_blas.m4 version 1.2 (2001-12-13) AC_DEFUN([R_BLAS_LIBS], [AC_REQUIRE([R_PROG_F77_FLIBS]) AC_REQUIRE([R_PROG_F77_APPEND_UNDERSCORE]) acx_blas_ok=no case "${with_blas}" in yes | "") ;; no) acx_blas_ok=disable ;; -* | */* | *.a | *.so | *.so.* | *.sl | *.sl.* | *.o) BLAS_LIBS="${with_blas}" ;; *) BLAS_LIBS="-l${with_blas}" ;; esac if test "${r_cv_prog_f77_append_underscore}" = yes; then dgemm=dgemm_ sgemm=sgemm_ xerbla=xerbla_ else dgemm=dgemm sgemm=sgemm xerbla=xerbla fi acx_blas_save_LIBS="${LIBS}" LIBS="${FLIBS} ${LIBS}" ## First, check BLAS_LIBS environment variable if test "${acx_blas_ok}" = no; then if test "x${BLAS_LIBS}" != x; then r_save_LIBS="${LIBS}"; LIBS="${BLAS_LIBS} ${LIBS}" AC_MSG_CHECKING([for ${dgemm} in ${BLAS_LIBS}]) AC_TRY_LINK([void ${xerbla}(char *srname, int *info){}], ${dgemm}(), [acx_blas_ok=yes], [BLAS_LIBS=""]) AC_MSG_RESULT([${acx_blas_ok}]) LIBS="${r_save_LIBS}" fi fi ## BLAS linked to by default? (happens on some supercomputers) if test "${acx_blas_ok}" = no; then AC_CHECK_FUNC(${dgemm}, [acx_blas_ok=yes]) fi ## BLAS in ATLAS library? (http://math-atlas.sourceforge.net/) if test "${acx_blas_ok}" = no; then AC_CHECK_LIB(atlas, ATL_xerbla, [AC_CHECK_LIB(f77blas, ${dgemm}, [acx_blas_ok=yes BLAS_LIBS="-lf77blas -latlas"], [], [-latlas])]) fi ## BLAS in PhiPACK libraries? (requires generic BLAS lib, too) if test "${acx_blas_ok}" = no; then AC_CHECK_LIB(blas, ${dgemm}, [AC_CHECK_LIB(dgemm, $dgemm, [AC_CHECK_LIB(sgemm, ${sgemm}, [acx_blas_ok=yes BLAS_LIBS="-lsgemm -ldgemm -lblas"], [], [-lblas])], [], [-lblas])]) fi ## ## ## BLAS in Alpha CXML library? ## if test "${acx_blas_ok}" = no; then ## AC_CHECK_LIB(cxml, ${sgemm}, ## [acx_blas_ok=yes; BLAS_LIBS="-lcxml"]) ## fi ## ## ## # BLAS in Alpha DXML library? (now called CXML, see above) ## if test "${acx_blas_ok}" = no; then ## AC_CHECK_LIB(dxml, ${sgemm}, ## [acx_blas_ok=yes; BLAS_LIBS="-ldxml"]) ## fi ## ## BLAS in Sun Performance library? ## Some versions require -xlic_lib=sunperf: -lsunperf will not work ## Not sure whether -lsunmath is required, but it helps anyway if test "${acx_blas_ok}" = no; then if test "x$GCC" != xyes; then # only works with Sun CC AC_MSG_CHECKING([for ${dgemm} in -lsunperf]) r_save_LIBS="${LIBS}" LIBS="-xlic_lib=sunperf -lsunmath ${LIBS}" AC_TRY_LINK_FUNC([${dgemm}], [R_sunperf=yes], [R_sunperf=no]) if test "${R_sunperf}" = yes; then BLAS_LIBS="-xlic_lib=sunperf -lsunmath" acx_blas_ok=yes fi LIBS="${r_save_LIBS}" AC_MSG_RESULT([${acx_blas_ok}]) fi fi ## ## ## BLAS in SCSL library? (SGI/Cray Scientific Library) ## if test "${acx_blas_ok}" = no; then ## AC_CHECK_LIB(scs, ${sgemm}, ## [acx_blas_ok=yes; BLAS_LIBS="-lscs"]) ## fi ## ## ## ## BLAS in SGIMATH library? ## if test "${acx_blas_ok}" = no; then ## AC_CHECK_LIB(complib.sgimath, ${sgemm}, ## [acx_blas_ok=yes; BLAS_LIBS="-lcomplib.sgimath"]) ## fi ## ## BLAS in IBM ESSL library? (requires generic BLAS lib, too) if test "${acx_blas_ok}" = no; then AC_CHECK_LIB(blas, ${dgemm}, [AC_CHECK_LIB(essl, ${dgemm}, [acx_blas_ok=yes BLAS_LIBS="-lessl -lblas"], [], [-lblas ${FLIBS}])]) fi ## Generic BLAS library? if test "${acx_blas_ok}" = no; then AC_CHECK_LIB(blas, ${dgemm}, [acx_blas_ok=yes; BLAS_LIBS="-lblas"]) fi ## Now check if zdotu works (fails on AMD64 with the wrong compiler; ## also fails on OS X with vecLib and gfortran; but in that case we ## have a work-around using USE_VECLIB_G95FIX) if test "${acx_blas_ok}" = yes; then AC_MSG_CHECKING([whether double complex BLAS can be used]) AC_CACHE_VAL([r_cv_zdotu_is_usable], [cat > conftestf.f < 1.0d-10) then iflag = 1 else iflag = 0 endif end EOF ${F77} ${FFLAGS} -c conftestf.f 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD ## Yes we need to double quote this ... [cat > conftest.c < #include "confdefs.h" #ifdef HAVE_F77_UNDERSCORE # define F77_SYMBOL(x) x ## _ #else # define F77_SYMBOL(x) x #endif extern void F77_SYMBOL(test1)(int *iflag); int main () { int iflag; F77_SYMBOL(test1)(&iflag); exit(iflag); } EOF] if ${CC} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## ## This should really use MAIN_LD, and hence come after this is ## determined (and necessary additions to MAIN_LDFLAGS were made). ## But it seems that we currently can always use the C compiler. ## Also, to be defensive there should be a similar test with SHLIB_LD ## and SHLIB_LDFLAGS (and note that on HPUX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} conftestf.${ac_objext} ${FLIBS} \ ${LIBM} ${BLAS_LIBS} 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; ## then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` if test ${?} = 0; then r_cv_zdotu_is_usable=yes fi fi fi ]) rm -rf conftest conftest.* conftestf.* core if test -n "${r_cv_zdotu_is_usable}"; then AC_MSG_RESULT([yes]) else ## NB: this lot is not cached if test "${r_cv_check_fw_vecLib}" != "no"; then AC_MSG_RESULT([yes]) ## for vecLib we have a work-around by using cblas_..._sub use_veclib_g95fix=yes ## The fix may not work with internal lapack, but ## is more likely to in R >= 2.15.2. else AC_MSG_RESULT([no]) BLAS_LIBS= acx_blas_ok="no" fi fi fi if test "${acx_blas_ok}" = yes; then AC_MSG_CHECKING([whether the BLAS is complete]) AC_CACHE_VAL([r_cv_complete_blas], [[cat > conftest.c < #include "confdefs.h" #ifdef HAVE_F77_UNDERSCORE # define F77_SYMBOL(x) x ## _ #else # define F77_SYMBOL(x) x #endif void F77_SYMBOL(xerbla)(char *srname, int *info) {} void blas_set () { F77_SYMBOL(dasum)(); F77_SYMBOL(daxpy)(); F77_SYMBOL(dcopy)(); F77_SYMBOL(ddot)(); F77_SYMBOL(dgbmv)(); F77_SYMBOL(dgemm)(); F77_SYMBOL(dgemv)(); F77_SYMBOL(dger)(); F77_SYMBOL(dnrm2)(); F77_SYMBOL(drot)(); F77_SYMBOL(drotg)(); F77_SYMBOL(drotm)(); F77_SYMBOL(drotmg)(); F77_SYMBOL(dsbmv)(); F77_SYMBOL(dscal)(); F77_SYMBOL(dsdot)(); F77_SYMBOL(dspmv)(); F77_SYMBOL(dspr)(); F77_SYMBOL(dspr2)(); F77_SYMBOL(dswap)(); F77_SYMBOL(dsymm)(); F77_SYMBOL(dsymv)(); F77_SYMBOL(dsyr)(); F77_SYMBOL(dsyr2)(); F77_SYMBOL(dsyr2k)(); F77_SYMBOL(dsyrk)(); F77_SYMBOL(dtbmv)(); F77_SYMBOL(dtbsv)(); F77_SYMBOL(dtpmv)(); F77_SYMBOL(dtpsv)(); F77_SYMBOL(dtrmm)(); F77_SYMBOL(dtrmv)(); F77_SYMBOL(dtrsm)(); F77_SYMBOL(dtrsv)(); F77_SYMBOL(idamax)(); F77_SYMBOL(lsame)(); #ifdef HAVE_FORTRAN_DOUBLE_COMPLEX /* cmplxblas */ F77_SYMBOL(dcabs1)(); F77_SYMBOL(dzasum)(); F77_SYMBOL(dznrm2)(); F77_SYMBOL(izamax)(); F77_SYMBOL(zaxpy)(); F77_SYMBOL(zcopy)(); F77_SYMBOL(zdotc)(); F77_SYMBOL(zdotu)(); F77_SYMBOL(zdrot)(); F77_SYMBOL(zdscal)(); F77_SYMBOL(zgbmv)(); F77_SYMBOL(zgemm)(); F77_SYMBOL(zgemv)(); F77_SYMBOL(zgerc)(); F77_SYMBOL(zgeru)(); F77_SYMBOL(zhbmv)(); F77_SYMBOL(zhemm)(); F77_SYMBOL(zhemv)(); F77_SYMBOL(zher)(); F77_SYMBOL(zherk)(); F77_SYMBOL(zher2)(); F77_SYMBOL(zher2k)(); F77_SYMBOL(zhpmv)(); F77_SYMBOL(zhpr)(); F77_SYMBOL(zhpr2)(); F77_SYMBOL(zrotg)(); F77_SYMBOL(zscal)(); F77_SYMBOL(zswap)(); F77_SYMBOL(zsymm)(); F77_SYMBOL(zsyr2k)(); F77_SYMBOL(zsyrk)(); F77_SYMBOL(ztbmv)(); F77_SYMBOL(ztbsv)(); F77_SYMBOL(ztpmv)(); F77_SYMBOL(ztpsv)(); F77_SYMBOL(ztrmm)(); F77_SYMBOL(ztrmv)(); F77_SYMBOL(ztrsm)(); F77_SYMBOL(ztrsv)(); #endif } int main () { exit(0); } EOF] if ${CC} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## ## This should really use MAIN_LD, and hence come after this is ## determined (and necessary additions to MAIN_LDFLAGS were made). ## But it seems that we currently can always use the C compiler. ## Also, to be defensive there should be a similar test with SHLIB_LD ## and SHLIB_LDFLAGS (and note that on HPUX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} ${FLIBS} \ ${LIBM} ${BLAS_LIBS} 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; ## then r_cv_complete_blas=yes fi fi ]) if test x"${r_cv_complete_blas}" != xyes; then acx_blas_ok="no" r_cv_complete_blas=no BLAS_LIBS="" fi AC_MSG_RESULT([${r_cv_complete_blas}]) fi LIBS="${acx_blas_save_LIBS}" AC_SUBST(BLAS_LIBS) ])# R_BLAS_LIBS ## R_LAPACK_LIBS ## ------------- ## Look for a library that implements LAPACK (see ## http://www.netlib.org/lapack/). On success, sets LAPACK_LIBS to the ## requisite library linkages. Only used by the lapack module at ## present. ## ## This is roughly based on ACX_LAPACK by Steven G. Johnson ## from the Official Autoconf Macro Archive ## (http://www.gnu.org/software/ac-archive/htmldoc/acx_lapack.m4), ## with the following changes: ## * We also handle HPUX .sl command line specifications. ## * We explictly deal with the case of f2c. Most likely pointless. ## * We test for a LAPACK_LIBS environment variable after checking ## whether LAPACK is already linked (see below). ## * We do not test for the generic lapack_rs6k library (why not?). ## * As we link with $LAPACK_LIBS $BLAS_LIBS $FLIBS $LIBS (in that ## order), we use the same order in the tests. ## * We do not use ACTION-IF-FOUND and ACTION-IF-NOT-FOUND. ## Note that Debian ATLAS has LAPACK libs in /usr/lib/atlas (or $arch ## variants) which should be used if ATLAS is used for BLAS, and not ## found at configure time but used at run time ... ## Note also that (see R-admin) that our main intention is to allow a ## LAPACK-containing BLAS to be used ... there are too many slow or ## broken LAPACKs out there. ## Based on acx_lapack.m4 version 1.3 (2002-03-12). ## Test function was zgeev, changed to dpstrf which is LAPACK 3.2. AC_DEFUN([R_LAPACK_LIBS], [AC_REQUIRE([R_PROG_F77_FLIBS]) AC_REQUIRE([R_PROG_F77_APPEND_UNDERSCORE]) AC_REQUIRE([R_BLAS_LIBS]) acx_lapack_ok=no case "${with_lapack}" in yes | "") ;; no) acx_lapack_ok=disable ;; -* | */* | *.a | *.so | *.so.* | *.sl | *.sl.* | *.o) LAPACK_LIBS="${with_lapack}" ;; *) LAPACK_LIBS="-l${with_lapack}" ;; esac if test "${r_cv_prog_f77_append_underscore}" = yes; then lapack=dpstrf_ else lapack=dpstrf fi # We cannot use LAPACK if BLAS is not found if test "x${acx_blas_ok}" != xyes; then acx_lapack_ok=noblas fi acx_lapack_save_LIBS="${LIBS}" LIBS="${BLAS_LIBS} ${FLIBS} ${LIBS}" ## LAPACK linked to by default? (Could be in the BLAS libs.) if test "${acx_lapack_ok}" = no; then AC_CHECK_FUNC(${lapack}, [acx_lapack_ok=yes]) fi ## Next, check LAPACK_LIBS environment variable if test "${acx_lapack_ok}" = no; then if test "x${LAPACK_LIBS}" != x; then r_save_LIBS="${LIBS}"; LIBS="${LAPACK_LIBS} ${LIBS}" AC_MSG_CHECKING([for ${lapack} in ${LAPACK_LIBS}]) AC_TRY_LINK_FUNC(${lapack}, [acx_lapack_ok=yes], [LAPACK_LIBS=""]) AC_MSG_RESULT([${acx_lapack_ok}]) LIBS="${r_save_LIBS}" fi fi ## LAPACK in Sun Performance library? ## No longer test here as will be picked up by the default test. ## Generic LAPACK library? if test "${acx_lapack_ok}" = no; then AC_CHECK_LIB(lapack, ${lapack}, [acx_lapack_ok=yes; LAPACK_LIBS="-llapack"]) fi LIBS="${acx_lapack_save_LIBS}" AC_SUBST(LAPACK_LIBS) ])# R_LAPACK_LIBS ## R_XDR ## ----- ## Try finding XDR library functions and headers. ## FreeBSD in particular needs rpc/types.h before rpc/xdr.h. AC_DEFUN([R_XDR], [AC_CHECK_HEADER(rpc/types.h) if test "${ac_cv_header_rpc_types_h}" = yes ; then AC_CHECK_HEADER(rpc/xdr.h, , , [#include ]) fi if test "${ac_cv_header_rpc_types_h}" = yes && \ test "${ac_cv_header_rpc_xdr_h}" = yes && \ test "${ac_cv_search_xdr_string}" != no ; then r_xdr=yes else r_xdr=no fi TIRPC_CPPFLAGS= if test "${r_xdr}" = no ; then ## No RPC headers, so try for TI-RPC headers: need /usr/include/tirpc ## on include path to find /usr/include/tirpc/netconfig.h save_CPPFLAGS=${CPPFLAGS} CPPFLAGS="${CPPFLAGS} -I/usr/include/tirpc" AC_CHECK_HEADER(tirpc/rpc/types.h) if test "${ac_cv_header_tirpc_rpc_types_h}" = yes ; then AC_CHECK_HEADER(tirpc/rpc/xdr.h, , , [#include ]) fi if test "${ac_cv_header_tirpc_rpc_types_h}" = yes && \ test "${ac_cv_header_tirpc_rpc_xdr_h}" = yes && test "${ac_cv_search_xdr_string}" != no ; then TIRPC_CPPFLAGS=-I/usr/include/tirpc r_xdr=yes fi CPPFLAGS="${save_CPPFLAGS}" fi AC_MSG_CHECKING([for XDR support]) AC_MSG_RESULT([${r_xdr}]) AM_CONDITIONAL(BUILD_XDR, [test "x${r_xdr}" = xno]) AC_SUBST(TIRPC_CPPFLAGS) ])# R_XDR ## R_ZLIB ## ------ ## Try finding zlib library and headers. ## We check that both are installed, and that the header >= 1.2.3 AC_DEFUN([R_ZLIB], [if test "x${use_system_zlib}" = xyes; then AC_CHECK_LIB(z, inflateInit2_, [have_zlib=yes], [have_zlib=no]) if test "${have_zlib}" = yes; then AC_CHECK_HEADER(zlib.h, [have_zlib=yes], [have_zlib=no]) fi if test "${have_zlib}" = yes; then _R_HEADER_ZLIB have_zlib=${r_cv_header_zlib_h} fi else have_zlib="no" fi AC_MSG_CHECKING([whether zlib support needs to be compiled]) if test "${have_zlib}" = yes; then AC_MSG_RESULT([no]) LIBS="-lz ${LIBS}" else AC_MSG_RESULT([yes]) _R_ZLIB_MMAP fi AM_CONDITIONAL(BUILD_ZLIB, [test "x${have_zlib}" = xno]) AM_CONDITIONAL(USE_MMAP_ZLIB, [test "x${have_zlib}" = xno && test "x${r_cv_zlib_mmap}" = xyes]) ])# R_ZLIB ## _R_HEADER_ZLIB ## -------------- ## Set shell variable r_cv_header_zlib_h to 'yes' if a recent enough ## zlib.h is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_ZLIB], [AC_CACHE_CHECK([if zlib version >= 1.2.3], [r_cv_header_zlib_h], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { #ifdef ZLIB_VERSION /* Workaround Debian bug: it uses 1.2.3.4 even though there is no such version on the master site zlib.net */ exit(strncmp(ZLIB_VERSION, "1.2.3", 5) < 0); #else exit(1); #endif } ]])], [r_cv_header_zlib_h=yes], [r_cv_header_zlib_h=no], [r_cv_header_zlib_h=no])]) ])# _R_HEADER_ZLIB ## _R_ZLIB_MMAP ## ------------ AC_DEFUN([_R_ZLIB_MMAP], [AC_CACHE_CHECK([mmap support for zlib], [r_cv_zlib_mmap], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include #include caddr_t hello() { exit(mmap((caddr_t)0, (off_t)0, PROT_READ, MAP_SHARED, 0, (off_t)0)); } ]])], [r_cv_zlib_mmap=no], [r_cv_zlib_mmap=yes], [r_cv_zlib_mmap=yes])]) ])# _R_ZLIB_MMAP ## R_PCRE ## ------ ## Try finding pcre library and headers. ## RedHat puts the headers in /usr/include/pcre. AC_DEFUN([R_PCRE], [if test "x${use_system_pcre}" = xyes; then AC_CHECK_LIB(pcre, pcre_fullinfo, [have_pcre=yes], [have_pcre=no]) if test "${have_pcre}" = yes; then AC_CHECK_HEADERS(pcre.h pcre/pcre.h) if test "${ac_cv_header_pcre_h}" = no \ && test "${ac_cv_header_pcre_pcre_h}" = no; then have_pcre=no fi fi else have_pcre=no fi if test "x${have_pcre}" = xyes; then AC_CACHE_CHECK([if PCRE version >= 7.6], [r_cv_have_pcre76], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_PCRE_PCRE_H #include #else #ifdef HAVE_PCRE_H #include #endif #endif int main() { #ifdef PCRE_MAJOR #if PCRE_MAJOR > 7 exit(0); #elif PCRE_MAJOR > 6 && PCRE_MAJOR >= 6 exit(0); #else exit(1); #endif #else exit(1); #endif } ]])], [r_cv_have_pcre76=yes], [r_cv_have_pcre76=no], [r_cv_have_pcre76=no])]) fi if test "x${r_cv_have_pcre76}" = xyes; then LIBS="-lpcre ${LIBS}" fi AC_MSG_CHECKING([whether PCRE support needs to be compiled]) if test "x${r_cv_have_pcre76}" = xyes; then AC_MSG_RESULT([no]) else AC_MSG_RESULT([yes]) fi AM_CONDITIONAL(BUILD_PCRE, [test "x${r_cv_have_pcre76}" != xyes]) ])# R_PCRE ## R_BZLIB ## ------- ## Try finding bzlib library and headers. ## We check that both are installed, ## and that BZ2_bzlibVersion is in the library. AC_DEFUN([R_BZLIB], [if test "x${use_system_bzlib}" = xyes; then AC_CHECK_LIB(bz2, BZ2_bzlibVersion, [have_bzlib=yes], [have_bzlib=no]) if test "${have_bzlib}" = yes; then AC_CHECK_HEADERS(bzlib.h, [have_bzlib=yes], [have_bzlib=no]) fi else have_bzlib=no fi if test "x${have_bzlib}" = xyes; then AC_CACHE_CHECK([if bzip2 version >= 1.0.6], [r_cv_have_bzlib], [AC_LANG_PUSH(C) r_save_LIBS="${LIBS}" LIBS="-lbz2 ${LIBS}" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_BZLIB_H #include #endif int main() { char *ver = BZ2_bzlibVersion(); exit(strcmp(ver, "1.0.6") < 0); } ]])], [r_cv_have_bzlib=yes], [r_cv_have_bzlib=no], [r_cv_have_bzlib=no]) LIBS="${r_save_LIBS}" AC_LANG_POP(C)]) fi if test "x${r_cv_have_bzlib}" = xno; then have_bzlib=no fi AC_MSG_CHECKING([whether bzip2 support needs to be compiled]) if test "x${have_bzlib}" = xyes; then AC_MSG_RESULT([no]) LIBS="-lbz2 ${LIBS}" else AC_MSG_RESULT([yes]) fi AM_CONDITIONAL(BUILD_BZLIB, [test "x${have_bzlib}" = xno]) ])# R_BZLIB ## R_LZMA ## ------- ## Try finding liblzma library and headers. ## We check that both are installed, AC_DEFUN([R_LZMA], [if test "x${use_system_xz}" = xyes; then AC_CHECK_LIB(lzma, lzma_version_number, [have_lzma=yes], [have_lzma=no]) if test "${have_lzma}" = yes; then AC_CHECK_HEADERS(lzma.h, [have_lzma=yes], [have_lzma=no]) fi if test "x${have_lzma}" = xyes; then AC_CACHE_CHECK([if lzma version >= 4.999], [r_cv_have_lzma], [AC_LANG_PUSH(C) r_save_LIBS="${LIBS}" LIBS="-llzma ${LIBS}" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_LZMA_H #include #endif #include int main() { unsigned int ver = lzma_version_number(); exit(ver < 49990000); } ]])], [r_cv_have_lzma=yes], [r_cv_have_lzma=no], [r_cv_have_lzma=no]) LIBS="${r_save_LIBS}" AC_LANG_POP(C)]) fi if test "x${r_cv_have_lzma}" = xno; then have_lzma=no fi if test "x${have_lzma}" = xyes; then AC_DEFINE(HAVE_LZMA, 1, [Define if your system has lzma >= 4.999.]) LIBS="-llzma ${LIBS}" fi else have_lzma="no" fi AM_CONDITIONAL(BUILD_XZ, [test x${have_lzma} != xyes]) ])# R_LZMA ## R_SYS_POSIX_LEAPSECONDS ## ----------------------- ## See if your system time functions do not count leap seconds, as ## required by POSIX. AC_DEFUN([R_SYS_POSIX_LEAPSECONDS], [AC_CACHE_CHECK([whether leap seconds are treated according to POSIX], [r_cv_sys_posix_leapseconds], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include #include "confdefs.h" int main () { struct tm *tm; time_t ct = 0; /* required on 64bit AIX */ ctime(&ct); ct = ct - (ct % 60); tm = gmtime(&ct); if(tm->tm_sec == 0) exit(1); else exit(0); } ]])], [r_cv_sys_posix_leapseconds=no], [r_cv_sys_posix_leapseconds=yes], [r_cv_sys_posix_leapseconds=yes])]) if test "x${r_cv_sys_posix_leapseconds}" = xyes; then AC_DEFINE(HAVE_POSIX_LEAPSECONDS, 1, [Define if your system time functions do not count leap seconds, as required by POSIX.]) fi ])# R_SYS_POSIX_LEAPSECONDS ### * Miscellaneous ## R_RECOMMENDED_PACKAGES ## ---------------------- ## See if the sources for (all) the recommended packages are available. AC_DEFUN([R_RECOMMENDED_PACKAGES], [AC_CACHE_CHECK([for recommended packages], [r_cv_misc_recommended_packages], [r_cv_misc_recommended_packages=yes recommended_pkgs=`grep '^R_PKGS_RECOMMENDED *=' \ ${srcdir}/share/make/vars.mk | sed 's/.*=//'` for pkg in ${recommended_pkgs}; do n_pkg=`ls ${srcdir}/src/library/Recommended/${pkg}_*.tar.gz | wc -l` if test ${n_pkg} -ne 1; then r_cv_misc_recommended_packages=no break fi done]) use_recommended_packages=${r_cv_misc_recommended_packages} if test "x${r_cv_misc_recommended_packages}" = xno; then AC_MSG_ERROR([Some of the recommended packages are missing Use --without-recommended-packages if this was intentional]) fi ])# R_RECOMMENDED_PACKAGES ## R_SIZE_MAX ## ---------- ## Look for a definition of SIZE_MAX (the maximum of size_t). ## C99 has it declared in , pre-C99 POSIX in , ## glibc in and Solaris 8 in ! ## autoconf tests for inttypes.h and stdint.h by default AC_DEFUN([R_SIZE_MAX], [AC_CACHE_CHECK([whether SIZE_MAX is declared], [r_cv_size_max], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #ifdef HAVE_INTTYPES_H # include #endif #ifdef HAVE_STDINT_H # include #endif #ifdef HAVE_LIMITS_H # include #endif int main() { #ifndef SIZE_MAX char *p = (char *) SIZE_MAX; #endif ; return 0; } ]])], [r_cv_size_max=yes], [r_cv_size_max=no], [r_cv_size_max=no])]) if test "x${r_cv_size_max}" = xyes; then AC_DEFINE(HAVE_DECL_SIZE_MAX, 1, [Define to 1 if you have the declaration of `SIZE_MAX', and to 0 if you don't.]) fi ])# R_SIZE_MAX ## R_ICONV ## ------- ## Look for iconv, possibly in libiconv. ## Need to include as this may define iconv as a macro. ## libiconv, e.g. on MacOS X, has iconv as a macro and needs -liconv. AC_DEFUN([R_ICONV], [AC_CHECK_HEADERS(iconv.h) ## need to ignore cache for this as it may set LIBS unset ac_cv_func_iconv AC_CACHE_CHECK(for iconv, ac_cv_func_iconv, [ ac_cv_func_iconv="no" AC_TRY_LINK([#include #ifdef HAVE_ICONV_H #include #endif], [iconv_t cd = iconv_open("",""); iconv(cd,NULL,NULL,NULL,NULL); iconv_close(cd);], ac_cv_func_iconv=yes) if test "$ac_cv_func_iconv" != yes; then r_save_LIBS="$LIBS" LIBS="$LIBS -liconv" AC_TRY_LINK([#include #ifdef HAVE_ICONV_H #include #endif], [iconv_t cd = iconv_open("",""); iconv(cd,NULL,NULL,NULL,NULL); iconv_close(cd);], ac_cv_func_iconv="in libiconv") if test "$ac_cv_func_iconv" = no; then LIBS="$r_save_LIBS" fi fi ]) if test "$ac_cv_func_iconv" != no; then AC_DEFINE(HAVE_ICONV, 1, [Define if you have the `iconv' function.]) AC_CACHE_CHECK([whether iconv accepts "UTF-8", "latin1", "ASCII" and "UCS-*"], [r_cv_iconv_latin1], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #ifdef HAVE_ICONV_H #include #endif int main () { iconv_t cd; cd = iconv_open("latin1","UTF-8"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UTF-8","latin1"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("","latin1"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("","UTF-8"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("latin1", ""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UTF-8",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("ASCII",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UCS-2LE",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("", "UCS-2LE"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UCS-2BE",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("", "UCS-2BE"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UCS-4LE",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("", "UCS-4LE"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UCS-4BE",""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("", "UCS-4BE"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); exit(0); } ]])], [r_cv_iconv_latin1=yes], [r_cv_iconv_latin1=no], [r_cv_iconv_latin1=yes])]) ## on Windows we supply iconv ourselves case "${host_os}" in mingw*) r_cv_iconv_latin1=yes ;; esac if test "$r_cv_iconv_latin1" != yes; then AC_MSG_ERROR([a suitable iconv is essential]) fi fi ## if the iconv we are using was in libiconv we have already included -liconv AC_CACHE_CHECK(for iconvlist, ac_cv_func_iconvlist, [ ac_cv_func_iconvlist="no" AC_TRY_LINK([#include #ifdef HAVE_ICONV_H #include #endif static int count_one (unsigned int namescount, char * *names, void *data) {return 0;}], [iconvlist(count_one, NULL);], ac_cv_func_iconvlist=yes) ]) if test "$ac_cv_func_iconvlist" = yes; then AC_DEFINE(HAVE_ICONVLIST, 1, [Define if you have the `iconvlist' function.]) fi AM_ICONV dnl from gettext.m4 ])# R_ICONV ## R_MBCS ## ------------- ## locales - support for MBCS and specifically UTF-8 AC_DEFUN([R_MBCS], [ want_mbcs_support=yes ## Wide character support -- first test for headers (which are assumed in code) AC_CHECK_HEADERS(wchar.h wctype.h) for ac_header in wchar wctype; do as_ac_var=`echo "ac_cv_header_${ac_header}_h"` this=`eval echo '${'$as_ac_var'}'` if test "x$this" = xno; then want_mbcs_support=no fi done if test "$want_mbcs_support" = yes ; then ## Solaris 8 is missing iswblank, but we can make it from iswctype. ## These are all C99, but Cygwin lacks wcsftime & wcstod R_CHECK_FUNCS([mbrtowc wcrtomb wcscoll wcsftime wcstod], [#include ]) R_CHECK_FUNCS([mbstowcs wcstombs], [#include ]) R_CHECK_FUNCS([wctrans iswblank wctype iswctype], [#include #include ]) for ac_func in mbrtowc mbstowcs wcrtomb wcscoll wcstombs \ wctrans wctype iswctype do as_ac_var=`echo "ac_cv_have_decl_$ac_func"` this=`eval echo '${'$as_ac_var'}'` if test "x$this" = xno; then want_mbcs_support=no fi done fi ## it seems IRIX once had wctrans but not wctrans_t: we check this when we ## know we have the headers and wctrans(). ## Also Solaris 2.6 (very old) seems to be missing mbstate_t if test "$want_mbcs_support" = yes ; then AC_CHECK_TYPES([wctrans_t, mbstate_t], , , [#include #include ]) if test $ac_cv_type_wctrans_t != yes; then want_mbcs_support=no fi if test $ac_cv_type_mbstate_t != yes; then want_mbcs_support=no fi fi if test "x${want_mbcs_support}" != xyes; then AC_MSG_ERROR([Support for MBCS locales is required.]) fi ])# R_MBCS ## R_C99_COMPLEX ## ------------- ## C99 complex AC_DEFUN([R_C99_COMPLEX], [AC_CHECK_HEADER(complex.h, [r_c99_complex=yes], [r_c99_complex=no]) if test "${r_c99_complex}" = "yes"; then AC_CHECK_TYPE([double complex], , [r_c99_complex=no], [#include ]) fi AC_MSG_CHECKING([whether C99 double complex is supported]) AC_MSG_RESULT([${r_c99_complex}]) dnl we are supposed to have a C99 compiler, so fail at this point. if test "${r_c99_complex}" = "no"; then AC_MSG_ERROR([Support for C99 double complex type is required.]) fi R_CHECK_FUNCS([cabs carg cexp clog csqrt cpow ccos csin ctan \ cacos casin catan ccosh csinh ctanh], [#include ]) ])# R_COMPLEX ## R_CHECK_DECL(SYMBOL, ## [ACTION-IF-FOUND], [ACTION-IF-NOT-FOUND], ## [INCLUDES = DEFAULT-INCLUDES]) ## ------------------------------------------------------- ## Check if SYMBOL (a variable or a function) is declared. AC_DEFUN([R_CHECK_DECL], [AS_VAR_PUSHDEF([ac_Symbol], [ac_cv_have_decl_$1])dnl AC_CACHE_CHECK([whether $1 exists and is declared], ac_Symbol, [AC_LINK_IFELSE([AC_LANG_PROGRAM([AC_INCLUDES_DEFAULT([$4])], [#ifndef $1 char *p = (char *) $1; #endif ])], [AS_VAR_SET(ac_Symbol, yes)], [AS_VAR_SET(ac_Symbol, no)])]) AS_IF([test AS_VAR_GET(ac_Symbol) = yes], [$2], [$3])[]dnl AS_VAR_POPDEF([ac_Symbol])dnl ])# R_CHECK_DECL ## R_CHECK_FUNCS(SYMBOLS, ## [INCLUDES = DEFAULT-INCLUDES]) ## -------------------------------------------------------- ## Defines HAVE_SYMBOL if declared. SYMBOLS is an m4 list. AC_DEFUN([R_CHECK_FUNCS], [AC_FOREACH([AC_Func], [$1], [AH_TEMPLATE(AS_TR_CPP(HAVE_[]AC_Func), [Define to 1 if you have the `]AC_Func[' function.])])dnl for ac_func in $1 do R_CHECK_DECL($ac_func, [AC_DEFINE_UNQUOTED(AS_TR_CPP([HAVE_$ac_func]), 1)], , [$2]) done ])# R_CHECK_FUNCS ## R_GCC4_VISIBILITY ## Sets up suitable macros for visibility attributes in gcc4/gfortran AC_DEFUN([R_GCC4_VISIBILITY], [AC_CACHE_CHECK([whether __attribute__((visibility())) is supported], [r_cv_visibility_attribute], [cat > conftest.c <&AS_MESSAGE_LOG_FD); then if grep '\.hidden.*foo' conftest.s >/dev/null; then r_cv_visibility_attribute=yes fi fi rm -f conftest.[cs] ]) if test $r_cv_visibility_attribute = yes; then AC_DEFINE(HAVE_VISIBILITY_ATTRIBUTE, 1, [Define to 1 if __attribute__((visibility())) is supported]) fi ## test if visibility flag is accepted: NB Solaris compilers do and ignore, ## so only make use of this if HAVE_VISIBILITY_ATTRIBUTE is true. r_save_CFLAGS=$CFLAGS CFLAGS="$CFLAGS -fvisibility=hidden" AC_CACHE_CHECK(whether $CC accepts -fvisibility, r_cv_prog_cc_vis, [_AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [r_cv_prog_cc_vis=yes], [r_cv_prog_cc_vis=no])]) CFLAGS=$r_save_CFLAGS if test "${r_cv_prog_cc_vis}" = yes; then if test "${r_cv_visibility_attribute}" = yes; then C_VISIBILITY="-fvisibility=hidden" fi fi ## Need to exclude Intel compilers, where this does not work. ## The flag is documented, and is effective but also hides ## unsatisfied references. We cannot test for GCC, as icc passes that test. case "${CC}" in ## Intel compiler: note that -c99 may have been appended *icc*) C_VISIBILITY= ;; esac AC_SUBST(C_VISIBILITY) AC_LANG_PUSH(Fortran 77) r_save_FFLAGS=$FFLAGS FFLAGS="$FFLAGS -fvisibility=hidden" AC_CACHE_CHECK(whether $F77 accepts -fvisibility, r_cv_prog_f77_vis, [_AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [r_cv_prog_f77_vis=yes], [r_cv_prog_f77_vis=no])]) FFLAGS=$r_save_FFLAGS AC_LANG_POP(Fortran 77) if test "${r_cv_prog_f77_vis}" = yes; then if test "${r_cv_visibility_attribute}" = yes; then F77_VISIBILITY="-fvisibility=hidden" fi fi ## need to exclude Intel compilers. case "${F77}" in ## Intel compiler *ifc|*ifort) F77_VISIBILITY= ;; esac AC_SUBST(F77_VISIBILITY) ])# R_GCC4_VISIBILITY ## R_KERN_USRSTACK ## ------------- ## Checks whether we can use KERN_USRSTACK sysctl to ## get the bottom of the stack (*BSD, Darwin, ...) AC_DEFUN([R_KERN_USRSTACK], [ AC_CACHE_CHECK([whether KERN_USRSTACK sysctl is supported], [r_cv_kern_usrstack], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #include #include #include int main () { int nm[2] = {CTL_KERN, KERN_USRSTACK}; void * base; size_t len = sizeof(void *); int r = sysctl(nm, 2, &base, &len, NULL, 0); exit((r==0)?0:1); } ]])], [r_cv_kern_usrstack=yes], [r_cv_kern_usrstack=no], [r_cv_kern_usrstack=no])]) if test $r_cv_kern_usrstack = yes; then AC_DEFINE(HAVE_KERN_USRSTACK, 1, [Define if KERN_USRSTACK sysctl is supported.]) fi ]) ## R_PUTENV_AS_UNSETENV ## -------------------- ## On some OSes putenv can unset an environment variable via ## putenv(FOO) (glibc >= 2.2) or putenv(FOO=) (Windows) AC_DEFUN([R_PUTENV_AS_UNSETENV], [ AC_CACHE_CHECK([whether putenv("FOO") can unset an environment variable], [r_cv_putenv_unset], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #include int main() { char *p; #ifdef HAVE_PUTENV putenv("R_TEST=testit"); p = getenv("R_TEST"); if(!p) exit(10); if(strcmp(p, "testit")) exit(11); putenv("R_TEST"); p = getenv("R_TEST"); if(!p) exit(0); #endif exit(1); } ]])], [r_cv_putenv_unset=yes], [r_cv_putenv_unset=no], [r_cv_putenv_unset=no])]) if test $r_cv_putenv_unset = yes; then AC_DEFINE(HAVE_PUTENV_UNSET, 1, [Define if putenv("FOO") can unset an environment variable]) fi ] [ AC_CACHE_CHECK([whether putenv("FOO=") can unset an environment variable], [r_cv_putenv_unset2], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #include int main() { char *p; #ifdef HAVE_PUTENV putenv("R_TEST=testit"); p = getenv("R_TEST"); if(!p) exit(10); if(strcmp(p, "testit")) exit(11); putenv("R_TEST="); p = getenv("R_TEST"); if(!p) exit(0); #endif exit(1); } ]])], [r_cv_putenv_unset2=yes], [r_cv_putenv_unset2=no], [r_cv_putenv_unset2=no])]) if test $r_cv_putenv_unset2 = yes; then AC_DEFINE(HAVE_PUTENV_UNSET2, 1, [Define if putenv("FOO=") can unset an environment variable]) fi ] ) ## R_FUNC_SIGACTION ## ---------------- ## Some people claim that the SA_SIGINFO flag is an extension, ## despite the clarity of POSIX markup. One such case is Hurd. AC_DEFUN([R_FUNC_SIGACTION], [ AC_CACHE_CHECK([for working sigaction], [r_cv_func_sigaction_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #include int main () { struct sigaction sa; siginfo_t si, *ip; sigemptyset(&sa.sa_mask); sa.sa_flags = SA_ONSTACK | SA_SIGINFO; ip = &si; { void *addr = ip->si_addr; int code = ip->si_code; } exit(0); } ]])], [r_cv_func_sigaction_works=yes], [r_cv_func_sigaction_works=no], [r_cv_func_sigaction_works=no])]) if test "x${r_cv_func_sigaction_works}" = xyes; then AC_DEFINE(HAVE_WORKING_SIGACTION, 1, [Define if sigaction() is complete enough for R's usage]) fi ])# R_FUNC_SIGACTION ## R_CROSS_COMPILING ## --------- ## check for tools necessary for cross-compiling, ## namely BUILD_CC and BUILD_R ## This macro does nothing for native builds AC_DEFUN([R_CROSS_COMPILING], [ if test "${cross_compiling}" = yes; then AC_MSG_CHECKING([for build C compiler]) build_cc_works=no echo "int main(void) { return 0; }" > conftest.c if test -n "${BUILD_CC}" && "${BUILD_CC}" conftest.c -o conftest && ./conftest; then build_cc_works=yes; fi if test "${build_cc_works}" = no; then for prog in gcc cc; do if "${prog}" conftest.c -o conftest >/dev/null 2>&1 && ./conftest; then BUILD_CC="${prog}"; build_cc_works=yes; break fi done fi rm -rf conftest conftest.* core if test "${build_cc_works}" = no; then AC_MSG_RESULT(none) AC_MSG_ERROR([Build C compiler doesn't work. Set BUILD_CC to a compiler capable of creating a binary native to the build machine.]) fi AC_MSG_RESULT([${BUILD_CC}]) AC_MSG_CHECKING([for build R]) : ${BUILD_R=R} if echo 'cat(R.home())'|"${BUILD_R}" --vanilla --slave >/dev/null 2>&1; then AC_MSG_RESULT([${BUILD_R}]) else AC_MSG_RESULT(none) AC_MSG_ERROR([Build R doesn't work. Set BUILD_R to a native build of the same R version that you want to cross-compile.]) fi fi ]) ## R_MKTIME_ERRNO ## -------------- ## Check whether mktime sets errno AC_DEFUN([R_MKTIME_ERRNO], [AC_CACHE_CHECK([whether mktime sets errno], [r_cv_mktime_errno], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { struct tm tm; /* It's hard to know what is an error, since mktime is allowed to fix up times and there are 64-bit time_t about. But this works for now (yes on Solaris, no on glibc). */ tm.tm_year = 3000; tm.tm_mon = 0; tm.tm_mday = 0; tm.tm_hour = 0; tm.tm_min = 0; tm.tm_sec = 0; tm.tm_isdst = -1; errno = 0; mktime(&tm); exit(errno == 0); } ]])], [r_cv_mktime_errno=yes], [r_cv_mktime_errno=no], [r_cv_mktime_errno=no])]) if test "${r_cv_mktime_errno}" = yes; then AC_DEFINE(MKTIME_SETS_ERRNO,, [Define if mktime sets errno.]) fi ])# R_MKTIME_ERRNO ## R_ICU ## ----- AC_DEFUN([R_ICU], [AC_CACHE_CHECK([for ICU], [r_cv_icu], [r_save_LIBS="${LIBS}" LIBS="${LIBS} -licuuc -licui18n" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include #include #include int main () { UErrorCode status = U_ZERO_ERROR; UCollator *collator; UCharIterator aIter; collator = ucol_open(NULL, &status); if (U_FAILURE(status)) exit(1); /* check if ICU is complete enough */ uiter_setUTF8(&aIter, "abc", 3); int result = ucol_strcollIter(collator, &aIter, &aIter, &status); if (U_FAILURE(status)) exit(1); exit(0); } ]])], [r_cv_icu=yes], [r_cv_icu=no], [r_cv_icu=no]) LIBS="${r_save_LIBS}" ]) if test "x${r_cv_icu}" = xyes; then AC_DEFINE(USE_ICU, 1, [Define to use ICU for collation.]) LIBS="${LIBS} -licuuc -licui18n" else use_ICU=no fi ])# R_ICU ## R_ABI ## ------------ AC_DEFUN([R_ABI], [## System type. case "${host_os}" in linux*) R_SYSTEM_ABI="linux" ;; solaris*) R_SYSTEM_ABI="solaris" ;; darwin*) R_SYSTEM_ABI="osx" ;; freebsd*) R_SYSTEM_ABI="freebsd" ;; *) R_SYSTEM_ABI="?" ;; esac ## Compiler types ## C: AC_PROG_CC does ## If using the GNU C compiler, set shell variable `GCC' to `yes'. ## Alternatively, could use ac_cv_c_compiler_gnu (undocumented). if test "${GCC}" = yes; then R_SYSTEM_ABI="${R_SYSTEM_ABI},gcc" else case "${host_os}" in solaris*) ## we assume native compilers elsewhere (e.g. for -KPIC), so do so here too. R_SYSTEM_ABI="${R_SYSTEM_ABI},solcc" ;; *) R_SYSTEM_ABI="${R_SYSTEM_ABI},?" esac fi ## C++: AC_PROG_CXX does ## If using the GNU C++ compiler, set shell variable `GXX' to `yes'. ## Alternatively, could use ac_cv_cxx_compiler_gnu (undocumented). if test "${GXX}" = yes; then R_SYSTEM_ABI="${R_SYSTEM_ABI},gxx" else case "${host_os}" in solaris*) R_SYSTEM_ABI="${R_SYSTEM_ABI},solCC" ;; *) R_SYSTEM_ABI="${R_SYSTEM_ABI},?" esac fi ## Fortran 77: AC_PROG_F77 does ## If using `g77' (the GNU Fortran 77 compiler), then set the shell ## variable `G77' to `yes' (and also seems to do so for gfortran, which ## is what we really need). ## Alternatively, could use ac_cv_f77_compiler_gnu (undocumented). if test "${G77}" = yes; then R_SYSTEM_ABI="${R_SYSTEM_ABI},gfortran" else case "${host_os}" in solaris*) R_SYSTEM_ABI="${R_SYSTEM_ABI},solf95" ;; *) R_SYSTEM_ABI="${R_SYSTEM_ABI},?" esac fi ## Fortran 90/95: AC_PROG_FC does not seem to set a shell variable ## indicating the GNU Fortran 90/95 compiler. ## Hence, need to use ac_cv_fc_compiler_gnu (undocumented). if test "${ac_cv_fc_compiler_gnu}" = yes; then R_SYSTEM_ABI="${R_SYSTEM_ABI},gfortran" else case "${host_os}" in solaris*) R_SYSTEM_ABI="${R_SYSTEM_ABI},solf95" ;; *) R_SYSTEM_ABI="${R_SYSTEM_ABI},?" esac fi AC_SUBST(R_SYSTEM_ABI) ]) # R_ABI ### Local variables: *** ### mode: outline-minor *** ### outline-regexp: "### [*]+" *** ### End: ***