/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #define ALLOW_FORBID_FUNC #include "os.h" #ifdef WINDOWS // add int8_t interlocked_add_fetch_8(int8_t volatile* ptr, int8_t val) { return _InterlockedExchangeAdd8(ptr, val) + val; } int16_t interlocked_add_fetch_16(int16_t volatile* ptr, int16_t val) { return _InterlockedExchangeAdd16(ptr, val) + val; } int32_t interlocked_add_fetch_32(int32_t volatile* ptr, int32_t val) { return _InterlockedExchangeAdd(ptr, val) + val; } int64_t interlocked_add_fetch_64(int64_t volatile* ptr, int64_t val) { return InterlockedExchangeAdd64(ptr, val) + val; } void* interlocked_add_fetch_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)(_InterlockedExchangeAdd((int32_t volatile*)(ptr), (int32_t)val) + (int32_t)val); #else return (void*)(InterlockedExchangeAdd64((int64_t volatile*)(ptr), (int64_t)val) + (int64_t)val); #endif } int8_t interlocked_and_fetch_8(int8_t volatile* ptr, int8_t val) { return _InterlockedAnd8(ptr, val) & val; } int16_t interlocked_and_fetch_16(int16_t volatile* ptr, int16_t val) { return _InterlockedAnd16(ptr, val) & val; } int32_t interlocked_and_fetch_32(int32_t volatile* ptr, int32_t val) { return _InterlockedAnd(ptr, val) & val; } int64_t interlocked_and_fetch_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old, res; do { old = *ptr; res = old & val; } while (_InterlockedCompareExchange64(ptr, res, old) != old); return res; #else return _InterlockedAnd64(ptr, val) & val; #endif } void* interlocked_and_fetch_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)interlocked_and_fetch_32((int32_t volatile*)ptr, (int32_t)val); #else return (void*)interlocked_and_fetch_64((int64_t volatile*)ptr, (int64_t)val); #endif } int64_t interlocked_fetch_and_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old; do { old = *ptr; } while (_InterlockedCompareExchange64(ptr, old & val, old) != old); return old; #else return _InterlockedAnd64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } void* interlocked_fetch_and_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)_InterlockedAnd((int32_t volatile*)(ptr), (int32_t)(val)); #else return (void*)_InterlockedAnd64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } int8_t interlocked_or_fetch_8(int8_t volatile* ptr, int8_t val) { return _InterlockedOr8(ptr, val) | val; } int16_t interlocked_or_fetch_16(int16_t volatile* ptr, int16_t val) { return _InterlockedOr16(ptr, val) | val; } int32_t interlocked_or_fetch_32(int32_t volatile* ptr, int32_t val) { return _InterlockedOr(ptr, val) | val; } int64_t interlocked_or_fetch_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old, res; do { old = *ptr; res = old | val; } while(_InterlockedCompareExchange64(ptr, res, old) != old); return res; #else return _InterlockedOr64(ptr, val) & val; #endif } void* interlocked_or_fetch_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)interlocked_or_fetch_32((int32_t volatile*)ptr, (int32_t)val); #else return (void*)interlocked_or_fetch_64((int64_t volatile*)ptr, (int64_t)val); #endif } int64_t interlocked_fetch_or_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old; do { old = *ptr; } while(_InterlockedCompareExchange64(ptr, old | val, old) != old); return old; #else return _InterlockedOr64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } void* interlocked_fetch_or_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)_InterlockedOr((int32_t volatile*)(ptr), (int32_t)(val)); #else return (void*)interlocked_fetch_or_64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } int8_t interlocked_xor_fetch_8(int8_t volatile* ptr, int8_t val) { return _InterlockedXor8(ptr, val) ^ val; } int16_t interlocked_xor_fetch_16(int16_t volatile* ptr, int16_t val) { return _InterlockedXor16(ptr, val) ^ val; } int32_t interlocked_xor_fetch_32(int32_t volatile* ptr, int32_t val) { return _InterlockedXor(ptr, val) ^ val; } int64_t interlocked_xor_fetch_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old, res; do { old = *ptr; res = old ^ val; } while(_InterlockedCompareExchange64(ptr, res, old) != old); return res; #else return _InterlockedXor64(ptr, val) ^ val; #endif } void* interlocked_xor_fetch_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)interlocked_xor_fetch_32((int32_t volatile*)(ptr), (int32_t)(val)); #else return (void*)interlocked_xor_fetch_64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } int64_t interlocked_fetch_xor_64(int64_t volatile* ptr, int64_t val) { #ifdef _TD_WINDOWS_32 int64_t old; do { old = *ptr; } while (_InterlockedCompareExchange64(ptr, old ^ val, old) != old); return old; #else return _InterlockedXor64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } void* interlocked_fetch_xor_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)_InterlockedXor((int32_t volatile*)(ptr), (int32_t)(val)); #else return (void*)interlocked_fetch_xor_64((int64_t volatile*)(ptr), (int64_t)(val)); #endif } int32_t interlocked_sub_fetch_32(int32_t volatile* ptr, int32_t val) { return interlocked_add_fetch_32(ptr, -val); } int64_t interlocked_sub_fetch_64(int64_t volatile* ptr, int64_t val) { return interlocked_add_fetch_64(ptr, -val); } void* interlocked_sub_fetch_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)interlocked_sub_fetch_32((int32_t volatile*)ptr, (int32_t)val); #else return (void*)interlocked_add_fetch_64((int64_t volatile*)ptr, (int64_t)val); #endif } int32_t interlocked_fetch_sub_32(int32_t volatile* ptr, int32_t val) { return _InterlockedExchangeAdd(ptr, -val); } int64_t interlocked_fetch_sub_64(int64_t volatile* ptr, int64_t val) { return _InterlockedExchangeAdd64(ptr, -val); } void* interlocked_fetch_sub_ptr(void* volatile* ptr, void* val) { #ifdef _TD_WINDOWS_32 return (void*)interlocked_fetch_sub_32((int32_t volatile*)ptr, (int32_t)val); #else return (void*)interlocked_fetch_sub_64((int64_t volatile*)ptr, (int64_t)val); #endif } #endif #ifdef _TD_NINGSI_60 void* atomic_exchange_ptr_impl(void** ptr, void* val ) { void *old; do { old = *ptr; } while( !__sync_bool_compare_and_swap(ptr, old, val) ); return old; } int8_t atomic_exchange_8_impl(int8_t* ptr, int8_t val ) { int8_t old; do { old = *ptr; } while( !__sync_bool_compare_and_swap(ptr, old, val) ); return old; } int16_t atomic_exchange_16_impl(int16_t* ptr, int16_t val ) { int16_t old; do { old = *ptr; } while( !__sync_bool_compare_and_swap(ptr, old, val) ); return old; } int32_t atomic_exchange_32_impl(int32_t* ptr, int32_t val ) { int32_t old; do { old = *ptr; } while( !__sync_bool_compare_and_swap(ptr, old, val) ); return old; } int64_t atomic_exchange_64_impl(int64_t* ptr, int64_t val ) { int64_t old; do { old = *ptr; } while( !__sync_bool_compare_and_swap(ptr, old, val) ); return old; } #endif int8_t atomic_load_8(int8_t volatile *ptr) { #ifdef WINDOWS return (*(int8_t volatile*)(ptr)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), 0); #else return __atomic_load_n((ptr), __ATOMIC_SEQ_CST); #endif } int16_t atomic_load_16(int16_t volatile *ptr) { #ifdef WINDOWS return (*(int16_t volatile*)(ptr)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), 0); #else return __atomic_load_n((ptr), __ATOMIC_SEQ_CST); #endif } int32_t atomic_load_32(int32_t volatile *ptr) { #ifdef WINDOWS return (*(int32_t volatile*)(ptr)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), 0); #else return __atomic_load_n((ptr), __ATOMIC_SEQ_CST); #endif } int64_t atomic_load_64(int64_t volatile *ptr) { #ifdef WINDOWS return (*(int64_t volatile*)(ptr)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), 0); #else return __atomic_load_n((ptr), __ATOMIC_SEQ_CST); #endif } void* atomic_load_ptr(void *ptr) { #ifdef WINDOWS return (*(void* volatile*)(ptr)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), 0); #else return __atomic_load_n((void**)(ptr), __ATOMIC_SEQ_CST); #endif } void atomic_store_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS ((*(int8_t volatile*)(ptr)) = (int8_t)(val)); #elif defined(_TD_NINGSI_60) (*(ptr)=(val)); #else __atomic_store_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } void atomic_store_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS ((*(int16_t volatile*)(ptr)) = (int16_t)(val)); #elif defined(_TD_NINGSI_60) (*(ptr)=(val)); #else __atomic_store_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } void atomic_store_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS ((*(int32_t volatile*)(ptr)) = (int32_t)(val)); #elif defined(_TD_NINGSI_60) (*(ptr)=(val)); #else __atomic_store_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } void atomic_store_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS ((*(int64_t volatile*)(ptr)) = (int64_t)(val)); #elif defined(_TD_NINGSI_60) (*(ptr)=(val)); #else __atomic_store_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } void atomic_store_ptr(void *ptr, void *val) { #ifdef WINDOWS ((*(void* volatile*)(ptr)) = (void*)(val)); #elif defined(_TD_NINGSI_60) (*(ptr)=(val)); #else __atomic_store_n((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_exchange_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedExchange8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return atomic_exchange_8_impl((int8_t*)ptr, (int8_t)val); #else return __atomic_exchange_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_exchange_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedExchange16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return atomic_exchange_16_impl((int16_t*)ptr, (int16_t)val); #else return __atomic_exchange_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_exchange_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return _InterlockedExchange((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return atomic_exchange_32_impl((int32_t*)ptr, (int32_t)val); #else return __atomic_exchange_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_exchange_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return _InterlockedExchange64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return atomic_exchange_64_impl((int64_t*)ptr, (int64_t)val); #else return __atomic_exchange_n((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_exchange_ptr(void *ptr, void *val) { #ifdef WINDOWS #ifdef _WIN64 return _InterlockedExchangePointer((void* volatile*)(ptr), (void*)(val)); #else return _InlineInterlockedExchangePointer((void* volatile*)(ptr), (void*)(val)); #endif #elif defined(_TD_NINGSI_60) return atomic_exchange_ptr_impl((void *)ptr, (void*)val); #else return __atomic_exchange_n((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_val_compare_exchange_8(int8_t volatile *ptr, int8_t oldval, int8_t newval) { #ifdef WINDOWS return _InterlockedCompareExchange8((int8_t volatile*)(ptr), (int8_t)(newval), (int8_t)(oldval)); #elif defined(_TD_NINGSI_60) return __sync_val_compare_and_swap(ptr, oldval, newval); #else return __sync_val_compare_and_swap(ptr, oldval, newval); #endif } int16_t atomic_val_compare_exchange_16(int16_t volatile *ptr, int16_t oldval, int16_t newval) { #ifdef WINDOWS return _InterlockedCompareExchange16((int16_t volatile*)(ptr), (int16_t)(newval), (int16_t)(oldval)); #elif defined(_TD_NINGSI_60) return __sync_val_compare_and_swap(ptr, oldval, newval); #else return __sync_val_compare_and_swap(ptr, oldval, newval); #endif } int32_t atomic_val_compare_exchange_32(int32_t volatile *ptr, int32_t oldval, int32_t newval) { #ifdef WINDOWS return _InterlockedCompareExchange((int32_t volatile*)(ptr), (int32_t)(newval), (int32_t)(oldval)); #elif defined(_TD_NINGSI_60) return __sync_val_compare_and_swap(ptr, oldval, newval); #else return __sync_val_compare_and_swap(ptr, oldval, newval); #endif } int64_t atomic_val_compare_exchange_64(int64_t volatile *ptr, int64_t oldval, int64_t newval) { #ifdef WINDOWS return _InterlockedCompareExchange64((int64_t volatile*)(ptr), (int64_t)(newval), (int64_t)(oldval)); #elif defined(_TD_NINGSI_60) return __sync_val_compare_and_swap(ptr, oldval, newval); #else return __sync_val_compare_and_swap(ptr, oldval, newval); #endif } void* atomic_val_compare_exchange_ptr(void *ptr, void *oldval, void *newval) { #ifdef WINDOWS return _InterlockedCompareExchangePointer((void* volatile*)(ptr), (void*)(newval), (void*)(oldval)); #elif defined(_TD_NINGSI_60) return __sync_val_compare_and_swap(ptr, oldval, newval); #else return __sync_val_compare_and_swap((void **)ptr, oldval, newval); #endif } int8_t atomic_add_fetch_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return interlocked_add_fetch_8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_add_and_fetch((ptr), (val)); #else return __atomic_add_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_add_fetch_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return interlocked_add_fetch_16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_add_and_fetch((ptr), (val)); #else return __atomic_add_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_add_fetch_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_add_fetch_32((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_add_and_fetch((ptr), (val)); #else return __atomic_add_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_add_fetch_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_add_fetch_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_add_and_fetch((ptr), (val)); #else return __atomic_add_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_add_fetch_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_add_fetch_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_add_and_fetch((ptr), (val)); #else return __atomic_add_fetch((void **)(ptr), (size_t)(val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_fetch_add_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), (val)); #else return __atomic_fetch_add((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_fetch_add_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), (val)); #else return __atomic_fetch_add((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_fetch_add_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), (val)); #else return __atomic_fetch_add((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_fetch_add_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), (val)); #else return __atomic_fetch_add((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_fetch_add_ptr(void *ptr, void *val) { #ifdef WINDOWS return _InterlockedExchangePointer((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_add((ptr), (val)); #else return __atomic_fetch_add((void **)(ptr), (size_t)(val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_sub_fetch_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return interlocked_add_fetch_8((int8_t volatile*)(ptr), -(int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_sub_and_fetch((ptr), (val)); #else return __atomic_sub_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_sub_fetch_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return interlocked_add_fetch_16((int16_t volatile*)(ptr), -(int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_sub_and_fetch((ptr), (val)); #else return __atomic_sub_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_sub_fetch_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_sub_fetch_32(ptr, val); #elif defined(_TD_NINGSI_60) return __sync_sub_and_fetch((ptr), (val)); #else return __atomic_sub_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_sub_fetch_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_sub_fetch_64(ptr, val); #elif defined(_TD_NINGSI_60) return __sync_sub_and_fetch((ptr), (val)); #else return __atomic_sub_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_sub_fetch_ptr(void *ptr, void* val) { #ifdef WINDOWS return interlocked_sub_fetch_ptr(ptr, val); #elif defined(_TD_NINGSI_60) return __sync_sub_and_fetch((ptr), (val)); #else return __atomic_sub_fetch((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_fetch_sub_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd8((int8_t volatile*)(ptr), -(int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_sub((ptr), (val)); #else return __atomic_fetch_sub((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_fetch_sub_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd16((int16_t volatile*)(ptr), -(int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_sub((ptr), (val)); #else return __atomic_fetch_sub((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_fetch_sub_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_fetch_sub_32(ptr, val); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_sub(ptr, val); #else return __atomic_fetch_sub((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_fetch_sub_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return _InterlockedExchangeAdd64((int64_t volatile*)(ptr), -(int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_sub((ptr), (val)); #else return __atomic_fetch_sub((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_fetch_sub_ptr(void *ptr, void* val) { #ifdef WINDOWS return interlocked_fetch_sub_ptr(ptr, val); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_sub((ptr), (val)); #else return __atomic_fetch_sub((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_and_fetch_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return interlocked_and_fetch_8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_and_and_fetch((ptr), (val)); #else return __atomic_and_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_and_fetch_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return interlocked_and_fetch_16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_and_and_fetch((ptr), (val)); #else return __atomic_and_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_and_fetch_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_and_fetch_32((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_and_and_fetch((ptr), (val)); #else return __atomic_and_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_and_fetch_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_and_fetch_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_and_and_fetch((ptr), (val)); #else return __atomic_and_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_and_fetch_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_and_fetch_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_and_and_fetch((ptr), (val)); #else return __atomic_and_fetch((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_fetch_and_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedAnd8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_and((ptr), (val)); #else return __atomic_fetch_and((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_fetch_and_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedAnd16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_and((ptr), (val)); #else return __atomic_fetch_and((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_fetch_and_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return _InterlockedAnd((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_and((ptr), (val)); #else return __atomic_fetch_and((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_fetch_and_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_fetch_and_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_and((ptr), (val)); #else return __atomic_fetch_and((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_fetch_and_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_fetch_and_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_and((ptr), (val)); #else return __atomic_fetch_and((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_or_fetch_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return interlocked_or_fetch_8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_or_and_fetch((ptr), (val)); #else return __atomic_or_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_or_fetch_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return interlocked_or_fetch_16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_or_and_fetch((ptr), (val)); #else return __atomic_or_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_or_fetch_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_or_fetch_32((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_or_and_fetch((ptr), (val)); #else return __atomic_or_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_or_fetch_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_or_fetch_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_or_and_fetch((ptr), (val)); #else return __atomic_or_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_or_fetch_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_or_fetch_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_or_and_fetch((ptr), (val)); #else return __atomic_or_fetch((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_fetch_or_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedOr8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_or((ptr), (val)); #else return __atomic_fetch_or((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_fetch_or_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedOr16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_or((ptr), (val)); #else return __atomic_fetch_or((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_fetch_or_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return _InterlockedOr((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_or((ptr), (val)); #else return __atomic_fetch_or((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_fetch_or_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_fetch_or_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_or((ptr), (val)); #else return __atomic_fetch_or((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_fetch_or_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_fetch_or_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_or((ptr), (val)); #else return __atomic_fetch_or((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_xor_fetch_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return interlocked_xor_fetch_8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_xor_and_fetch((ptr), (val)); #else return __atomic_xor_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_xor_fetch_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return interlocked_xor_fetch_16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_xor_and_fetch((ptr), (val)); #else return __atomic_xor_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_xor_fetch_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return interlocked_xor_fetch_32((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_xor_and_fetch((ptr), (val)); #else return __atomic_xor_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_xor_fetch_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_xor_fetch_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_xor_and_fetch((ptr), (val)); #else return __atomic_xor_fetch((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_xor_fetch_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_xor_fetch_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_xor_and_fetch((ptr), (val)); #else return __atomic_xor_fetch((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif } int8_t atomic_fetch_xor_8(int8_t volatile *ptr, int8_t val) { #ifdef WINDOWS return _InterlockedXor8((int8_t volatile*)(ptr), (int8_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_xor((ptr), (val)); #else return __atomic_fetch_xor((ptr), (val), __ATOMIC_SEQ_CST); #endif } int16_t atomic_fetch_xor_16(int16_t volatile *ptr, int16_t val) { #ifdef WINDOWS return _InterlockedXor16((int16_t volatile*)(ptr), (int16_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_xor((ptr), (val)); #else return __atomic_fetch_xor((ptr), (val), __ATOMIC_SEQ_CST); #endif } int32_t atomic_fetch_xor_32(int32_t volatile *ptr, int32_t val) { #ifdef WINDOWS return _InterlockedXor((int32_t volatile*)(ptr), (int32_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_xor((ptr), (val)); #else return __atomic_fetch_xor((ptr), (val), __ATOMIC_SEQ_CST); #endif } int64_t atomic_fetch_xor_64(int64_t volatile *ptr, int64_t val) { #ifdef WINDOWS return interlocked_fetch_xor_64((int64_t volatile*)(ptr), (int64_t)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_xor((ptr), (val)); #else return __atomic_fetch_xor((ptr), (val), __ATOMIC_SEQ_CST); #endif } void* atomic_fetch_xor_ptr(void *ptr, void *val) { #ifdef WINDOWS return interlocked_fetch_xor_ptr((void* volatile*)(ptr), (void*)(val)); #elif defined(_TD_NINGSI_60) return __sync_fetch_and_xor((ptr), (val)); #else return __atomic_fetch_xor((void **)(ptr), (val), __ATOMIC_SEQ_CST); #endif }