# # Contains macros to detect CPU features. # # DRUNTIME_CPU_SOURCES # ------------------- # Detect target CPU and add DRUNTIME_CPU_XXX conditionals. AC_DEFUN([DRUNTIME_CPU_SOURCES], [ druntime_target_cpu_parsed="" case "$target_cpu" in aarch64*) druntime_target_cpu_parsed="aarch64" ;; arm*) druntime_target_cpu_parsed="arm" ;; loongarch*) druntime_target_cpu_parsed="loongarch" ;; mips*) druntime_target_cpu_parsed="mips" ;; powerpc*) druntime_target_cpu_parsed="powerpc" ;; i[[34567]]86|x86_64) druntime_target_cpu_parsed="x86" ;; s390x) druntime_target_cpu_parsed="s390x" ;; s390) druntime_target_cpu_parsed="s390" ;; esac AM_CONDITIONAL([DRUNTIME_CPU_AARCH64], [test "$druntime_target_cpu_parsed" = "aarch64"]) AM_CONDITIONAL([DRUNTIME_CPU_ARM], [test "$druntime_target_cpu_parsed" = "arm"]) AM_CONDITIONAL([DRUNTIME_CPU_LOONGARCH], [test "$druntime_target_cpu_parsed" = "loongarch"]) AM_CONDITIONAL([DRUNTIME_CPU_MIPS], [test "$druntime_target_cpu_parsed" = "mips"]) AM_CONDITIONAL([DRUNTIME_CPU_POWERPC], [test "$druntime_target_cpu_parsed" = "powerpc"]) AM_CONDITIONAL([DRUNTIME_CPU_X86], [test "$druntime_target_cpu_parsed" = "x86"]) AM_CONDITIONAL([DRUNTIME_CPU_SYSTEMZ], [test "$druntime_target_cpu_parsed" = "s390x"]) AM_CONDITIONAL([DRUNTIME_CPU_S390], [test "$druntime_target_cpu_parsed" = "s390"]) ]) # DRUNTIME_ENABLE_ATOMIC_BUILTINS # ------------------------- # Check support for atomic builtins up to 64 bit. AC_DEFUN([DRUNTIME_ENABLE_ATOMIC_BUILTINS], [ # This checks to see if the host supports the compiler-generated builtins # for atomic operations for various integral sizes. Note, this is intended # to be an all-or-nothing switch, so all the atomic operations that are # used should be checked. AC_MSG_CHECKING([for atomic builtins for byte]) AC_CACHE_VAL(druntime_cv_atomic_byte, [ AC_TRY_LINK( [import gcc.builtins;], [ shared(byte) c1; byte c2, c3; __atomic_compare_exchange_1(&c1, &c2, c3, false, 5, 5); __atomic_load_1(&c1, 5); __atomic_store_1(&c1, c2, 5); return 0; ], [druntime_cv_atomic_byte=yes], [druntime_cv_atomic_byte=no]) ]) AC_MSG_RESULT($druntime_cv_atomic_byte) AC_MSG_CHECKING([for atomic builtins for short]) AC_CACHE_VAL(druntime_cv_atomic_short, [ AC_TRY_LINK( [import gcc.builtins;], [ shared(short) c1; short c2, c3; __atomic_compare_exchange_2(&c1, &c2, c3, false, 5, 5); __atomic_load_2(&c1, 5); __atomic_store_2(&c1, c2, 5); return 0; ], [druntime_cv_atomic_short=yes], [druntime_cv_atomic_short=no]) ]) AC_MSG_RESULT($druntime_cv_atomic_short) AC_MSG_CHECKING([for atomic builtins for int]) AC_CACHE_VAL(druntime_cv_atomic_int, [ AC_TRY_LINK( [import gcc.builtins;], [ shared(int) c1; int c2, c3; __atomic_compare_exchange_4(&c1, &c2, c3, false, 5, 5); __atomic_load_4(&c1, 5); __atomic_store_4(&c1, c2, 5); return 0; ], [druntime_cv_atomic_int=yes], [druntime_cv_atomic_int=no]) ]) AC_MSG_RESULT($druntime_cv_atomic_int) AC_MSG_CHECKING([for atomic builtins for long]) AC_CACHE_VAL(druntime_cv_atomic_long, [ AC_TRY_LINK( [import gcc.builtins;], [ shared(long) c1; long c2, c3; __atomic_compare_exchange_8(&c1, &c2, c3, false, 5, 5); __atomic_load_8(&c1, 5); __atomic_store_8(&c1, c2, 5); return 0; ], [druntime_cv_atomic_long=yes], [druntime_cv_atomic_long=no]) ]) AC_MSG_RESULT($druntime_cv_atomic_long) # Have atomic builtin support if all but the long test above passes. DCFG_HAVE_ATOMIC_BUILTINS=false if test "$druntime_cv_atomic_byte" = yes \ && test "$druntime_cv_atomic_short" = yes \ && test "$druntime_cv_atomic_int" = yes; then \ DCFG_HAVE_ATOMIC_BUILTINS=true fi # Have 64-bit atomic support if the long test above passes. DCFG_HAVE_64BIT_ATOMICS=false if test "$druntime_cv_atomic_long" = yes; then DCFG_HAVE_64BIT_ATOMICS=true fi AC_SUBST(DCFG_HAVE_ATOMIC_BUILTINS) AC_SUBST(DCFG_HAVE_64BIT_ATOMICS) ])