# =========================================================================== # http://www.gnu.org/software/autoconf-archive/ax_gcc_var_attribute.html # =========================================================================== # # SYNOPSIS # # AX_GCC_VAR_ATTRIBUTE(ATTRIBUTE) # # DESCRIPTION # # This macro checks if the compiler supports one of GCC's variable # attributes; many other compilers also provide variable attributes with # the same syntax. Compiler warnings are used to detect supported # attributes as unsupported ones are ignored by default so quieting # warnings when using this macro will yield false positives. # # The ATTRIBUTE parameter holds the name of the attribute to be checked. # # If ATTRIBUTE is supported define HAVE_VAR_ATTRIBUTE_. # # The macro caches its result in the ax_cv_have_var_attribute_ # variable. # # The macro currently supports the following variable attributes: # # aligned # cleanup # common # nocommon # deprecated # mode # packed # tls_model # unused # used # vector_size # weak # dllimport # dllexport # init_priority # # Unsuppored variable attributes will be tested against a global integer # variable and without any arguments given to the attribute itself; the # result of this check might be wrong or meaningless so use with care. # # LICENSE # # Copyright (c) 2013 Gabriele Svelto # # Copying and distribution of this file, with or without modification, are # permitted in any medium without royalty provided the copyright notice # and this notice are preserved. This file is offered as-is, without any # warranty. #serial 2 AC_DEFUN([AX_GCC_VAR_ATTRIBUTE], [ AS_VAR_PUSHDEF([ac_var], [ax_cv_have_var_attribute_$1]) AC_CACHE_CHECK([for __attribute__(($1))], [ac_var], [ AC_LINK_IFELSE([AC_LANG_PROGRAM([ m4_case([$1], [aligned], [ int foo __attribute__(($1(32))); ], [cleanup], [ int bar(int *t) { return *t; }; ], [common], [ int foo __attribute__(($1)); ], [nocommon], [ int foo __attribute__(($1)); ], [deprecated], [ int foo __attribute__(($1)) = 0; ], [mode], [ long foo __attribute__(($1(word))); ], [packed], [ struct bar { int baz __attribute__(($1)); }; ], [tls_model], [ __thread int bar1 __attribute__(($1("global-dynamic"))); __thread int bar2 __attribute__(($1("local-dynamic"))); __thread int bar3 __attribute__(($1("initial-exec"))); __thread int bar4 __attribute__(($1("local-exec"))); ], [unused], [ int foo __attribute__(($1)); ], [used], [ int foo __attribute__(($1)); ], [vector_size], [ int foo __attribute__(($1(16))); ], [weak], [ int foo __attribute__(($1)); ], [dllimport], [ int foo __attribute__(($1)); ], [dllexport], [ int foo __attribute__(($1)); ], [init_priority], [ #include struct bar { bar() {} ~bar() {} }; bar b __attribute__(($1(65535/2))); static std::string name __attribute__(($1(65535/2))) ("test"); ], [ m4_warn([syntax], [Unsupported attribute $1, the test may fail]) int foo __attribute__(($1)); ] )], [ m4_case([$1], [cleanup], [ int foo __attribute__(($1(bar))) = 0; foo = foo + 1; ], [] )]) ], dnl GCC doesn't exit with an error if an unknown attribute is dnl provided but only outputs a warning, so accept the attribute dnl only if no warning were issued. [AS_IF([test -s conftest.err], [AS_VAR_SET([ac_var], [no])], [AS_VAR_SET([ac_var], [yes])])], [AS_VAR_SET([ac_var], [no])]) ]) AS_IF([test yes = AS_VAR_GET([ac_var])], [AC_DEFINE_UNQUOTED(AS_TR_CPP(HAVE_VAR_ATTRIBUTE_$1), 1, [Define to 1 if the system has the `$1' variable attribute])], []) AS_VAR_POPDEF([ac_var]) ])