### R.m4 -- extra macros for configuring R -*- Autoconf -*- ### ### Copyright (C) 1998-2020 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 ### https://www.r-project.org/Licenses/ ### Please use dnl for first-col comments within definitions, as ### PD's autoconf leaves ## in but others (e.g. Fedora's) strip them ### * 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, [ACTION-IF-MISSING]) ## ----------------------------- ## 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) \"\$(abs_top_srcdir)/tools/missing\" $2" AC_MSG_RESULT([missing]) [$3] 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 dnl case "${host_os}" in dnl hpux*) dnl ## On some versions of HP-UX (seen on both 10.20 and 11.0) we end up dnl ## a broken install (seen in /opt/imake/bin) which has the default dnl ## permissions wrong (PR#2091). Let's just always use install-sh on dnl ## HP-UX. dnl INSTALL="\$\(top_srcdir\)/tools/install-sh -c" dnl ;; dnl 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([${warn_pager}]) fi ])# R_PROG_PAGER ## R_PROG_TEXMF ## ------------ AC_DEFUN([R_PROG_TEXMF], [ dnl PDFTEX PDFLATEX MAKEINDEX TEXI2DVI are used to make manuals dnl PDFLATEX and MAKEINDEX in the emulation mode of tools::texi2dvi dnl TEXI2DVICMD sets default for R_TEXI2DVICMD, used for options('texi2dvi') dnl TEX AND LATEX are no longer used AC_PATH_PROGS(TEX, [${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, [${MAKEINDEX} makeindex], ) R_PROG_TEXI2ANY AC_PATH_PROGS(TEXI2DVI, [${TEXI2DVI} texi2dvi], ) TEXI2DVICMD=${ac_cv_path_TEXI2DVI} if test -z "${TEXI2DVICMD}"; then TEXI2DVICMD=texi2dvi fi AC_SUBST(TEXI2DVICMD) AC_PATH_PROGS(KPSEWHICH, [${KPSEWHICH} kpsewhich], "") dnl this is deliberately not cached: LaTeX packages change. dnl zi4.sty has been present since at least 2013/06 dnl inconsolata.sty goes back to 2009, but was briefly removed in 2013. AC_MSG_CHECKING([for latex inconsolata package]) r_rd4pdf="times,inconsolata,hyper" if test -n "${KPSEWHICH}"; then ${KPSEWHICH} zi4.sty > /dev/null if test $? -eq 0; then AC_MSG_RESULT([found zi4.sty]) else ${KPSEWHICH} inconsolata.sty > /dev/null if test $? -eq 0; then AC_MSG_RESULT([found inconsolata.sty]) else r_rd4pdf="times,hyper" if test -z "${R_RD4PDF}" ; then AC_MSG_RESULT([missing]) warn_pdf3="neither inconsolata.sty nor zi4.sty found: PDF vignettes and package manuals will not be rendered optimally" AC_MSG_WARN([${warn_pdf3}]) fi fi fi fi : ${R_RD4PDF=${r_rd4pdf}} AC_SUBST(R_RD4PDF) ])# R_PROG_TEXMF ## R_PROG_TEXI2ANY ## --------------- AC_DEFUN([R_PROG_TEXI2ANY], [AC_PATH_PROGS(TEXI2ANY, [${TEXI2ANY} texi2any]) if test -n "${TEXI2ANY}"; then _R_PROG_TEXI2ANY_VERSION AC_PATH_PROGS(INSTALL_INFO, [${INSTALL_INFO} ginstall-info install-info], false) AC_SUBST(INSTALL_INFO) fi if test "${r_cv_prog_texi2any_v5}" != yes; then warn_info="you cannot build info or HTML versions of the R manuals" AC_MSG_WARN([${warn_info}]) TEXI2ANY="" else TEXI2ANY="${TEXI2ANY}" fi ])# R_PROG_TEXI2ANY ## _R_PROG_TEXI2ANY_VERSION ## ------------------------ ## Building the R Texinfo manuals requires texinfo v5.1 or later. ## Set shell variable r_cv_prog_texi2any_v5 to 'yes' if a recent ## enough texi2any aka 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_TEXI2ANY_VERSION], [AC_CACHE_CHECK([whether texi2any version is at least 5.1], [r_cv_prog_texi2any_v5], [texi2any_version=`${TEXI2ANY} --version | \ grep -E '^(makeinfo|texi2any)' | sed 's/[[^)]]*) \(.*\)/\1/'` texi2any_version_maj=`echo ${texi2any_version} | cut -f1 -d.` texi2any_version_min=`echo ${texi2any_version} | \ cut -f2 -d. | tr -dc '0123456789.' ` if test -z "${texi2any_version_maj}" \ || test -z "${texi2any_version_min}"; then r_cv_prog_texi2any_v5=no elif test ${texi2any_version_maj} -gt 5; then r_cv_prog_texi2any_v5=yes elif test ${texi2any_version_maj} -lt 5 \ || test ${texi2any_version_min} -lt 1; then r_cv_prog_texi2any_v5=no else r_cv_prog_texi2any_v5=yes fi]) ])# _R_PROG_TEXI2ANY_VERSION ## R_PROG_BROWSER ## -------------- ## xdg-open is the freedesktop.org interface to kfmclient/gnome-open AC_DEFUN([R_PROG_BROWSER], [if test -z "${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 dnl No real point in using AC_LANG_* and ${ac_ext}, as we need to create dnl hard-wired suffix rules. dnl Another obvious candidate to try is '${MAKEDEPEND-makedepend} -f-'. dnl However, this does not work out of the box when srcdir and builddir dnl are different, as it creates dependencies of the form dnl ${srcdir}/foo.o: /path/to/bar.h dnl Could be made to work, of course ... dnl Note also that it does not create a 'conftest.o: conftest.c' line. dnl For gcc 3.2 or better, we want to use '-MM' in case this works. dnl Also adopted by clang, so version test is not really appopriate. cc_minus_MM=false if test "${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} ${CPPFLAGS} conftest.c 2>/dev/null | \ grep 'conftest.o: conftest.c' >/dev/null; then r_cv_prog_cc_m="${prog}" break fi done]) if test "${r_cv_prog_cc_m}" = "${cc_minus_MM}"; then r_cv_prog_cc_m="\$(CC) -MM" elif test "${r_cv_prog_cc_m}" = "${CC} -M"; then r_cv_prog_cc_m="\$(CC) -M" fi 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 dnl No real point in using AC_LANG_* and ${ac_ext}, as we need to create dnl hard-wired suffix rules. ac_try='${CC} ${CPPFLAGS} ${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_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 ## ---------- ## Check whether the C++ compiler can compile code AC_DEFUN([R_PROG_CXX], [AC_CACHE_CHECK([whether ${CXX} ${CXXFLAGS} can compile C++ code], [r_cv_prog_cxx], [AC_LANG_PUSH([C++])dnl r_save_CXX="${CXX}" CXX="${CXX} ${CXXSTD}" AC_COMPILE_IFELSE([AC_LANG_SOURCE( [#ifndef __cplusplus # error "not a C++ compiler" #endif #include ])], [r_cv_prog_cxx=yes], [r_cv_prog_cxx=no]) CXX="${r_save_CXX}" AC_LANG_POP([C++])dnl ]) if test "${r_cv_prog_cxx}" = no; then CXX= CXXFLAGS= CXXSTD= fi ])# R_PROG_CXX ## R_PROG_CXX_M ## ------------ ## Check whether the C++ compiler accepts '-M' for generating ## dependencies. ## Not currently used -- better to use -MM if it were. 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 dnl No real point in using AC_LANG_* and ${ac_ext}, as we need to create dnl hard-wired suffix rules. We could be a bit more careful as we dnl actually only test suffix '.cc'. if test -n "`${CXX} ${CPPFLAGS} -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). ## If the .d rules were actually use, use CXXXPP? 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 compiler and its characteristics. ## R_PROG_FC_FLIBS ## ---------------- ## Run AC_FC_LIBRARY_LDFLAGS rename to FLIBS, and fix some known problems with FLIBS. ## Only do this if the user has not already set FLIBS. AC_DEFUN([R_PROG_FC_FLIBS], [AC_BEFORE([$0], [AC_FC_LIBRARY_LDFLAGS]) if test -z "${FLIBS}"; then dnl dnl Historical comment dnl Currently (Autoconf 2.50 or better, it seems) FLIBS also contains all dnl elements of LIBS when AC_F77_LIBRARY_LDFLAGS is run. This is because dnl _AC_PROG_F77_V_OUTPUT() uses 'eval $ac_link' for obtaining verbose dnl linker output, and AC_LANG(Fortran 77) sets up ac_link to contain dnl LIBS. Most likely a bug, and a nuisance in any case ... dnl But we cannot simply eliminate the elements in FLIBS duplicated from dnl LIBS (e.g. '-lm' should be preserved). Hence, we try to call dnl AC_FC_LIBRARY_LDFLAGS() with LIBS temporarily set to empty. r_save_LIBS="${LIBS}" LIBS= AC_FC_LIBRARY_LDFLAGS FLIBS=${FCLIBS} if test -z "${MAIN_LD}" ; then LIBS= R_C_LIBRARY_LDFLAGS else CLIBS= fi LIBS="${r_save_LIBS}" dnl Comments here are ancient and about F77 version .... dnl Currently g77 on Darwin links against '-lcrt1.o' (and for GCC 3.1 or dnl better also against '-lcrtbegin.o'), which (unlike '-lcrt0.o') are dnl not stripped by AC_F77_LIBRARY_LDFLAGS. This in particular causes dnl R_PROG_FC_CC_COMPAT to fail. Hence, we make sure all -lcrt*.o are dnl removed. In Addition, -lmx and -lSystem are implicit and their dnl manual inclusion leads to ordering problems (remove when autoconf dnl is fixed - supposedly the CVS version is, but 2.6.0 is not). dnl dnl Native f90 on HP-UX 11 comes up with '-l:libF90.a' causing trouble dnl when using gcc for linking. The '-l:' construction is similar to dnl plain '-l' except that search order (archive/shared) given by '-a' dnl is not important. We escape such flags via '-Wl,' in case of gcc. dnl Note that the current Autoconf CVS uses _AC_LINKER_OPTION for a dnl similar purpose when computing FLIBS: this uses '-Xlinker' escapes dnl for gcc and does nothing otherwise. Note also that we cannot simply dnl unconditionally escape with '${wl}' from libtool as on HP-UX we need dnl SHLIB_LD=ld for native C compilers (problem with non-PIC 'crt0.o', dnl see 'Individual platform overrides' in section 'DLL stuff' in file dnl 'configure.ac'. dnl dnl Using the Intel Fortran compiler (ifc) one typically gets incorrect dnl flags, as the output from _AC_PROG_F77_V_OUTPUT() contains double dnl quoted options, e.g. "-mGLOB_options_string=......", see also e.g. dnl http://www.octave.org/octave-lists/archive/octave-maintainers.2002/msg00038.html. dnl One possible solution is to change AC_F77_LIBRARY_LDFLAGS() to remove dnl double quotes for ifc, as it already does for the Cray cft90. As we dnl prefer not to overload Autoconf code, we try to fix things here ... dnl dnl As of 2.1.0 we try to tidy this up a bit. dnl 1) -lfrtbegin and -lgfortranbegin are used by g77/gfortran only for a dnl Fortran main program, which we do not have. dnl 2) g77 also tends to duplicate paths via ../../.., so we canonicalize dnl paths and remove duplicates. dnl 3) We do not need -L/lib etc, nor those in LDFLAGS dnl 4) We exclude path with CC will include when linking. dnl dnl 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}" AC_SUBST(FLIBS) fi ])# R_PROG_FC_FLIBS ## R_PROG_FC_APPEND_UNDERSCORE ## ---------------------------- ## See if the Fortran 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 ## compiler. Autoconf has macros FC_FUNC(name, NAME) ## and FC_FUNC_(name, NAME) for this. However, the F77_* macros in ## the R API have one argument only and therefore cannot deal with ## Fortran 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 in F77_* ## (but do in R_dlsym). AC_DEFUN([R_PROG_FC_APPEND_UNDERSCORE], [AC_REQUIRE([AC_FC_WRAPPERS]) dnl DANGER! We really need the results of _AC_FC_NAME_MANGLING as dnl stored in the cache var ac_cv_fc_mangling which is not documented dnl and hence may change ... case "${ac_cv_fc_mangling}" in "upper "*) AC_MSG_WARN([Fortran compiler uses uppercase external names]) AC_MSG_ERROR([cannot use Fortran]) ;; esac AC_MSG_CHECKING([whether ${FC} appends underscores to external names]) AC_CACHE_VAL([r_cv_prog_fc_append_underscore], [case "${ac_cv_fc_mangling}" in *", underscore, "*) r_cv_prog_fc_append_underscore=yes ;; *", no underscore, "*) r_cv_prog_fc_append_underscore=no ;; esac]) if test -n "${r_cv_prog_fc_append_underscore}"; then AC_MSG_RESULT([${r_cv_prog_fc_append_underscore}]) else AC_MSG_RESULT([unknown]) AC_MSG_ERROR([cannot use Fortran]) fi if test "${r_cv_prog_fc_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 ${FC} appends extra underscores to external names]) AC_CACHE_VAL([r_cv_prog_fc_append_second_underscore], [case "${ac_cv_fc_mangling}" in *", extra underscore") r_cv_prog_fc_append_second_underscore=yes ;; *", no extra underscore") r_cv_prog_fc_append_second_underscore=no ;; esac]) if test -n "${r_cv_prog_fc_append_second_underscore}"; then AC_MSG_RESULT([${r_cv_prog_fc_append_second_underscore}]) else AC_MSG_RESULT([unknown]) AC_MSG_ERROR([cannot use Fortran]) fi if test "${r_cv_prog_fc_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_FC_APPEND_UNDERSCORE ## R_PROG_FC_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_FC_CAN_RUN], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether mixed C/Fortran code can be run]) AC_CACHE_VAL([r_cv_prog_fc_can_run], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD dnl 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} ${CPPFLAGS} ${CPPFLAGS} ${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 HP-UX with native cc we have to ## use ld for SHLIB_LD) ... ## Be nice to people who put compiler architecture opts in CFLAGS if ${CC} ${CPPFLAGS} ${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 ${?} = 0; then r_cv_prog_fc_can_run=yes fi fi fi ]) rm -Rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_fc_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_FC_CAN_RUN ## R_PROG_FC_CC_COMPAT ## -------------------- ## Check whether the Fortran and C compilers agree on int and double. AC_DEFUN([R_PROG_FC_CC_COMPAT], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether ${FC} and ${CC} agree on int and double]) AC_CACHE_VAL([r_cv_prog_fc_cc_compat], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD dnl 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} ${CPPFLAGS} ${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 HP-UX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CPPFLAGS} ${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 ${?} = 0; then r_cv_prog_fc_cc_compat=yes fi fi fi ]) rm -Rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_fc_cc_compat}"; then AC_MSG_RESULT([yes]) else if test "${cross_compiling}" = yes; then AC_MSG_RESULT([don't know (cross-compiling)]) else AC_MSG_WARN([${FC} and ${CC} disagree on int and double]) AC_MSG_ERROR([Maybe change CFLAGS or FFLAGS?]) fi fi ])# R_PROG_FC_CC_COMPAT ## R_PROG_FC_CC_COMPAT_COMPLEX ## ---------------------------- ## Check whether the Fortran and C compilers agree on double complex. AC_DEFUN([R_PROG_FC_CC_COMPAT_COMPLEX], [AC_REQUIRE([AC_CHECK_LIBM]) AC_MSG_CHECKING([whether ${FC} and ${CC} agree on double complex]) AC_CACHE_VAL([r_cv_prog_fc_cc_compat_complex], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD dnl 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} ${CPPFLAGS} ${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 HP-UX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CPPFLAGS} ${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 ${?} = 0; then r_cv_prog_fc_cc_compat_complex=yes fi fi fi ]) rm -Rf conftest conftest.* conftestf.* core if test -n "${r_cv_prog_fc_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_fc_cc_double_complex="${FC} and ${CC} disagree on double complex" AC_MSG_WARN([${warn_fc_cc_double_complex}]) fi AC_SUBST(HAVE_FORTRAN_DOUBLE_COMPLEX) ])# R_PROG_FC_CC_COMPAT_COMPLEX ## R_PROG_FC_CHAR_LEN_T ## -------------------- ## Check whether the Fortran CHARACTER lengths are passed as size_t ## NB: they may not actually be size_t, but we don't care about ## signedness and on most 64-bit platforms a 32-bit type will be ## passed in a 64-bit register or stack slot. ## ## (It is docuemnted that for gfortran < 8, int is used.) AC_DEFUN([R_PROG_FC_CHAR_LEN_T], [AC_CACHE_VAL([r_cv_prog_fc_char_len_t], [cat > conftestf.f <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD [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(testit)(); void F77_SYMBOL(xerbla)(const char *srname, int *info, const size_t srname_len) { printf ("char len %lu\n", srname_len); if (srname_len != 5) exit(-1); if (strncmp(srname, "abcde", 5)) exit(-2); if (*info != -10) exit(-3); } int main() { F77_SYMBOL(testit)(); return 0; } EOF] if ${CC} ${CPPFLAGS} ${CFLAGS} -c conftest.c 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then if ${CC} ${CPPFLAGS} ${CFLAGS} ${LDFLAGS} ${MAIN_LDFLAGS} -o conftest${ac_exeext} \ conftest.${ac_objext} conftestf.${ac_objext} ${FLIBS} \ 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` if test ${?} = 0; then r_cv_prog_fc_char_len_t=size_t fi fi fi ]) rm -Rf conftest conftest.* conftestf.* core ])# R_PROG_FC_CHAR_LEN_T ## Unused but perhaps useful ## R_PROG_FC_FLAG(FLAG, [ACTION-IF-TRUE]) ## --------------------------------------- ## Check whether the Fortran compiler handles command line option ## FLAG, and set shell variable r_cv_prog_fc_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_FC_FLAG], [ac_safe=AS_TR_SH($1) AC_MSG_CHECKING([whether ${FC} accepts $1]) AC_CACHE_VAL([r_cv_prog_fc_flag_${ac_safe}], [AC_LANG_PUSH(Fortran) r_save_FFLAGS="${FFLAGS}" FFLAGS="${FFLAGS} $1" AC_LINK_IFELSE([AC_LANG_PROGRAM()], [eval "r_cv_prog_fc_flag_${ac_safe}=yes"], [eval "r_cv_prog_fc_flag_${ac_safe}=no"]) FFLAGS="${r_save_FFLAGS}" AC_LANG_POP(Fortran) ]) if eval "test \"`echo '$r_cv_prog_fc_flag_'$ac_safe`\" = yes"; then AC_MSG_RESULT([yes]) [$2] else AC_MSG_RESULT([no]) fi ])# R_PROG_FC_FLAG ## R_PROG_OBJC_M ## ------------- ## Check whether we can figure out ObjC Make dependencies. AC_DEFUN([R_PROG_OBJC_M], [AC_MSG_CHECKING([whether we can compute ObjC Make dependencies]) AC_CACHE_VAL([r_cv_prog_objc_m], [echo "#include " > conftest.m for prog in "${OBJC} -MM" "${OBJC} -M" "${CPP} -M" "cpp -M"; do if ${prog} ${CPPFLAGS} conftest.m 2>/dev/null | \ grep 'conftest.o: conftest.m' >/dev/null; then r_cv_prog_objc_m="${prog}" break fi done]) if test "${r_cv_prog_objc_m}" = "${OBJC} -MM"; then r_cv_prog_objc_m="\$(OBJC) -MM" elif test "${r_cv_prog_objc_m}" = "${OBJC} -M"; then r_cv_prog_objc_m="\$(OBJC) -M" fi 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= for libobjc in objc objc-gnu objc-lf objc-lf2; do LIBS="${save_LIBS} -l${libobjc}" #OBJCFLAGS="$OBJCFLAGS $PTHREAD_CFLAGS -fgnu-runtime" AC_LINK_IFELSE([ AC_LANG_PROGRAM([ #undef __OBJC2__ #include ], [ @<:@Object class@:>@; ]) ], [ r_cv_objc_runtime="-l${libobjc}" break ]) done LIBS="$save_LIBS" OBJCFLAGS="$save_OBJCFLAGS" ]) OBJC_LIBS="${r_cv_objc_runtime} ${OBJC_LIBS}" if test "z${r_cv_objc_runtime}" != z; 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([ /* see PR#15107 */ #undef __OBJC2__ #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++]) dnl we don't use AC_LANG_xx because ObjC++ is not defined as a language (yet) dnl (the test program is from the gcc test suite) dnl but it needed an #undef (PR#15107) cat << \EOF > conftest.mm #undef __OBJC2__ #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], [$0]) AC_CACHE_VAL([r_cv_OBJCXX],[ if test -n "${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="${r_cv_OBJCXX}" AC_MSG_CHECKING([for Objective C++ compiler]) if test -z "${OBJCXX}"; then AC_MSG_RESULT([no working ObjC++ compiler found]) else AC_MSG_RESULT([${OBJCXX}]) fi AC_SUBST(OBJCXX) ])# R_PROG_OBJCXX ### * Library functions ## R_FUNC_CALLOC ## ------------- AC_DEFUN([R_FUNC_CALLOC], [AC_CACHE_CHECK([for working calloc], [r_cv_func_calloc_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include int main () { int *p = calloc(0, sizeof(int)); exit(p == 0); } ]])], [r_cv_func_calloc_works=yes], [r_cv_func_calloc_works=no], [r_cv_func_calloc_works=no])]) if test "x${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 #ifdef HAVE_UNISTD_H # include // for unlink #endif int main() { FILE *fp; long 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=${t}; break], [r_cv_type_socklen=]) done]) dnl size_t works on Windows but is unsigned and int is correct case "${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_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${X_CFLAGS}" AC_CHECK_TYPE([KeySym], r_cv_type_keysym=yes, r_cv_type_keysym=no, [#include ]) CPPFLAGS="${r_save_CPPFLAGS}" 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_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${X_CFLAGS}" AC_CHECK_HEADER(X11/Intrinsic.h) CPPFLAGS="${r_save_CPPFLAGS}" 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_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${X_CFLAGS}" AC_CHECK_HEADER(X11/Xmu/Atoms.h) CPPFLAGS="${r_save_CPPFLAGS}" 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 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 ) dnl define HAVE_..._FW even if cached 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 to include support for R.app and for the 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 \ dnl needed for Rhttpd.c but missed before R 3.2.4 && test "${ac_cv_header_arpa_inet_h}" = yes \ && test "${ac_cv_header_netinet_in_h}" = yes \ && test "${ac_cv_header_sys_socket_h}" = yes \ && test "${ac_cv_search_connect}" != no \ && test "${ac_cv_search_gethostbyname}" != no; then r_cv_bsd_networking=yes else AC_MSG_ERROR([BSD networking functions are required]) fi]) ])# R_BSD_NETWORKING ## R_BITMAPS ## --------- ## This is the version used without pkg-config ## Here we only need any old -lz, and don't need zlib.h. ## However, we do need recent enough libpng and jpeg, and so check both ## the header versions and for key routines in the library. ## The png code will do a run-time check of the consistency of libpng ## versions. AC_DEFUN([R_BITMAPS], [BITMAP_CPPFLAGS= BITMAP_LIBS= if test "${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) if test "x${ac_cv_header_tiffio_h}" = xyes ; then # may need to resolve jpeg routines AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [${BITMAP_LIBS}]) if test "x${have_tiff}" = xyes; then AC_DEFINE(HAVE_TIFF, 1, [Define this if libtiff is available.]) BITMAP_LIBS="-ltiff ${BITMAP_LIBS}" else # tiff 4.0.x may need lzma too: SU's static build does # OTOH, it will normally be in LIBS at this point in configure unset ac_cv_lib_tiff_TIFFOpen AC_MSG_NOTICE([checking for libtiff with -llzma]) AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [-llzma ${BITMAP_LIBS}]) if test "x${have_tiff}" = xyes; then AC_DEFINE(HAVE_TIFF, 1, [Define this if libtiff is available.]) BITMAP_LIBS="-ltiff -llzma ${BITMAP_LIBS}" else have_tiff=no fi fi if test "x${have_tiff}" != xyes; then # tiff >= 4.1.0 may need webp too: # (actually, it could also need jbig zstd libdeflate ....) unset ac_cv_lib_tiff_TIFFOpen AC_MSG_NOTICE([checking for libtiff with -lwebp]) AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [-lwebp -llzma ${BITMAP_LIBS}]) if test "x${have_tiff}" = xyes; then AC_DEFINE(HAVE_TIFF, 1, [Define this if libtiff is available.]) BITMAP_LIBS="-ltiff -lwebp -llzma ${BITMAP_LIBS}" else have_tiff=no fi fi fi fi AC_SUBST(BITMAP_CPPFLAGS) AC_SUBST(BITMAP_LIBS) ])# R_BITMAPS ## R_BITMAPS2 ## --------- ## This is the version used with pkg-config AC_DEFUN([R_BITMAPS2], [BITMAP_CPPFLAGS= BITMAP_LIBS= if test "${use_jpeglib}" = yes; then AC_MSG_CHECKING([if pkg-config knows about libjpeg]) save_CPPFLAGS=${CPPFLAGS} ## IJG version 9c (Jan 2018) has support as libjpeg. ## libjpeg-turbo has had this for a while. if "${PKG_CONFIG}" --exists libjpeg; then AC_MSG_RESULT([yes]) JPG_CPPFLAGS=`"${PKG_CONFIG}" --cflags libjpeg` JPG_LIBS=`"${PKG_CONFIG}" --libs libjpeg` CPPFLAGS="${CPPFLAGS} ${JPG_CPPFLAGS}" else AC_MSG_RESULT([no: run 'pkg-config --print-errors libjpeg' for further info]) fi _R_HEADER_JPEGLIB CPPFLAGS=${save_CPPFLAGS} 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], [${JPG_LIBS} ${LIBS}]) fi if test "${have_jpeg}" = yes; then if test -n "${JPG_LIBS}"; then BITMAP_LIBS="${JPG_LIBS}" else BITMAP_LIBS=-ljpeg fi AC_DEFINE(HAVE_JPEG, 1, [Define if you have the JPEG headers and libraries.]) fi fi if test "${use_libpng}" = yes; then AC_MSG_CHECKING([if pkg-config knows about libpng]) if "${PKG_CONFIG}" --exists libpng; then AC_MSG_RESULT([yes]) save_CPPFLAGS=${CPPFLAGS} PNG_CPPFLAGS=`"${PKG_CONFIG}" --cflags libpng` CPPFLAGS="${CPPFLAGS} ${PNG_CPPFLAGS}" _R_HEADER_PNG have_png=${r_cv_header_png_h} CPPFLAGS=${save_CPPFLAGS} if test "${have_png}" = yes; then PNG_LIBS=`"${PKG_CONFIG}" --libs libpng` AC_CHECK_LIB(png, png_create_write_struct, [have_png=yes], [have_png=no], [${PNG_LIBS} ${LIBS}]) if test "${have_png}" = no; then dnl currently this is the same as --libs, but might change. unset ac_cv_lib_png_png_create_write_struct AC_MSG_NOTICE([checking for libpng with static libs]) PNG_LIBS=`"${PKG_CONFIG}" --static --libs libpng` AC_CHECK_LIB(png, png_create_write_struct, [have_png=yes], [have_png=no], [${PNG_LIBS} ${LIBS}]) fi fi if test "${have_png}" = yes; then BITMAP_CPPFLAGS="${BITMAP_CPPFLAGS} ${PNG_CPPFLAGS}" BITMAP_LIBS="${BITMAP_LIBS} ${PNG_LIBS}" AC_DEFINE(HAVE_PNG, 1, [Define if you have the PNG headers and libraries.]) fi else AC_MSG_RESULT([no: run 'pkg-config --print-errors libpng' for further info]) fi fi if test "${use_libtiff}" = yes; then AC_MSG_CHECKING([if pkg-config knows about libtiff]) mod= ## pkg-config support was introduced in libtiff 4.0.0 ## I guess the module name might change in future, so ## program defensively here. if "${PKG_CONFIG}" --exists libtiff-4; then AC_MSG_RESULT([yes]) mod=libtiff-4 else AC_MSG_RESULT([no: run 'pkg-config --print-errors libtiff-4' for further info]) fi if test -n "${mod}"; then save_CPPFLAGS=${CPPFLAGS} TIF_CPPFLAGS=`"${PKG_CONFIG}" --cflags ${mod}` CPPFLAGS="${CPPFLAGS} ${TIF_CPPFLAGS}" AC_CHECK_HEADERS(tiffio.h) CPPFLAGS=${save_CPPFLAGS} if test "x${ac_cv_header_tiffio_h}" = xyes ; then TIF_LIBS=`"${PKG_CONFIG}" --libs ${mod}` AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [${TIF_LIBS} ${BITMAP_LIBS}]) if test "x${have_tiff}" = xno; then unset ac_cv_lib_tiff_TIFFOpen AC_MSG_NOTICE([checking for libtiff with static libs]) TIF_LIBS=`"${PKG_CONFIG}" --static --libs ${mod}` AC_CHECK_LIB(tiff, TIFFOpen, [have_tiff=yes], [have_tiff=no], [${TIF_LIBS} ${BITMAP_LIBS}]) fi if test "x${have_tiff}" = xyes; then AC_DEFINE(HAVE_TIFF, 1, [Define this if libtiff is available.]) BITMAP_LIBS="${TIF_LIBS} ${BITMAP_LIBS}" BITMAP_CPPFLAGS="${BITMAP_CPPFLAGS} ${TIF_CPPFLAGS}" fi fi fi fi AC_SUBST(BITMAP_CPPFLAGS) AC_SUBST(BITMAP_LIBS) ])# R_BITMAPS2 ## _R_HEADER_JPEGLIB ## ----------------- ## Set shell variable r_cv_header_jpeglib_h to 'yes' if a recent enough ## jpeglib.h is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_JPEGLIB], [AC_CACHE_CHECK([if jpeglib version >= 6b], [r_cv_header_jpeglib_h], AC_EGREP_CPP([yes], [#include #if (JPEG_LIB_VERSION >= 62) yes #endif ], [r_cv_header_jpeglib_h=yes], [r_cv_header_jpeglib_h=no])) ])# _R_HEADER_JPEGLIB ## _R_HEADER_PNG ## ------------- ## Set shell variable r_cv_header_png_h to 'yes' if a recent enough ## 'png.h' is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_PNG], [AC_CACHE_CHECK([if libpng version >= 1.2.7], [r_cv_header_png_h], AC_EGREP_CPP([yes], [#include #if (PNG_LIBPNG_VER >= 10207) yes #endif ], [r_cv_header_png_h=yes], [r_cv_header_png_h=no])) ])# _R_HEADER_PNG ## _R_PATH_TCL_CONFIG ## ------------------ ## Try finding tclConfig.sh in common library directories and their ## tcl$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 found_tk_by_config=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} ${TK_INCLUDE_SPEC}" found_tk_h=yes]) found_tk_by_config=yes CPPFLAGS="${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 dnl TK_XINCLUDES should be empty for Aqua Tk, so earlier test was wrong dnl Our code does not include any X headers, but tk.h may .... dnl That is true even on macOS, but Aqua Tk has a private version of dnl X11 headers, and we want that one and not the XQuartz one. if test "${have_tcltk}" = yes; then if test "${found_tk_by_config}" = yes; then TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} ${TK_XINCLUDES}" else TCLTK_CPPFLAGS="${TCLTK_CPPFLAGS} ${X_CFLAGS}" fi fi ])# _R_TCLTK_CPPFLAGS ## _R_TCLTK_LIBS ## ------------- ## Find the tcl and tk libraries. AC_DEFUN([_R_TCLTK_LIBS], [AC_REQUIRE([_R_TCLTK_CONFIG]) if test -z "${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 ## (formerly https://www.gnu.org/software/ac-archive/htmldoc/acx_blas.m4), ## with the following changes: ## * We also handle HP-UX .sl command line specifications. ## * We only care about the Fortran interface to Atlas, hence do not ## test for -lcblas. ## * We do not use BLAS libs that caused problems in the past. ## * As we link with $BLAS_LIBS $FLIBS $LIBS (in that order), we use the ## same order in the tests. ## * We do not use ACTION-IF-FOUND and ACTION-IF-NOT-FOUND. ## The sunperf test calls the library as now required. ## 2020-11-27 --with-blas=foo now does not fallback to search. ## Based on acx_blas.m4 version 1.2 (2001-12-13) ## (Since renamed to ax_blas.m4) AC_DEFUN([R_BLAS_LIBS], [AC_REQUIRE([R_PROG_FC_FLIBS]) AC_REQUIRE([R_PROG_FC_APPEND_UNDERSCORE]) acx_blas_ok=no case "${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 "${r_cv_prog_fc_append_underscore}" = yes; then dgemm=dgemm_ sgemm=sgemm_ xerbla=xerbla_ else dgemm=dgemm sgemm=sgemm xerbla=xerbla fi acx_blas_save_LIBS="${LIBS}" LIBS="${FLIBS} ${LIBS}" dnl First, check BLAS_LIBS environment variable/command-line setting dnl Dummy xerbla was added in 2003 for the Goto BLAS. dnl Declaration added in 2020 for Apple's -Werror=implicit-function-declaration if test "${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){} void ${dgemm}();], ${dgemm}(), [acx_blas_ok=yes], [BLAS_LIBS=""]) AC_MSG_RESULT([${acx_blas_ok}]) LIBS="${r_save_LIBS}" dnl from 2020-11 make failure an error: used to fallback to search if test "${acx_blas_ok}" = no; then AC_MSG_ERROR([BLAS was specified but not available]) fi fi fi if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for an external BLAS]) fi dnl BLAS linked to by default? (happens on some supercomputers) if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for BLAS in default libraries]) AC_CHECK_FUNC(${dgemm}, [acx_blas_ok=yes]) fi dnl Taken from 2008 version of ax_blas.m4 # BLAS in OpenBLAS library? (http://xianyi.github.com/OpenBLAS/) if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for OpenBLAS]) AC_CHECK_LIB(openblas, $sgemm, [acx_blas_ok=yes BLAS_LIBS="-lopenblas"]) fi dnl BLAS in ATLAS library? (http://math-atlas.sourceforge.net/) if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for ATLAS]) AC_CHECK_LIB(atlas, ATL_xerbla, [AC_CHECK_LIB(f77blas, ${dgemm}, [acx_blas_ok=yes BLAS_LIBS="-lf77blas -latlas"], [], [-latlas])]) fi dnl BLAS in PhiPACK libraries? (requires generic BLAS lib, too) if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for PhiPACK]) AC_CHECK_LIB(blas, ${dgemm}, [AC_CHECK_LIB(dgemm, $dgemm, [AC_CHECK_LIB(sgemm, ${sgemm}, [acx_blas_ok=yes BLAS_LIBS="-lsgemm -ldgemm -lblas"], [], [-lblas])], [], [-lblas])]) fi dnl BLAS in Sun Performance library? dnl Some versions require -xlic_lib=sunperf: -lsunperf will not work dnl Not sure whether -lsunmath is required, but it helps anyway if test "${acx_blas_ok}" = no; then if test "x$GCC" != xyes; then # only works with Sun CC AC_MSG_NOTICE([searching for Sun Performance library]) 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([${acx_blas_ok}]) fi fi dnl BLAS in IBM ESSL library? (requires generic BLAS lib, too) if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for IBM ESSL]) AC_CHECK_LIB(blas, ${dgemm}, [AC_CHECK_LIB(essl, ${dgemm}, [acx_blas_ok=yes BLAS_LIBS="-lessl -lblas"], [], [-lblas ${FLIBS}])]) fi dnl Generic BLAS library? if test "${acx_blas_ok}" = no; then AC_MSG_NOTICE([searching for generic BLAS library]) AC_CHECK_LIB(blas, ${dgemm}, [acx_blas_ok=yes; BLAS_LIBS="-lblas"]) fi dnl Now check if zdotu works (fails on AMD64 with the wrong compiler; dnl also fails on macOS with Accelerate/vecLib and gfortran; dnl but in that case we have a work-around using USE_VECLIB_G95FIX) if test "${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 ${FC} ${FFLAGS} -c conftestf.f 1>&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD dnl 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} ${CPPFLAGS} ${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 HP-UX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CPPFLAGS} ${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 case "${BLAS_LIBS}" in *Accelerate* | *vecLib*) ## for vecLib we have a work-around by using cblas_..._sub AC_MSG_RESULT([yes]) use_veclib_g95fix=yes ;; *) AC_MSG_RESULT([no]) BLAS_LIBS= acx_blas_ok="no" ;; esac fi fi if test "${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) {} // declare (with empty args) before use. void F77_SYMBOL(dasum)(); void F77_SYMBOL(daxpy)(); void F77_SYMBOL(dcopy)(); void F77_SYMBOL(ddot)(); void F77_SYMBOL(dgbmv)(); void F77_SYMBOL(dgemm)(); void F77_SYMBOL(dgemv)(); void F77_SYMBOL(dger)(); void F77_SYMBOL(dnrm2)(); void F77_SYMBOL(drot)(); void F77_SYMBOL(drotg)(); void F77_SYMBOL(drotm)(); void F77_SYMBOL(drotmg)(); void F77_SYMBOL(dsbmv)(); void F77_SYMBOL(dscal)(); void F77_SYMBOL(dsdot)(); void F77_SYMBOL(dspmv)(); void F77_SYMBOL(dspr)(); void F77_SYMBOL(dspr2)(); void F77_SYMBOL(dswap)(); void F77_SYMBOL(dsymm)(); void F77_SYMBOL(dsymv)(); void F77_SYMBOL(dsyr)(); void F77_SYMBOL(dsyr2)(); void F77_SYMBOL(dsyr2k)(); void F77_SYMBOL(dsyrk)(); void F77_SYMBOL(dtbmv)(); void F77_SYMBOL(dtbsv)(); void F77_SYMBOL(dtpmv)(); void F77_SYMBOL(dtpsv)(); void F77_SYMBOL(dtrmm)(); void F77_SYMBOL(dtrmv)(); void F77_SYMBOL(dtrsm)(); void F77_SYMBOL(dtrsv)(); void F77_SYMBOL(idamax)(); void F77_SYMBOL(lsame)(); #ifdef HAVE_FORTRAN_DOUBLE_COMPLEX /* cmplxblas */ void F77_SYMBOL(dcabs1)(); void F77_SYMBOL(dzasum)(); void F77_SYMBOL(dznrm2)(); void F77_SYMBOL(izamax)(); void F77_SYMBOL(zaxpy)(); void F77_SYMBOL(zcopy)(); void F77_SYMBOL(zdotc)(); void F77_SYMBOL(zdotu)(); void F77_SYMBOL(zdrot)(); void F77_SYMBOL(zdscal)(); void F77_SYMBOL(zgbmv)(); void F77_SYMBOL(zgemm)(); void F77_SYMBOL(zgemv)(); void F77_SYMBOL(zgerc)(); void F77_SYMBOL(zgeru)(); void F77_SYMBOL(zhbmv)(); void F77_SYMBOL(zhemm)(); void F77_SYMBOL(zhemv)(); void F77_SYMBOL(zher)(); void F77_SYMBOL(zherk)(); void F77_SYMBOL(zher2)(); void F77_SYMBOL(zher2k)(); void F77_SYMBOL(zhpmv)(); void F77_SYMBOL(zhpr)(); void F77_SYMBOL(zhpr2)(); void F77_SYMBOL(zrotg)(); void F77_SYMBOL(zscal)(); void F77_SYMBOL(zswap)(); void F77_SYMBOL(zsymm)(); void F77_SYMBOL(zsyr2k)(); void F77_SYMBOL(zsyrk)(); void F77_SYMBOL(ztbmv)(); void F77_SYMBOL(ztbsv)(); void F77_SYMBOL(ztpmv)(); void F77_SYMBOL(ztpsv)(); void F77_SYMBOL(ztrmm)(); void F77_SYMBOL(ztrmv)(); void F77_SYMBOL(ztrsm)(); void F77_SYMBOL(ztrsv)(); #endif 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} ${CPPFLAGS} ${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 HP-UX with native cc we have to ## use ld for SHLIB_LD) ... if ${CC} ${CPPFLAGS} ${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 ## (formerly https://www.gnu.org/software/ac-archive/htmldoc/acx_lapack.m4), ## with the following changes: ## * We also handle HP-UX .sl command line specifications. ## * We test for a LAPACK_LIBS environment variable after checking ## whether LAPACK is already linked (see below). ## * 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 $arch ## variants) which should be used if ATLAS is used for BLAS, and not ## found at configure time but used at run time ... ## Note also that (see R-admin) that our main intention is to allow a ## LAPACK-containing BLAS to be used ... there are too many slow or ## broken LAPACKs out there. ## Based on acx_lapack.m4 version 1.3 (2002-03-12). ## (Since renamed to ax_lapack.m4) ## Test function was zgeev, changed to dpstrf which is LAPACK 3.2. ## (2009 version used cheev) AC_DEFUN([R_LAPACK_LIBS], [AC_REQUIRE([R_PROG_FC_FLIBS]) AC_REQUIRE([R_PROG_FC_APPEND_UNDERSCORE]) AC_REQUIRE([R_BLAS_LIBS]) acx_lapack_ok=no case "${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 "${r_cv_prog_fc_append_underscore}" = yes; then lapack=dpstrf_ else lapack=dpstrf fi # We cannot use LAPACK if BLAS is not found if test "x${acx_blas_ok}" != xyes; then acx_lapack_ok=noblas fi acx_lapack_save_LIBS="${LIBS}" LIBS="${BLAS_LIBS} ${FLIBS} ${LIBS}" dnl LAPACK linked to by default? (Could be in the BLAS libs.) if test "${acx_lapack_ok}" = no; then AC_CHECK_FUNC(${lapack}, [acx_lapack_ok=yes]) fi dnl Next, check LAPACK_LIBS environment variable if test "${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 dnl LAPACK in Sun Performance library? dnl No longer test here as will be picked up by the default test. dnl 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], [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=${r_cv_header_zlib_h} fi AC_MSG_CHECKING([whether zlib support suffices]) if test "${have_zlib}" != yes; then AC_MSG_ERROR([zlib library and headers are required]) else LIBS="-lz ${LIBS}" AC_MSG_RESULT([yes]) fi ])# R_ZLIB ## _R_HEADER_ZLIB ## -------------- ## Set shell variable r_cv_header_zlib_h to 'yes' if a recent enough ## zlib.h is found, and to 'no' otherwise. AC_DEFUN([_R_HEADER_ZLIB], [AC_CACHE_CHECK([if zlib version >= 1.2.5], [r_cv_header_zlib_h], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include int main() { #ifdef ZLIB_VERNUM if (ZLIB_VERNUM < 0x1250) { exit(1); } exit(0); #else exit(1); #endif } ]])], [r_cv_header_zlib_h=yes], [r_cv_header_zlib_h=no], [r_cv_header_zlib_h=no])]) ])# _R_HEADER_ZLIB ## R_PCRE ## ------ ## If selected, try finding system pcre library and headers. ## RedHat put the headers in /usr/include/pcre. ## JIT was possible in >= 8.20 , and important bug fixes in 8.32 AC_DEFUN([R_PCRE], [AC_REQUIRE([R_PCRE2]) if test "x${r_cv_have_pcre2utf}" != xyes && test "x${use_pcre1}" = xyes; then AC_CHECK_LIB(pcre, pcre_fullinfo, [have_pcre=yes], [have_pcre=no]) if test "${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 if test "x${have_pcre}" = xyes; then r_save_LIBS="${LIBS}" LIBS="-lpcre ${LIBS}" AC_CACHE_CHECK([if PCRE1 version >= 8.32 and has UTF-8 support], [r_cv_have_pcre832], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_PCRE_PCRE_H #include #else #ifdef HAVE_PCRE_H #include #endif #endif #include int main() { #ifdef PCRE_MAJOR #if PCRE_MAJOR > 8 exit(1); #elif PCRE_MAJOR == 8 && PCRE_MINOR >= 32 { int ans; int res = pcre_config(PCRE_CONFIG_UTF8, &ans); if (res || ans != 1) exit(1); else exit(0); } #else exit(1); #endif #else exit(1); #endif } ]])], [r_cv_have_pcre832=yes], [r_cv_have_pcre832=no], [r_cv_have_pcre832=no])]) fi if test "x${r_cv_have_pcre832}" != xyes; then have_pcre=no LIBS="${r_save_LIBS}" fi else have_pcre=no r_cv_have_pcre832=no fi AC_MSG_CHECKING([whether PCRE support suffices]) if test "x${r_cv_have_pcre2utf}" != xyes && \ test "x${r_cv_have_pcre832}" != xyes; then AC_MSG_RESULT([no]) AC_MSG_ERROR([PCRE2 library and headers are required, or use --with-pcre1 and PCRE >= 8.32 with UTF-8 support]) else AC_MSG_RESULT([yes]) fi ])# R_PCRE ## R_PCRE2 ## ------- ## Try finding pcre2 (8-bit) library and header. AC_DEFUN([R_PCRE2], [have_pcre2=no if test "x${use_pcre2}" = xyes; then ## FIXME: Maybe these should be the other way around? ## Maybe there should be a way to use pkg-config --static if "${PKG_CONFIG}" --exists libpcre2-8; then PCRE2_CPPFLAGS=`"${PKG_CONFIG}" --cflags libpcre2-8` PCRE2_LIBS=`"${PKG_CONFIG}" --libs libpcre2-8` have_pcre2=yes else AC_PATH_PROG(PCRE2_CONFIG, pcre2-config) if test -n "${PCRE2_CONFIG}"; then PCRE2_CPPFLAGS=`"${PCRE2_CONFIG}" --cflags` PCRE2_LIBS=`"${PCRE2_CONFIG}" --libs8` have_pcre2=yes fi fi if test "x${have_pcre2}" = "xyes"; then r_save_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${PCRE2_CPPFLAGS} ${CPPFLAGS}" r_save_LIBS="${LIBS}" LIBS="${PCRE2_LIBS} ${LIBS}" AC_DEFINE([PCRE2_CODE_UNIT_WIDTH], [8], [PCRE2 code unit width wanted.]) AC_CHECK_HEADER(pcre2.h, [have_pcre2=yes], [have_pcre2=no]) if test "x${have_pcre2}" = "xyes"; then AC_CHECK_LIB(pcre2-8, pcre2_compile_8, [have_pcre2=yes], [have_pcre2=no]) fi dnl now check it was built with UTF-8 support AC_CACHE_CHECK([if PCRE2 has Unicode support], [r_cv_have_pcre2utf], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #define PCRE2_CODE_UNIT_WIDTH 8 #include #include int main() { int ans; int res = pcre2_config(PCRE2_CONFIG_UNICODE, &ans); if (res || ans != 1) exit(1); else exit(0); } ]])], [r_cv_have_pcre2utf=yes], [r_cv_have_pcre2utf=no], [r_cv_have_pcre2utf=no])]) if test "x${r_cv_have_pcre2utf}" = "xyes"; then AC_DEFINE(HAVE_PCRE2, 1, [Define if your system has pcre2.]) else CPPFLAGS="${r_save_CPPFLAGS}" LIBS="${r_save_LIBS}" fi fi else have_pcre2=no r_cv_have_pcre2utf=no fi ])# R_PCRE2 ## R_BZLIB ## ------- ## Try finding bzlib library and headers. ## We check that both are installed, ## and that BZ2_bzlibVersion is in the library. AC_DEFUN([R_BZLIB], [AC_CHECK_LIB(bz2, BZ2_bzlibVersion, [have_bzlib=yes], [have_bzlib=no]) if test "${have_bzlib}" = yes; then AC_CHECK_HEADERS(bzlib.h, [have_bzlib=yes], [have_bzlib=no]) fi 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 ${LIBS}" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_BZLIB_H #include // for exit #include // for strcmp #include #endif int main() { const char *ver = BZ2_bzlibVersion(); exit(strcmp(ver, "1.0.6") < 0); } ]])], [r_cv_have_bzlib=yes], [r_cv_have_bzlib=no], [r_cv_have_bzlib=no]) LIBS="${r_save_LIBS}" AC_LANG_POP(C)]) fi if test "x${r_cv_have_bzlib}" = xno; then have_bzlib=no fi AC_MSG_CHECKING([whether bzip2 support suffices]) if test "x${have_bzlib}" = xyes; then AC_MSG_RESULT([yes]) LIBS="-lbz2 ${LIBS}" else AC_MSG_ERROR([bzip2 library and headers are required]) fi ])# R_BZLIB ## R_TRE ## ------- ## Try finding tre library and headers. ## We check that both are installed, AC_DEFUN([R_TRE], [if test "x${use_system_tre}" = xyes; then AC_CHECK_LIB(tre, tre_regncompb, [have_tre=yes], [have_tre=no]) if test "${have_tre}" = yes; then AC_CHECK_HEADERS(tre/tre.h, [have_tre=yes], [have_tre=no]) fi if test "x${have_tre}" = xyes; then AC_DEFINE(HAVE_TRE, 1, [Define if your system has tre.]) LIBS="-ltre ${LIBS}" fi else have_tre="no" fi AM_CONDITIONAL(BUILD_TRE, [test x${have_tre} != xyes]) ])# R_TRE ## R_LZMA ## ------- ## Try finding liblzma library and headers. ## We check that both are installed, AC_DEFUN([R_LZMA], [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 >= 5.0.3], [r_cv_have_lzma], [AC_LANG_PUSH(C) r_save_LIBS="${LIBS}" LIBS="-llzma ${LIBS}" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #ifdef HAVE_LZMA_H #include #endif #include int main() { unsigned int ver = lzma_version_number(); // This is 10000000*major + 10000*minor + 10*revision + [012] // I.e. xyyyzzzs and 5.1.2 would be 50010020 exit(ver < 50000030); } ]])], [r_cv_have_lzma=yes], [r_cv_have_lzma=no], [r_cv_have_lzma=no]) LIBS="${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 >= 5.0.3.]) LIBS="-llzma ${LIBS}" else AC_MSG_ERROR("liblzma library and headers are required") fi ])# R_LZMA ## R_SYS_POSIX_LEAPSECONDS ## ----------------------- ## See if your system time functions do not count leap seconds, as ## required by POSIX. AC_DEFUN([R_SYS_POSIX_LEAPSECONDS], [AC_CACHE_CHECK([whether leap seconds are treated according to POSIX], [r_cv_sys_posix_leapseconds], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include #include "confdefs.h" int main () { struct tm *tm; time_t ct = 0; /* required on 64bit AIX */ ctime(&ct); ct = ct - (ct % 60); tm = gmtime(&ct); if(tm->tm_sec == 0) exit(1); else exit(0); } ]])], [r_cv_sys_posix_leapseconds=no], [r_cv_sys_posix_leapseconds=yes], [r_cv_sys_posix_leapseconds=yes])]) if test "x${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, has iconv as a macro and needs -liconv. AC_DEFUN([R_ICONV], [AC_CHECK_HEADERS(iconv.h) dnl 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 AC_CACHE_CHECK([whether iconv accepts "CP1252"], [r_cv_iconv_cp1252], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include "confdefs.h" #include #ifdef HAVE_ICONV_H #include #endif int main () { iconv_t cd; cd = iconv_open("CP1252","UTF-8"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("UTF-8","CP1252"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("CP1252", ""); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("","CP1252"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("CP1252","latin1"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); cd = iconv_open("latin1","CP1252"); if(cd == (iconv_t)(-1)) exit(1); iconv_close(cd); exit(0); } ]])], [r_cv_iconv_cp1252=yes], [r_cv_iconv_cp1252=no], [r_cv_iconv_cp1252=yes])]) ## on Windows we supply iconv ourselves case "${host_os}" in mingw*) r_cv_iconv_cp1252=yes ;; esac if test "$r_cv_iconv_cp1252" = yes; then AC_DEFINE(HAVE_ICONV_CP1252, 1, [Define if `iconv' accepts "CP1252".]) fi fi dnl 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, const char * const *names, void *data) {return 0;}], [iconvlist(count_one, NULL);], ac_cv_func_iconvlist=yes) ]) if test "$ac_cv_func_iconvlist" = yes; then AC_DEFINE(HAVE_ICONVLIST, 1, [Define if you have the `iconvlist' function.]) fi AM_ICONV dnl from gettext.m4 ])# R_ICONV ## R_MBCS ## ------------- ## locales - support for MBCS and specifically UTF-8 AC_DEFUN([R_MBCS], [ want_mbcs_support=yes dnl Wide character support -- first test for headers (which are assumed in code) AC_CHECK_HEADERS(wchar.h wctype.h) for ac_header in wchar wctype; do as_ac_var=`echo "ac_cv_header_${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 dnl 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 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 dnl These are POSIX. not used by default. if test "$want_mbcs_support" = yes ; then R_CHECK_FUNCS([wcwidth wcswidth], [#include ]) fi dnl it seems IRIX once had wctrans but not wctrans_t: we check this when we dnl know we have the headers and wctrans(). dnl Also Solaris 2.6 (very old) seems to be missing mbstate_t if test "$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 gcc/gfortran ## Also accepted on clang (which defines __GNUC__). ## Intel also defines __GNUC__ but is excluded below, and ## Solaris <= 12.4 rejected -Werror, but 12.5 did not. 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 $r_cv_visibility_attribute = yes; then AC_DEFINE(HAVE_VISIBILITY_ATTRIBUTE, 1, [Define to 1 if __attribute__((visibility())) is supported]) fi dnl test if visibility flag is accepted: NB Solaris compilers do and ignore, dnl so only make use of this if HAVE_VISIBILITY_ATTRIBUTE is true. if test -z "${C_VISIBILITY+set}"; then 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 dnl Need to exclude Intel compilers, where this does not work correctly. dnl The flag is documented and is effective, but also hides dnl unsatisfied references. We cannot test for GCC, as icc passes that test. case "${CC}" in ## Intel compiler: note that -c99 may have been appended *icc*) C_VISIBILITY= ;; esac fi if test -z "${CXX_VISIBILITY+set}"; then r_save_CXXFLAGS=$CXXFLAGS CXXFLAGS="$CXXFLAGS -fvisibility=hidden" AC_LANG_PUSH(C++) AC_CACHE_CHECK(whether $CXX accepts -fvisibility, r_cv_prog_cxx_vis, [_AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [r_cv_prog_cxx_vis=yes], [r_cv_prog_cxx_vis=no])]) AC_LANG_POP(C++) CXXFLAGS=$r_save_CXXFLAGS if test "${r_cv_prog_cxx_vis}" = yes; then if test "${r_cv_visibility_attribute}" = yes; then CXX_VISIBILITY="-fvisibility=hidden" fi fi dnl Need to exclude Intel compilers, where this does not work correctly. dnl The flag is documented and is effective, but also hides dnl unsatisfied references. We cannot test for GCC, as icc passes that test. case "${CXX}" in ## Intel compiler *icc*|*icpc*) CXX_VISIBILITY= ;; esac fi if test -z "${F_VISIBILITY+set}"; then AC_LANG_PUSH(Fortran) r_save_FCFLAGS=$FCFLAGS FCFLAGS="$FCFLAGS -fvisibility=hidden" AC_CACHE_CHECK(whether $FC accepts -fvisibility, r_cv_prog_fc_vis, [_AC_COMPILE_IFELSE([AC_LANG_PROGRAM()], [r_cv_prog_fc_vis=yes], [r_cv_prog_fc_vis=no])]) FCFLAGS=$r_save_FCFLAGS AC_LANG_POP(Fortran) if test "${r_cv_prog_fc_vis}" = yes; then if test "${r_cv_visibility_attribute}" = yes; then F_VISIBILITY="-fvisibility=hidden" fi fi dnl need to exclude Intel compilers. case "${FC}" in ## Intel compiler *ifc|*ifort) F_VISIBILITY= ;; esac fi AC_SUBST(C_VISIBILITY) AC_SUBST(F_VISIBILITY) AC_SUBST(CXX_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_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 ## ------------ ## This gets recorded in etc/Renviron and used in tools/R/sotools.R ## It is a comma-separated string of 5 items, OS,C,CXX,F77,F95 . AC_DEFUN([R_ABI], [## System type. case "${host_os}" in linux*) R_SYSTEM_ABI="linux" ;; solaris*) R_SYSTEM_ABI="solaris" ;; darwin*) R_SYSTEM_ABI="macos" ;; freebsd*) R_SYSTEM_ABI="freebsd" ;; *) R_SYSTEM_ABI="?" ;; esac dnl Compiler types dnl C: AC_PROG_CC does dnl If using the GNU C compiler, set shell variable `GCC' to `yes'. dnl Alternatively, could use ac_cv_c_compiler_gnu (undocumented). if test "${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 dnl C++: AC_PROG_CXX does dnl If using the GNU C++ compiler, set shell variable `GXX' to `yes'. dnl 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="${R_SYSTEM_ABI},?" esac fi dnl Fortran (fixed- then free-form): if test "${ac_cv_fc_compiler_gnu}" = yes; then R_SYSTEM_ABI="${R_SYSTEM_ABI},gfortran,gfortran" else case "${FC}" in *flang) R_SYSTEM_ABI="${R_SYSTEM_ABI},flang,flang" ;; *) case "${host_os}" in solaris*) R_SYSTEM_ABI="${R_SYSTEM_ABI},solf95,solf95" ;; *) R_SYSTEM_ABI="${R_SYSTEM_ABI},?,?" esac ;; esac fi AC_SUBST(R_SYSTEM_ABI) ]) # R_ABI ## R_FUNC_MKTIME ## ------------ AC_DEFUN([R_FUNC_MKTIME], [AC_CACHE_CHECK([whether mktime works correctly outside 1902-2037], [r_cv_working_mktime], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include int main() { if(sizeof(time_t) < 8) exit(1); struct tm tm; time_t res; putenv("TZ=Europe/London"); tm.tm_sec = tm.tm_min = 0; tm.tm_hour = 12; tm.tm_mday = 1; tm.tm_mon = 0; tm.tm_year = 80; tm.tm_isdst = 0; res = mktime(&tm); if(res == (time_t)-1) exit(2); tm.tm_mday = 1; tm.tm_year = 01; tm.tm_isdst = 0; res = mktime(&tm); if(res == (time_t)-1) exit(3); tm.tm_year = 140; res = mktime(&tm); if(res != 2209032000L) exit(4); tm.tm_mon = 6; tm.tm_isdst = 1; res = mktime(&tm); if(res != 2224753200L) exit(5); exit(0); } ]])], [r_cv_working_mktime=yes], [r_cv_working_mktime=no], [r_cv_working_mktime=no])]) if test "x${r_cv_working_mktime}" = xyes; then AC_DEFINE(HAVE_WORKING_64BIT_MKTIME, 1, [Define if your mktime works correctly outside 1902-2037.]) fi ])# R_FUNC_MKTIME ## R_STDCXX ## -------- ## Support for C++ standards (C++11, C++14, C++17, C++20), for use in packages. ## R_STDCXX(VERSION, PREFIX, DEFAULT) AC_DEFUN([R_STDCXX], [r_save_CXX="${CXX}" r_save_CXXFLAGS="${CXXFLAGS}" : ${$2=${$3}} : ${$2FLAGS=${$3FLAGS}} : ${$2PICFLAGS=${$3PICFLAGS}} CXX="${$2} ${$2STD}" CXXFLAGS="${$2FLAGS} ${$2PICFLAGS}" AC_LANG_PUSH([C++])dnl AX_CXX_COMPILE_STDCXX([$1], [], [optional]) AC_LANG_POP([C++])dnl Seems the macro does not always get this right CXX="${r_save_CXX}" CXXFLAGS="${r_save_CXXFLAGS}" if test "${HAVE_CXX$1}" = "1"; then dnl for aesthetics avoid leading space if test "${$2STD}"x = "x"; then $2STD="${switch}" else $2STD="${$2STD} ${switch}" fi else $2="" $2STD="" $2FLAGS="" $2PICFLAGS="" fi AC_SUBST($2) AC_SUBST($2STD) AC_SUBST($2FLAGS) AC_SUBST($2PICFLAGS) if test -z "${SHLIB_$2LD}"; then SHLIB_$2LD="\$($2) \$($2STD)" fi AC_SUBST(SHLIB_$2LD) : ${SHLIB_$2LDFLAGS=${SHLIB_$3LDFLAGS}} AC_SUBST(SHLIB_$2LDFLAGS) AC_ARG_VAR([$2], [C++$1 compiler command]) AC_ARG_VAR([$2STD], [special flag for compiling and for linking C++$1 code, e.g. -std=c++$1]) AC_ARG_VAR([$2FLAGS], [C++$1 compiler flags]) AC_ARG_VAR([$2PICFLAGS], [special flags for compiling C++$1 code to be turned into a shared object]) AC_ARG_VAR([SHLIB_$2LD], [command for linking shared objects which contain object files from the C++$1 compiler]) AC_ARG_VAR([SHLIB_$2LDFLAGS], [special flags used by SHLIB_$2LD]) ])# R_STDCXX ## R_LIBCURL ## ---------------- AC_DEFUN([R_LIBCURL], [ dnl curl-config might not match the installed libcurl, dnl so we allow the user to set CURL_CPPFLAGS, CURL_LIBS dnl and check the version directly rather than by curl-config --checkfor AC_PATH_PROG(CURL_CONFIG, curl-config) if test -n "${CURL_CONFIG}"; then echo "checking libcurl version ..." \ `${CURL_CONFIG} --version | sed -e 's,^[[^0-9]]*,,'` if test -z "${CURL_CPPFLAGS}"; then CURL_CPPFLAGS=`${CURL_CONFIG} --cflags` fi ## This should be correct for a static-only build, user will ## need to override to specify static linking (see config.site) if test -z "${CURL_LIBS}"; then CURL_LIBS=`${CURL_CONFIG} --libs` fi fi r_save_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CURL_CPPFLAGS} ${CPPFLAGS}" r_save_LIBS="${LIBS}" LIBS="${CURL_LIBS} ${LIBS}" AC_CHECK_HEADERS(curl/curl.h, [have_libcurl=yes], [have_libcurl=no]) if test "x${have_libcurl}" = "xyes"; then AC_CACHE_CHECK([if libcurl is version 7 and >= 7.28.0], [r_cv_have_curl728], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include int main() { #ifdef LIBCURL_VERSION_MAJOR #if LIBCURL_VERSION_MAJOR > 7 exit(1); #elif LIBCURL_VERSION_MAJOR == 7 && LIBCURL_VERSION_MINOR >= 28 exit(0); #else exit(1); #endif #else exit(1); #endif } ]])], [r_cv_have_curl728=yes], [r_cv_have_curl728=no], [r_cv_have_curl728=no])]) fi if test "x${r_cv_have_curl728}" = xno; then have_libcurl=no fi if test "x${have_libcurl}" = "xyes"; then AC_CACHE_CHECK([if libcurl supports https], [r_cv_have_curl_https], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include // for exit #include #include int main() { curl_version_info_data *data = curl_version_info(CURLVERSION_NOW); const char * const *p = data->protocols; int found = 0; for (; *p; p++) if(strcmp(*p, "https") == 0) {found = 1; break;} exit(found ? 0 : 1); } ]])], [r_cv_have_curl_https=yes], [r_cv_have_curl_https=no], [r_cv_have_curl_https=no])]) fi if test "x${r_cv_have_curl_https}" = xno; then have_libcurl=no fi if test "x${have_libcurl}" = xyes; then AC_DEFINE(HAVE_LIBCURL, 1, [Define if your system has libcurl >= 7.28.0 with support for https.]) CPPFLAGS="${r_save_CPPFLAGS}" LIBS="${r_save_LIBS}" AC_SUBST(CURL_CPPFLAGS) AC_SUBST(CURL_LIBS) else AC_MSG_ERROR([libcurl >= 7.28.0 library and headers are required with support for https]) fi ])# R_LIBCURL ## R_OPENMP_SIMDRED ## ------------ ## Support for SIMD reduction on '+' (part of OpenMP 4.0) in C compiler. AC_DEFUN([R_OPENMP_SIMDRED], [AC_CACHE_CHECK([whether OpenMP SIMD reduction is supported], [r_cv_openmp_simdred], [ AC_LANG_PUSH(C) r_save_CFLAGS="${CFLAGS}" CFLAGS="${CFLAGS} ${R_OPENMP_CFLAGS}" AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include double ssum(double *x, int n) { /* SIMD reduction is supported since OpenMP 4.0. The value of _OPENMP is unreliable in some compilers, so we do not test its value. */ #if defined(_OPENMP) double s = 0; #pragma omp simd reduction(+:s) for(int i = 0; i < n; i++) s += x[i]; return s; #else exit(1); return 0; /* not reachable */ #endif } int main() { /* use volatiles to reduce the risk of the computation being inlined and constant-folded */ volatile double xv[8] = {1, 2, 3, 4, 5, 6, 7, 8}; volatile int n = 8; double x[8], s; int i; for(i = 0; i < 8; i++) x[i] = xv[i]; s = ssum(x, n); if (s == 36) exit(0); exit(2); } ]])], [r_cv_openmp_simdred=yes], [r_cv_openmp_simdred=no], [r_cv_openmp_simdred=no]) CFLAGS="${r_save_CFLAGS}" ]) if test "x${r_cv_openmp_simdred}" = xyes; then AC_DEFINE(HAVE_OPENMP_SIMDRED, 1, [Define if your OpenMP 4 implementation fully supports SIMD reduction]) fi ])# R_OPENMP_SIMDRED ## R_FUNC_CTANH ## ------------ ## Old versions of GLIBC have a bug due to which e.g. ctanh(0+365i) is NaN. ## The problem exists also in RHEL6. AC_DEFUN([R_FUNC_CTANH], [AC_CACHE_CHECK([for working ctanh], [r_cv_func_ctanh_works], [AC_RUN_IFELSE([AC_LANG_SOURCE([[ #include #include #include "confdefs.h" int main () { #ifdef HAVE_CTANH volatile double complex z1 = 0; volatile double complex z2 = 365; z1 = ctanh(z1); z2 = ctanh(z2); if (creal(z1) != 0 || cimag(z1) != 0 || creal(z2) != 1 || cimag(z2) != 0) exit(1); else exit(0); #else exit(1); #endif } ]])], [r_cv_func_ctanh_works=yes], [r_cv_func_ctanh_works=no], [r_cv_func_ctanh_works=no])]) if test "x${r_cv_func_ctanh_works}" = xyes; then AC_DEFINE(HAVE_WORKING_CTANH, 1, [Define if ctanh() exists and is working correctly.]) fi ])# R_FUNC_CTANH ## R_MNT_WARN(MSG) ## -------------------------------------------------------- ## Prints a warning if in maintainer mode. AC_DEFUN([R_MNT_WARN], [if test "x${use_maintainer_mode}" = xyes; then AC_MSG_WARN([$1]) fi ])# R_MNT_WARN ### A modified version of AC_SEARCH_LIBS AC_DEFUN([R_SEARCH_OPTS], [AS_VAR_PUSHDEF([r_Search], [r_cv_search_$1])dnl AC_CACHE_CHECK([for option providing $1], [r_Search], [r_opts_save_CFLAGS=$CFLAGS AC_LANG_CONFTEST([AC_LANG_CALL([], [$1])]) for r_opt in '' $2; do if test -z "$r_opt"; then r_res="none required" else r_res=$r_opt CFLAGS="$r_opt $r_opts_save_CFLAGS" fi AC_LINK_IFELSE([], [AS_VAR_SET([r_Search], [$r_res])]) AS_VAR_SET_IF([r_Search], [break]) done AS_VAR_SET_IF([r_Search], , [AS_VAR_SET([r_Search], [no])]) rm conftest.$ac_ext CFLAGS=$r_save_CFLAGS ]) AS_VAR_COPY([r_res], [r_Search]) AS_VAR_POPDEF([r_Search])dnl ]) ## R_PTHREAD ## --------- ## POSIX threads. AC_DEFUN([R_PTHREAD], [case "${host_os}" in mingw*|windows*|winnt) ;; *) r_save_CFLAGS=${CFLAGS} CFLAGS="${CFLAGS} ${OPENMP_CFLAGS}" ## Other things one might want to try for ancient systems ## -Kthread (Sequent) -pthreads (Solaris/gcc, but -pthread works) R_SEARCH_OPTS([pthread_kill], [${PTHREAD_OPT} -pthread]) CFLAGS=${r_save_CFLAGS} case "${r_cv_search_pthread_kill}" in "none required") ## expected on macOS and Solaris, and other platforms with OpenMP in use have_pthread=1 ;; no) ;; *) have_pthread=1 PTHREAD_OPT=${r_cv_search_pthread_kill} R_SH_VAR_ADD(MAIN_LDFLAGS, [${PTHREAD_OPT}]) R_SH_VAR_ADD(DYLIB_LDFLAGS, [${PTHREAD_OPT}]) ;; esac ;; esac AC_MSG_CHECKING([whether POSIX threads are supported]) if test -n "${have_pthread}"; then AC_DEFINE(HAVE_PTHREAD, 1, [Define if have support for POSIX threads.]) AC_MSG_RESULT([yes]) else AC_MSG_RESULT([no]) fi ])# R_PTHREAD ## R_CSTACK_DIRECTION ## ----------------- AC_DEFUN([R_CSTACK_DIRECTION], [AC_MSG_CHECKING([for C stack direction]) AC_CACHE_VAL([r_cv_cstack_direction], [cat > conftest.c <&AS_MESSAGE_LOG_FD 2>&AS_MESSAGE_LOG_FD; then ## redirect error messages to config.log output=`./conftest${ac_exeext} 2>&AS_MESSAGE_LOG_FD` _cstack_direction_result=${?} if test "${_cstack_direction_result}" = 1; then r_cv_cstack_direction=down elif test "${_cstack_direction_result}" = 255; then r_cv_cstack_direction=up fi fi fi ]) rm -Rf conftest conftest.* core if test -n "${r_cv_cstack_direction}"; then AC_MSG_RESULT(${r_cv_cstack_direction}) else AC_MSG_RESULT([don't know (assume down)]) r_cv_cstack_direction=down fi ])# R_CSTACK_DIRECTION ### Local variables: *** ### mode: outline-minor *** ### outline-regexp: "### [*]+" *** ### End: ***