# FP_COMPUTE_INT(EXPRESSION, VARIABLE, INCLUDES, IF-FAILS) # -------------------------------------------------------- # Assign VARIABLE the value of the compile-time EXPRESSION using INCLUDES for # compilation. Execute IF-FAILS when unable to determine the value. Works for # cross-compilation, too. # # Implementation note: We are lazy and use an internal autoconf macro, but it # is supported in autoconf versions 2.50 up to the actual 2.57, so there is # little risk. # The public AC_COMPUTE_INT macro isn't supported by some versions of # autoconf. AC_DEFUN([FP_COMPUTE_INT], [_AC_COMPUTE_INT([$2], [$1], [$3], [$4])[]dnl ])# FP_COMPUTE_INT # FP_CHECK_CONST(EXPRESSION, [INCLUDES = DEFAULT-INCLUDES], [VALUE-IF-FAIL = -1]) # ------------------------------------------------------------------------------- # Defines CONST_EXPRESSION to the value of the compile-time EXPRESSION, using # INCLUDES. If the value cannot be determined, use VALUE-IF-FAIL. AC_DEFUN([FP_CHECK_CONST], [AS_VAR_PUSHDEF([fp_Cache], [fp_cv_const_$1])[]dnl AC_CACHE_CHECK([value of $1], fp_Cache, [FP_COMPUTE_INT(fp_check_const_result, [$1], [AC_INCLUDES_DEFAULT([$2])], [fp_check_const_result=m4_default([$3], ['-1'])]) AS_VAR_SET(fp_Cache, [$fp_check_const_result])])[]dnl AC_DEFINE_UNQUOTED(AS_TR_CPP([CONST_$1]), AS_VAR_GET(fp_Cache), [The value of $1.])[]dnl AS_VAR_POPDEF([fp_Cache])[]dnl ])# FP_CHECK_CONST # FP_CHECK_CONSTS_TEMPLATE(EXPRESSION...) # --------------------------------------- # autoheader helper for FP_CHECK_CONSTS m4_define([FP_CHECK_CONSTS_TEMPLATE], [AC_FOREACH([fp_Const], [$1], [AH_TEMPLATE(AS_TR_CPP(CONST_[]fp_Const), [The value of ]fp_Const[.])])[]dnl ])# FP_CHECK_CONSTS_TEMPLATE # FP_CHECK_CONSTS(EXPRESSION..., [INCLUDES = DEFAULT-INCLUDES], [VALUE-IF-FAIL = -1]) # ----------------------------------------------------------------------------------- # List version of FP_CHECK_CONST AC_DEFUN([FP_CHECK_CONSTS], [FP_CHECK_CONSTS_TEMPLATE([$1])dnl for fp_const_name in $1 do FP_CHECK_CONST([$fp_const_name], [$2], [$3]) done ])# FP_CHECK_CONSTS dnl FPTOOLS_HTYPE_INCLUDES AC_DEFUN([FPTOOLS_HTYPE_INCLUDES], [ #include #include #if HAVE_SYS_TYPES_H # include #endif #if HAVE_UNISTD_H # include #endif #if HAVE_SYS_STAT_H # include #endif #if HAVE_FCNTL_H # include #endif #if HAVE_SIGNAL_H # include #endif #if HAVE_TIME_H # include #endif #if HAVE_TERMIOS_H # include #endif #if HAVE_STRING_H # include #endif #if HAVE_CTYPE_H # include #endif #if HAVE_INTTYPES_H # include #else # if HAVE_STDINT_H # include # endif #endif #if HAVE_SYS_RESOURCE_H # include #endif #include ]) dnl ** Map an arithmetic C type to a Haskell type. dnl Based on autconf's AC_CHECK_SIZEOF. dnl FPTOOLS_CHECK_HTYPE_ELSE(TYPE, WHAT_TO_DO_IF_TYPE_DOES_NOT_EXIST) AC_DEFUN([FPTOOLS_CHECK_HTYPE_ELSE],[ changequote(<<, >>) dnl The name to #define. define(<>, translit(htype_$1, [a-z *], [A-Z_P])) dnl The cache variable names. define(<>, translit(fptools_cv_htype_$1, [ *], [_p])) define(<>, translit(fptools_cv_htype_sup_$1, [ *], [_p])) changequote([, ]) AC_MSG_CHECKING(Haskell type for $1) AC_CACHE_VAL(AC_CV_NAME,[ AC_CV_NAME_supported=yes FP_COMPUTE_INT([HTYPE_IS_INTEGRAL], [(($1)((int)(($1)1.4))) == (($1)1.4)], [FPTOOLS_HTYPE_INCLUDES],[AC_CV_NAME_supported=no]) if test "$AC_CV_NAME_supported" = "yes" then if test "$HTYPE_IS_INTEGRAL" -eq 0 then FP_COMPUTE_INT([HTYPE_IS_FLOAT],[sizeof($1) == sizeof(float)], [FPTOOLS_HTYPE_INCLUDES], [AC_CV_NAME_supported=no]) FP_COMPUTE_INT([HTYPE_IS_DOUBLE],[sizeof($1) == sizeof(double)], [FPTOOLS_HTYPE_INCLUDES], [AC_CV_NAME_supported=no]) FP_COMPUTE_INT([HTYPE_IS_LDOUBLE],[sizeof($1) == sizeof(long double)], [FPTOOLS_HTYPE_INCLUDES], [AC_CV_NAME_supported=no]) if test "$HTYPE_IS_FLOAT" -eq 1 then AC_CV_NAME=Float elif test "$HTYPE_IS_DOUBLE" -eq 1 then AC_CV_NAME=Double elif test "$HTYPE_IS_LDOUBLE" -eq 1 then AC_CV_NAME=LDouble else AC_CV_NAME_supported=no fi else FP_COMPUTE_INT([HTYPE_IS_SIGNED],[(($1)(-1)) < (($1)0)], [FPTOOLS_HTYPE_INCLUDES], [AC_CV_NAME_supported=no]) FP_COMPUTE_INT([HTYPE_SIZE],[sizeof($1) * 8], [FPTOOLS_HTYPE_INCLUDES], [AC_CV_NAME_supported=no]) if test "$HTYPE_IS_SIGNED" -eq 0 then AC_CV_NAME="Word$HTYPE_SIZE" else AC_CV_NAME="Int$HTYPE_SIZE" fi fi fi ]) if test "$AC_CV_NAME_supported" = no then $2 fi dnl Note: evaluating dollar-2 can change the value of dnl $AC_CV_NAME_supported, so we might now get a different answer if test "$AC_CV_NAME_supported" = yes; then AC_MSG_RESULT($AC_CV_NAME) AC_DEFINE_UNQUOTED(AC_TYPE_NAME, $AC_CV_NAME, [Define to Haskell type for $1]) fi undefine([AC_TYPE_NAME])dnl undefine([AC_CV_NAME])dnl undefine([AC_CV_NAME_supported])dnl ]) dnl FPTOOLS_CHECK_HTYPE(TYPE) AC_DEFUN([FPTOOLS_CHECK_HTYPE],[ FPTOOLS_CHECK_HTYPE_ELSE([$1],[ AC_CV_NAME=NotReallyAType AC_MSG_RESULT([not supported]) ]) ]) # FP_SEARCH_LIBS_PROTO(WHAT, PROTOTYPE, FUNCTION, SEARCH-LIBS, # [ACTION-IF-FOUND], [ACTION-IF-NOT-FOUND], # [OTHER-LIBRARIES]) # -------------------------------------------------------- # Search for a library defining FUNC, if it's not already available. # This is a copy of the AC_SEARCH_LIBS definition, but extended to take # the name of the thing we are looking for as its first argument, and # prototype text as its second argument. It also calls AC_LANG_PROGRAM # instead of AC_LANG_CALL AC_DEFUN([FP_SEARCH_LIBS_PROTO], [AS_VAR_PUSHDEF([ac_Search], [ac_cv_search_$1])dnl AC_CACHE_CHECK([for library containing $1], [ac_Search], [ac_func_search_save_LIBS=$LIBS AC_LANG_CONFTEST([AC_LANG_PROGRAM([$2], [$3])]) for ac_lib in '' $4; do if test -z "$ac_lib"; then ac_res="none required" else ac_res=-l$ac_lib LIBS="-l$ac_lib $7 $ac_func_search_save_LIBS" fi AC_LINK_IFELSE([], [AS_VAR_SET([ac_Search], [$ac_res])]) AS_VAR_SET_IF([ac_Search], [break]) done AS_VAR_SET_IF([ac_Search], , [AS_VAR_SET([ac_Search], [no])]) rm conftest.$ac_ext LIBS=$ac_func_search_save_LIBS]) ac_res=AS_VAR_GET([ac_Search]) AS_IF([test "$ac_res" != no], [test "$ac_res" = "none required" || LIBS="$ac_res $LIBS" $5], [$6])dnl AS_VAR_POPDEF([ac_Search])dnl ])