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package libc
// 7.17 Atomics
import "base:intrinsics"
ATOMIC_BOOL_LOCK_FREE :: true
ATOMIC_CHAR_LOCK_FREE :: true
ATOMIC_CHAR16_T_LOCK_FREE :: true
ATOMIC_CHAR32_T_LOCK_FREE :: true
ATOMIC_WCHAR_T_LOCK_FREE :: true
ATOMIC_SHORT_LOCK_FREE :: true
ATOMIC_INT_LOCK_FREE :: true
ATOMIC_LONG_LOCK_FREE :: true
ATOMIC_LLONG_LOCK_FREE :: true
ATOMIC_POINTER_LOCK_FREE :: true
// 7.17.3 Order and consistency
memory_order :: enum int {
relaxed,
consume,
acquire,
release,
acq_rel,
seq_cst,
}
memory_order_relaxed :: memory_order.relaxed
memory_order_consume :: memory_order.consume
memory_order_acquire :: memory_order.acquire
memory_order_release :: memory_order.release
memory_order_acq_rel :: memory_order.acq_rel
memory_order_seq_cst :: memory_order.seq_cst
// 7.17.2 Initialization
ATOMIC_VAR_INIT :: #force_inline proc(value: $T) -> T {
return value
}
atomic_init :: #force_inline proc(obj: ^$T, value: T) {
intrinsics.atomic_store(obj, value)
}
kill_dependency :: #force_inline proc(value: $T) -> T {
return value
}
// 7.17.4 Fences
atomic_thread_fence :: #force_inline proc(order: memory_order) {
assert(order != .relaxed)
assert(order != .consume)
#partial switch order {
case .acquire: intrinsics.atomic_thread_fence(.Acquire)
case .release: intrinsics.atomic_thread_fence(.Release)
case .acq_rel: intrinsics.atomic_thread_fence(.Acq_Rel)
case .seq_cst: intrinsics.atomic_thread_fence(.Seq_Cst)
}
}
atomic_signal_fence :: #force_inline proc(order: memory_order) {
assert(order != .relaxed)
assert(order != .consume)
#partial switch order {
case .acquire: intrinsics.atomic_signal_fence(.Acquire)
case .release: intrinsics.atomic_signal_fence(.Release)
case .acq_rel: intrinsics.atomic_signal_fence(.Acq_Rel)
case .seq_cst: intrinsics.atomic_signal_fence(.Seq_Cst)
}
}
// 7.17.5 Lock-free property
atomic_is_lock_free :: #force_inline proc(obj: ^$T) -> bool {
return intrinsics.atomic_type_is_lock_free(T)
}
// 7.17.6 Atomic integer types
atomic_bool :: distinct bool
atomic_char :: distinct char
atomic_schar :: distinct char
atomic_uchar :: distinct uchar
atomic_short :: distinct short
atomic_ushort :: distinct ushort
atomic_int :: distinct int
atomic_uint :: distinct uint
atomic_long :: distinct long
atomic_ulong :: distinct ulong
atomic_llong :: distinct longlong
atomic_ullong :: distinct ulonglong
atomic_char16_t :: distinct char16_t
atomic_char32_t :: distinct char32_t
atomic_wchar_t :: distinct wchar_t
atomic_int_least8_t :: distinct int_least8_t
atomic_uint_least8_t :: distinct uint_least8_t
atomic_int_least16_t :: distinct int_least16_t
atomic_uint_least16_t :: distinct uint_least16_t
atomic_int_least32_t :: distinct int_least32_t
atomic_uint_least32_t :: distinct uint_least32_t
atomic_int_least64_t :: distinct int_least64_t
atomic_uint_least64_t :: distinct uint_least64_t
atomic_int_fast8_t :: distinct int_fast8_t
atomic_uint_fast8_t :: distinct uint_fast8_t
atomic_int_fast16_t :: distinct int_fast16_t
atomic_uint_fast16_t :: distinct uint_fast16_t
atomic_int_fast32_t :: distinct int_fast32_t
atomic_uint_fast32_t :: distinct uint_fast32_t
atomic_int_fast64_t :: distinct int_fast64_t
atomic_uint_fast64_t :: distinct uint_fast64_t
atomic_intptr_t :: distinct intptr_t
atomic_uintptr_t :: distinct uintptr_t
atomic_size_t :: distinct size_t
atomic_ptrdiff_t :: distinct ptrdiff_t
atomic_intmax_t :: distinct intmax_t
atomic_uintmax_t :: distinct uintmax_t
// 7.17.7 Operations on atomic types
atomic_store :: #force_inline proc(object: ^$T, desired: T) {
intrinsics.atomic_store(object, desired)
}
atomic_store_explicit :: #force_inline proc(object: ^$T, desired: T, order: memory_order) {
assert(order != .consume)
assert(order != .acquire)
assert(order != .acq_rel)
#partial switch order {
case .relaxed: intrinsics.atomic_store_explicit(object, desired, .Relaxed)
case .release: intrinsics.atomic_store_explicit(object, desired, .Release)
case .seq_cst: intrinsics.atomic_store_explicit(object, desired, .Seq_Cst)
}
}
atomic_load :: #force_inline proc(object: ^$T) -> T {
return intrinsics.atomic_load(object)
}
atomic_load_explicit :: #force_inline proc(object: ^$T, order: memory_order) {
assert(order != .release)
assert(order != .acq_rel)
#partial switch order {
case .relaxed: return intrinsics.atomic_load_explicit(object, .Relaxed)
case .consume: return intrinsics.atomic_load_explicit(object, .Consume)
case .acquire: return intrinsics.atomic_load_explicit(object, .Acquire)
case .seq_cst: return intrinsics.atomic_load_explicit(object, .Seq_Cst)
}
}
atomic_exchange :: #force_inline proc(object: ^$T, desired: T) -> T {
return intrinsics.atomic_exchange(object, desired)
}
atomic_exchange_explicit :: #force_inline proc(object: ^$T, desired: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_exchange_explicit(object, desired, .Relaxed)
case .consume: return intrinsics.atomic_exchange_explicit(object, desired, .Consume)
case .acquire: return intrinsics.atomic_exchange_explicit(object, desired, .Acquire)
case .release: return intrinsics.atomic_exchange_explicit(object, desired, .Release)
case .acq_rel: return intrinsics.atomic_exchange_explicit(object, desired, .Acq_Rel)
case .seq_cst: return intrinsics.atomic_exchange_explicit(object, desired, .Seq_Cst)
}
return false
}
// C does not allow failure memory order to be order_release or acq_rel.
// Similarly, it does not allow the failure order to be stronger than success
// order. Since consume and acquire are both monotonic, we can count them as
// one, for a total of three memory orders that are relevant in compare exchange.
// relaxed, acquire (consume), seq_cst.
// The requirement that the failure order cannot be stronger than success limits
// the valid combinations for the failure order to this table:
// [success = seq_cst, failure = seq_cst] => _
// [success = acquire, failure = seq_cst] => acq
// [success = release, failure = seq_cst] => rel
// [success = acq_rel, failure = seq_cst] => acqrel
// [success = relaxed, failure = relaxed] => relaxed
// [success = seq_cst, failure = relaxed] => failrelaxed
// [success = seq_cst, failure = acquire] => failacq
// [success = acquire, failure = relaxed] => acq_failrelaxed
// [success = acq_rel, failure = relaxed] => acqrel_failrelaxed
atomic_compare_exchange_strong :: #force_inline proc(object, expected: ^$T, desired: T) -> bool {
value, ok := intrinsics.atomic_compare_exchange_strong(object, expected^, desired)
if !ok { expected^ = value }
return ok
}
atomic_compare_exchange_strong_explicit :: #force_inline proc(object, expected: ^$T, desired: T, success, failure: memory_order) -> bool {
assert(failure != .release)
assert(failure != .acq_rel)
value: T; ok: bool
#partial switch failure {
case .seq_cst:
assert(success != .relaxed)
#partial switch success {
case .seq_cst:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Seq_Cst, .Seq_Cst)
case .acquire:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Acquire, .Seq_Cst)
case .consume:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Consume, .Seq_Cst)
case .release:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Release, .Seq_Cst)
case .acq_rel:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Acq_Rel, .Seq_Cst)
}
case .relaxed:
assert(success != .release)
#partial switch success {
case .relaxed:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Relaxed, .Relaxed)
case .seq_cst:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Seq_Cst, .Relaxed)
case .acquire:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Acquire, .Relaxed)
case .consume:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Consume, .Relaxed)
case .acq_rel:
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Acq_Rel, .Relaxed)
}
case .consume:
assert(success == .seq_cst)
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Seq_Cst, .Consume)
case .acquire:
assert(success == .seq_cst)
value, ok = intrinsics.atomic_compare_exchange_strong_explicit(object, expected^, desired, .Seq_Cst, .Acquire)
}
if !ok { expected^ = value }
return ok
}
atomic_compare_exchange_weak :: #force_inline proc(object, expected: ^$T, desired: T) -> bool {
value, ok := intrinsics.atomic_compare_exchange_weak(object, expected^, desired)
if !ok { expected^ = value }
return ok
}
atomic_compare_exchange_weak_explicit :: #force_inline proc(object, expected: ^$T, desired: T, success, failure: memory_order) -> bool {
assert(failure != .release)
assert(failure != .acq_rel)
value: T; ok: bool
#partial switch failure {
case .seq_cst:
assert(success != .relaxed)
#partial switch success {
case .seq_cst:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Seq_Cst, .Seq_Cst)
case .acquire:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Acquire, .Seq_Cst)
case .consume:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Consume, .Seq_Cst)
case .release:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Release, .Seq_Cst)
case .acq_rel:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Acq_Rel, .Seq_Cst)
}
case .relaxed:
assert(success != .release)
#partial switch success {
case .relaxed:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Relaxed, .Relaxed)
case .seq_cst:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Seq_Cst, .Relaxed)
case .acquire:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Acquire, .Relaxed)
case .consume:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Consume, .Relaxed)
case .acq_rel:
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Acq_Rel, .Relaxed)
}
case .consume:
assert(success == .seq_cst)
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Seq_Cst, .Consume)
case .acquire:
assert(success == .seq_cst)
value, ok = intrinsics.atomic_compare_exchange_weak_explicit(object, expected^, desired, .Seq_Cst, .Acquire)
}
if !ok { expected^ = value }
return ok
}
// 7.17.7.5 The atomic_fetch and modify generic functions
atomic_fetch_add :: #force_inline proc(object: ^$T, operand: T) -> T {
return intrinsics.atomic_add(object, operand)
}
atomic_fetch_add_explicit :: #force_inline proc(object: ^$T, operand: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_add_explicit(object, operand, .Relaxed)
case .consume: return intrinsics.atomic_add_explicit(object, operand, .Consume)
case .acquire: return intrinsics.atomic_add_explicit(object, operand, .Acquire)
case .release: return intrinsics.atomic_add_explicit(object, operand, .Release)
case .acq_rel: return intrinsics.atomic_add_explicit(object, operand, .Acq_Rel)
case: fallthrough
case .seq_cst: return intrinsics.atomic_add_explicit(object, operand, .Seq_Cst)
}
}
atomic_fetch_sub :: #force_inline proc(object: ^$T, operand: T) -> T {
return intrinsics.atomic_sub(object, operand)
}
atomic_fetch_sub_explicit :: #force_inline proc(object: ^$T, operand: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_sub_explicit(object, operand, .Relaxed)
case .consume: return intrinsics.atomic_sub_explicit(object, operand, .Consume)
case .acquire: return intrinsics.atomic_sub_explicit(object, operand, .Acquire)
case .release: return intrinsics.atomic_sub_explicit(object, operand, .Release)
case .acq_rel: return intrinsics.atomic_sub_explicit(object, operand, .Acq_Rel)
case: fallthrough
case .seq_cst: return intrinsics.atomic_sub_explicit(object, operand, .Seq_Cst)
}
}
atomic_fetch_or :: #force_inline proc(object: ^$T, operand: T) -> T {
return intrinsics.atomic_or(object, operand)
}
atomic_fetch_or_explicit :: #force_inline proc(object: ^$T, operand: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_or_explicit(object, operand, .Relaxed)
case .consume: return intrinsics.atomic_or_explicit(object, operand, .Consume)
case .acquire: return intrinsics.atomic_or_explicit(object, operand, .Acquire)
case .release: return intrinsics.atomic_or_explicit(object, operand, .Release)
case .acq_rel: return intrinsics.atomic_or_explicit(object, operand, .Acq_Rel)
case: fallthrough
case .seq_cst: return intrinsics.atomic_or_explicit(object, operand, .Seq_Cst)
}
}
atomic_fetch_xor :: #force_inline proc(object: ^$T, operand: T) -> T {
return intrinsics.atomic_xor(object, operand)
}
atomic_fetch_xor_explicit :: #force_inline proc(object: ^$T, operand: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_xor_explicit(object, operand, .Relaxed)
case .consume: return intrinsics.atomic_xor_explicit(object, operand, .Consume)
case .acquire: return intrinsics.atomic_xor_explicit(object, operand, .Acquire)
case .release: return intrinsics.atomic_xor_explicit(object, operand, .Release)
case .acq_rel: return intrinsics.atomic_xor_explicit(object, operand, .Acq_Rel)
case: fallthrough
case .seq_cst: return intrinsics.atomic_xor_explicit(object, operand, .Seq_Cst)
}
}
atomic_fetch_and :: #force_inline proc(object: ^$T, operand: T) -> T {
return intrinsics.atomic_and(object, operand)
}
atomic_fetch_and_explicit :: #force_inline proc(object: ^$T, operand: T, order: memory_order) -> T {
switch order {
case .relaxed: return intrinsics.atomic_and_explicit(object, operand, .Relaxed)
case .consume: return intrinsics.atomic_and_explicit(object, operand, .Consume)
case .acquire: return intrinsics.atomic_and_explicit(object, operand, .Acquire)
case .release: return intrinsics.atomic_and_explicit(object, operand, .Release)
case .acq_rel: return intrinsics.atomic_and_explicit(object, operand, .Acq_Rel)
case: fallthrough
case .seq_cst: return intrinsics.atomic_and_explicit(object, operand, .Seq_Cst)
}
}
// 7.17.8 Atomic flag type and operations
atomic_flag :: distinct atomic_bool
atomic_flag_test_and_set :: #force_inline proc(flag: ^atomic_flag) -> bool {
return bool(atomic_exchange(flag, atomic_flag(true)))
}
atomic_flag_test_and_set_explicit :: #force_inline proc(flag: ^atomic_flag, order: memory_order) -> bool {
return bool(atomic_exchange_explicit(flag, atomic_flag(true), order))
}
atomic_flag_clear :: #force_inline proc(flag: ^atomic_flag) {
atomic_store(flag, atomic_flag(false))
}
atomic_flag_clear_explicit :: #force_inline proc(flag: ^atomic_flag, order: memory_order) {
atomic_store_explicit(flag, atomic_flag(false), order)
}
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