dnl UL_PKG_STATIC(VARIABLE, MODULES) dnl dnl Calls pkg-config --static dnl AC_DEFUN([UL_PKG_STATIC], [ if AC_RUN_LOG([pkg-config --exists --print-errors "$2"]); then $1=`pkg-config --libs --static "$2"` else AC_MSG_ERROR([pkg-config description of $2, needed for static build, is not available]) fi ]) dnl UL_CHECK_LIB(LIBRARY, FUNCTION, [VARSUFFIX = $1])) dnl dnl The VARSUFFIX is optional and overrides the default behaviour. For example: dnl UL_CHECK_LIB(yyy, func, xxx) generates have_xxx and HAVE_LIBXXX dnl UL_CHECK_LIB(yyy, func) generates have_yyy and HAVE_LIBYYY dnl AC_DEFUN([UL_CHECK_LIB], [ m4_define([suffix], m4_default([$3],$1)) [have_]suffix=yes m4_ifdef([$3], [AC_CHECK_LIB([$1], [$2], [AC_DEFINE(AS_TR_CPP([HAVE_LIB]suffix), 1)], [[have_]suffix=no])], [AC_CHECK_LIB([$1], [$2], [], [[have_]suffix=no])]) AM_CONDITIONAL(AS_TR_CPP([HAVE_]suffix), [test [$have_]suffix = yes]) ]) dnl UL_SET_ARCH(ARCHNAME, PATTERN) dnl dnl Define ARCH_ condition if the pattern match with the current dnl architecture dnl AC_DEFUN([UL_SET_ARCH], [ cpu_$1=false case "$host" in $2) cpu_$1=true ;; esac AM_CONDITIONAL(AS_TR_CPP(ARCH_$1), [test "x$cpu_$1" = xtrue]) ]) dnl UL_SET_FLAGS(CFLAGS, CPPFLAGS, LDFLAGS) dnl dnl Sets new global CFLAGS, CPPFLAGS and LDFLAG, the original dnl setting could be restored by UL_RESTORE_FLAGS() dnl AC_DEFUN([UL_SET_FLAGS], [ old_CFLAGS="$CFLAGS" old_CPPFLAGS="$CPPFLAGS" old_LDFLAGS="$LDFLAGS" CFLAGS="$CFLAGS $1" CPPFLAGS="$CPPFLAGS $2" LDFLAGS="$LDFLAGS $3" ]) dnl UL_RESTORE_FLAGS() dnl dnl Restores CFLAGS, CPPFLAGS and LDFLAG previously saved by UL_SET_FLAGS() dnl AC_DEFUN([UL_RESTORE_FLAGS], [ CFLAGS="$old_CFLAGS" CPPFLAGS="$old_CPPFLAGS" LDFLAGS="$old_LDFLAGS" ]) dnl UL_CHECK_SYSCALL(SYSCALL, FALLBACK, ...) dnl dnl Only specify FALLBACK if the SYSCALL you're checking for is a "newish" one dnl AC_DEFUN([UL_CHECK_SYSCALL], [ dnl This macro uses host_cpu. AC_REQUIRE([AC_CANONICAL_HOST]) AC_CACHE_CHECK([for syscall $1], [ul_cv_syscall_$1], [_UL_SYSCALL_CHECK_DECL([SYS_$1], [syscall=SYS_$1], [dnl Our libc failed use, so see if we can get the kernel dnl headers to play ball ... _UL_SYSCALL_CHECK_DECL([_NR_$1], [syscall=_NR_$1], [ syscall=no if test "x$linux_os" = xyes; then case $host_cpu in _UL_CHECK_SYSCALL_FALLBACK(m4_shift($@)) esac fi ]) ]) ul_cv_syscall_$1=$syscall ]) AM_CONDITIONAL([HAVE_]m4_toupper($1), [test "x$ul_cv_syscall_$1" != xno]) case $ul_cv_syscall_$1 in #( no) AC_MSG_WARN([Unable to detect syscall $1.]) ;; SYS_*) ;; *) AC_DEFINE_UNQUOTED([SYS_$1], [$ul_cv_syscall_$1], [Fallback syscall number for $1]) ;; esac ]) dnl _UL_SYSCALL_CHECK_DECL(SYMBOL, ACTION-IF-FOUND, ACTION-IF-NOT-FOUND) dnl dnl Check if SYMBOL is declared, using the headers needed for syscall checks. dnl m4_define([_UL_SYSCALL_CHECK_DECL], [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #include #include ]], [[int test = $1;]])], [$2], [$3]) ]) dnl _UL_CHECK_SYSCALL_FALLBACK(PATTERN, VALUE, ...) dnl dnl Helper macro to create the body for the above `case'. dnl m4_define([_UL_CHECK_SYSCALL_FALLBACK], [m4_ifval([$1], [#( $1) syscall="$2" ;;dnl _UL_CHECK_SYSCALL_FALLBACK(m4_shiftn(2, $@))])dnl ]) dnl UL_REQUIRES_LINUX(NAME, [VARSUFFIX = $1]) dnl dnl Modifies $build_ variable according to $enable_ and OS type. The dnl $enable_ could be "yes", "no" and "check". If build_ is "no" then dnl all checks are skiped. dnl dnl The default for $build_ and $enable_ could be overwrited by option $2. dnl AC_DEFUN([UL_REQUIRES_LINUX], [ m4_define([suffix], m4_default([$2],$1)) if test "x$[build_]suffix" != xno; then AC_REQUIRE([AC_CANONICAL_HOST]) case $[enable_]suffix:$linux_os in #( no:*) [build_]suffix=no ;; yes:yes) [build_]suffix=yes ;; yes:*) AC_MSG_ERROR([$1 selected for non-linux system]);; check:yes) [build_]suffix=yes ;; check:*) AC_MSG_WARN([non-linux system; do not build $1]) [build_]suffix=no ;; esac fi ]) dnl UL_REQUIRES_HAVE(NAME, HAVENAME, HAVEDESC [VARSUFFIX=$1]) dnl dnl Modifies $build_ variable according to $enable_ and dnl $have_. The is description used ifor warning/error dnl message (e.g. "function"). dnl dnl The default for $build_ and $enable_ could be overwrited by option $3. dnl AC_DEFUN([UL_REQUIRES_HAVE], [ m4_define([suffix], m4_default([$4],$1)) if test "x$[build_]suffix" != xno; then case $[enable_]suffix:$[have_]$2 in #( no:*) [build_]suffix=no ;; yes:yes) [build_]suffix=yes ;; yes:*) AC_MSG_ERROR([$1 selected, but required $3 not available]);; check:yes) [build_]suffix=yes ;; check:*) AC_MSG_WARN([$3 not found; do not build $1]) [build_]suffix=no ;; esac fi ]) dnl dnl UL_CONFLICTS_BUILD(NAME, ANOTHER, ANOTHERDESC [VARSUFFIX=$1]) dnl dnl - ends with error if $enable_ and $build_ dnl are both set to 'yes' dnl - sets $build_ to 'no' if $build_ is 'yes' and dnl $enable_ is 'check' or 'no' dnl dnl The is description used for warning/error dnl message (e.g. "function"). dnl dnl The default for $build_ and $enable_ could be overwrited by option $3. dnl AC_DEFUN([UL_CONFLICTS_BUILD], [ m4_define([suffix], m4_default([$4],$1)) if test "x$[build_]suffix" != xno; then case $[enable_]suffix:$[build_]$2 in #( no:*) [build_]suffix=no ;; check:yes) [build_]suffix=no ;; yes:yes) AC_MSG_ERROR([$1 selected, but it conflicts with $3]);; esac fi ]) dnl UL_REQUIRES_BUILD(NAME, BUILDNAME, [VARSUFFIX=$1]) dnl dnl Modifies $build_ variable according to $enable_ and $have_funcname. dnl dnl The default for $build_ and $enable_ could be overwrited by option $3. dnl AC_DEFUN([UL_REQUIRES_BUILD], [ m4_define([suffix], m4_default([$3],$1)) if test "x$[build_]suffix" != xno; then case $[enable_]suffix:$[build_]$2 in #( no:*) [build_]suffix=no ;; yes:yes) [build_]suffix=yes ;; yes:*) AC_MSG_ERROR([$2 is needed to build $1]);; check:yes) [build_]suffix=yes ;; check:*) AC_MSG_WARN([$2 disabled; do not build $1]) [build_]suffix=no ;; esac fi ]) dnl UL_REQUIRES_SYSCALL_CHECK(NAME, SYSCALL-TEST, [SYSCALLNAME=$1], [VARSUFFIX=$1]) dnl dnl Modifies $build_ variable according to $enable_ and SYSCALL-TEST dnl result. The $enable_ variable could be "yes", "no" and "check". If build_ dnl is "no" then all checks are skiped. dnl dnl Note that SYSCALL-TEST has to define $ul_cv_syscall_ variable, see dnl also UL_CHECK_SYSCALL(). dnl dnl The default for $build_ and $enable_ count be overwrited by option $4 and dnl $ul_cv_syscall_ could be overwrited by $3. dnl AC_DEFUN([UL_REQUIRES_SYSCALL_CHECK], [ m4_define([suffix], m4_default([$4],$1)) m4_define([callname], m4_default([$3],$1)) dnl This is default, $3 will redefine the condition dnl dnl TODO: remove this junk, AM_CONDITIONAL should not be used for any HAVE_* dnl variables, all we need is BUILD_* only. dnl AM_CONDITIONAL([HAVE_]m4_toupper(callname), [false]) if test "x$[build_]suffix" != xno; then if test "x$[enable_]suffix" = xno; then [build_]suffix=no else $2 case $[enable_]suffix:$[ul_cv_syscall_]callname in #( no:*) [build_]suffix=no ;; yes:no) AC_MSG_ERROR([$1 selected but callname syscall not found]) ;; check:no) AC_MSG_WARN([callname syscall not found; do not build $1]) [build_]suffix=no ;; *) dnl default $ul_cv_syscall_ is SYS_ value [build_]suffix=yes ;; esac fi fi ]) dnl UL_INIT_BUILD(NAME, [ENABLE_STATE], [VARSUFFIX = $1]) dnl dnl Initializes $build_ variable according to $enable_. If dnl $enable_ is undefined then ENABLE_STATE is used and $enable_ is dnl set to ENABLE_STATE. dnl dnl The default for $build_ and $enable_ could be overwrited by option $2. dnl AC_DEFUN([UL_BUILD_INIT], [ m4_define([suffix], m4_default([$3],$1)) m4_define([estate], m4_default([$2],$enable_[]suffix)) ifelse(estate, [check], [build_[]suffix='yes' enable_[]suffix='check'], estate, [yes], [build_[]suffix='yes' enable_[]suffix='yes'], estate, [no], [build_[]suffix='no' enable_[]suffix='no'], [build_[]suffix=$enable_[]suffix]) ])