1
0
mirror of https://github.com/vlang/v.git synced 2023-08-10 21:13:21 +03:00
v/thirdparty/libatomic_ops/atomic_ops/sysdeps/gcc/aarch64.h

283 lines
9.0 KiB
C
Raw Permalink Normal View History

/*
* Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved.
* Copyright (c) 1996-1999 by Silicon Graphics. All rights reserved.
* Copyright (c) 1999-2003 by Hewlett-Packard Company. All rights reserved.
* Copyright (c) 2013-2017 Ivan Maidanski
*
* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
*
* Permission is hereby granted to use or copy this program
* for any purpose, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*
*/
/* As of clang-5.0 (and gcc-5.4), __atomic_thread_fence is always */
/* translated to DMB (which is inefficient for AO_nop_write). */
/* TODO: Update it for newer Clang and GCC releases. */
#if !defined(AO_PREFER_BUILTIN_ATOMICS) && !defined(AO_THREAD_SANITIZER) \
&& !defined(AO_UNIPROCESSOR)
AO_INLINE void
AO_nop_write(void)
{
__asm__ __volatile__("dmb ishst" : : : "memory");
}
# define AO_HAVE_nop_write
#endif
/* There were some bugs in the older clang releases (related to */
/* optimization of functions dealing with __int128 values, supposedly), */
/* so even asm-based implementation did not work correctly. */
#if !defined(__clang__) || AO_CLANG_PREREQ(3, 9)
# include "../standard_ao_double_t.h"
/* As of gcc-5.4, all built-in load/store and CAS atomics for double */
/* word require -latomic, are not lock-free and cause test_stack */
/* failure, so the asm-based implementation is used for now. */
/* TODO: Update it for newer GCC releases. */
#if (!defined(__ILP32__) && !defined(__clang__)) \
|| defined(AO_AARCH64_ASM_LOAD_STORE_CAS)
# ifndef AO_PREFER_GENERALIZED
AO_INLINE AO_double_t
AO_double_load(const volatile AO_double_t *addr)
{
AO_double_t result;
int status;
/* Note that STXP cannot be discarded because LD[A]XP is not */
/* single-copy atomic (unlike LDREXD for 32-bit ARM). */
do {
__asm__ __volatile__("//AO_double_load\n"
# ifdef __ILP32__
" ldxp %w0, %w1, %3\n"
" stxp %w2, %w0, %w1, %3"
# else
" ldxp %0, %1, %3\n"
" stxp %w2, %0, %1, %3"
# endif
: "=&r" (result.AO_val1), "=&r" (result.AO_val2), "=&r" (status)
: "Q" (*addr));
} while (AO_EXPECT_FALSE(status));
return result;
}
# define AO_HAVE_double_load
AO_INLINE AO_double_t
AO_double_load_acquire(const volatile AO_double_t *addr)
{
AO_double_t result;
int status;
do {
__asm__ __volatile__("//AO_double_load_acquire\n"
# ifdef __ILP32__
" ldaxp %w0, %w1, %3\n"
" stxp %w2, %w0, %w1, %3"
# else
" ldaxp %0, %1, %3\n"
" stxp %w2, %0, %1, %3"
# endif
: "=&r" (result.AO_val1), "=&r" (result.AO_val2), "=&r" (status)
: "Q" (*addr));
} while (AO_EXPECT_FALSE(status));
return result;
}
# define AO_HAVE_double_load_acquire
AO_INLINE void
AO_double_store(volatile AO_double_t *addr, AO_double_t value)
{
AO_double_t old_val;
int status;
do {
__asm__ __volatile__("//AO_double_store\n"
# ifdef __ILP32__
" ldxp %w0, %w1, %3\n"
" stxp %w2, %w4, %w5, %3"
# else
" ldxp %0, %1, %3\n"
" stxp %w2, %4, %5, %3"
# endif
: "=&r" (old_val.AO_val1), "=&r" (old_val.AO_val2), "=&r" (status),
"=Q" (*addr)
: "r" (value.AO_val1), "r" (value.AO_val2));
/* Compared to the arm.h implementation, the 'cc' (flags) are */
/* not clobbered because A64 has no concept of conditional */
/* execution. */
} while (AO_EXPECT_FALSE(status));
}
# define AO_HAVE_double_store
AO_INLINE void
AO_double_store_release(volatile AO_double_t *addr, AO_double_t value)
{
AO_double_t old_val;
int status;
do {
__asm__ __volatile__("//AO_double_store_release\n"
# ifdef __ILP32__
" ldxp %w0, %w1, %3\n"
" stlxp %w2, %w4, %w5, %3"
# else
" ldxp %0, %1, %3\n"
" stlxp %w2, %4, %5, %3"
# endif
: "=&r" (old_val.AO_val1), "=&r" (old_val.AO_val2), "=&r" (status),
"=Q" (*addr)
: "r" (value.AO_val1), "r" (value.AO_val2));
} while (AO_EXPECT_FALSE(status));
}
# define AO_HAVE_double_store_release
# endif /* !AO_PREFER_GENERALIZED */
AO_INLINE int
AO_double_compare_and_swap(volatile AO_double_t *addr,
AO_double_t old_val, AO_double_t new_val)
{
AO_double_t tmp;
int result = 1;
do {
__asm__ __volatile__("//AO_double_compare_and_swap\n"
# ifdef __ILP32__
" ldxp %w0, %w1, %2\n"
# else
" ldxp %0, %1, %2\n"
# endif
: "=&r" (tmp.AO_val1), "=&r" (tmp.AO_val2)
: "Q" (*addr));
if (tmp.AO_val1 != old_val.AO_val1 || tmp.AO_val2 != old_val.AO_val2)
break;
__asm__ __volatile__(
# ifdef __ILP32__
" stxp %w0, %w2, %w3, %1\n"
# else
" stxp %w0, %2, %3, %1\n"
# endif
: "=&r" (result), "=Q" (*addr)
: "r" (new_val.AO_val1), "r" (new_val.AO_val2));
} while (AO_EXPECT_FALSE(result));
return !result;
}
# define AO_HAVE_double_compare_and_swap
AO_INLINE int
AO_double_compare_and_swap_acquire(volatile AO_double_t *addr,
AO_double_t old_val, AO_double_t new_val)
{
AO_double_t tmp;
int result = 1;
do {
__asm__ __volatile__("//AO_double_compare_and_swap_acquire\n"
# ifdef __ILP32__
" ldaxp %w0, %w1, %2\n"
# else
" ldaxp %0, %1, %2\n"
# endif
: "=&r" (tmp.AO_val1), "=&r" (tmp.AO_val2)
: "Q" (*addr));
if (tmp.AO_val1 != old_val.AO_val1 || tmp.AO_val2 != old_val.AO_val2)
break;
__asm__ __volatile__(
# ifdef __ILP32__
" stxp %w0, %w2, %w3, %1\n"
# else
" stxp %w0, %2, %3, %1\n"
# endif
: "=&r" (result), "=Q" (*addr)
: "r" (new_val.AO_val1), "r" (new_val.AO_val2));
} while (AO_EXPECT_FALSE(result));
return !result;
}
# define AO_HAVE_double_compare_and_swap_acquire
AO_INLINE int
AO_double_compare_and_swap_release(volatile AO_double_t *addr,
AO_double_t old_val, AO_double_t new_val)
{
AO_double_t tmp;
int result = 1;
do {
__asm__ __volatile__("//AO_double_compare_and_swap_release\n"
# ifdef __ILP32__
" ldxp %w0, %w1, %2\n"
# else
" ldxp %0, %1, %2\n"
# endif
: "=&r" (tmp.AO_val1), "=&r" (tmp.AO_val2)
: "Q" (*addr));
if (tmp.AO_val1 != old_val.AO_val1 || tmp.AO_val2 != old_val.AO_val2)
break;
__asm__ __volatile__(
# ifdef __ILP32__
" stlxp %w0, %w2, %w3, %1\n"
# else
" stlxp %w0, %2, %3, %1\n"
# endif
: "=&r" (result), "=Q" (*addr)
: "r" (new_val.AO_val1), "r" (new_val.AO_val2));
} while (AO_EXPECT_FALSE(result));
return !result;
}
# define AO_HAVE_double_compare_and_swap_release
AO_INLINE int
AO_double_compare_and_swap_full(volatile AO_double_t *addr,
AO_double_t old_val, AO_double_t new_val)
{
AO_double_t tmp;
int result = 1;
do {
__asm__ __volatile__("//AO_double_compare_and_swap_full\n"
# ifdef __ILP32__
" ldaxp %w0, %w1, %2\n"
# else
" ldaxp %0, %1, %2\n"
# endif
: "=&r" (tmp.AO_val1), "=&r" (tmp.AO_val2)
: "Q" (*addr));
if (tmp.AO_val1 != old_val.AO_val1 || tmp.AO_val2 != old_val.AO_val2)
break;
__asm__ __volatile__(
# ifdef __ILP32__
" stlxp %w0, %w2, %w3, %1\n"
# else
" stlxp %w0, %2, %3, %1\n"
# endif
: "=&r" (result), "=Q" (*addr)
: "r" (new_val.AO_val1), "r" (new_val.AO_val2));
} while (AO_EXPECT_FALSE(result));
return !result;
}
# define AO_HAVE_double_compare_and_swap_full
#endif /* !__ILP32__ && !__clang__ || AO_AARCH64_ASM_LOAD_STORE_CAS */
/* As of clang-5.0 and gcc-8.1, __GCC_HAVE_SYNC_COMPARE_AND_SWAP_16 */
/* macro is still missing (while the double-word CAS is available). */
# ifndef __ILP32__
# define AO_GCC_HAVE_double_SYNC_CAS
# endif
#endif /* !__clang__ || AO_CLANG_PREREQ(3, 9) */
#if (defined(__clang__) && !AO_CLANG_PREREQ(3, 8)) || defined(__APPLE_CC__)
/* __GCC_HAVE_SYNC_COMPARE_AND_SWAP_n macros are missing. */
# define AO_GCC_FORCE_HAVE_CAS
#endif
#include "generic.h"
#undef AO_GCC_FORCE_HAVE_CAS
#undef AO_GCC_HAVE_double_SYNC_CAS