/* ===-------- intrin.h ---------------------------------------------------=== * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. * *===-----------------------------------------------------------------------=== */ /* Only include this if we're compiling for the windows platform. */ #ifndef _MSC_VER #include_next <intrin.h> #else #ifndef __INTRIN_H #define __INTRIN_H /* First include the standard intrinsics. */ #if defined(__i386__) || defined(__x86_64__) #include <x86intrin.h> #endif /* For the definition of jmp_buf. */ #if __STDC_HOSTED__ #include <setjmp.h> #endif /* Define the default attributes for the functions in this file. */ #define __DEFAULT_FN_ATTRS __attribute__((__always_inline__, __nodebug__)) #ifdef __cplusplus extern "C" { #endif #if defined(__MMX__) /* And the random ones that aren't in those files. */ __m64 _m_from_float(float); float _m_to_float(__m64); #endif /* Other assorted instruction intrinsics. */ void __addfsbyte(unsigned long, unsigned char); void __addfsdword(unsigned long, unsigned long); void __addfsword(unsigned long, unsigned short); void __code_seg(const char *); static __inline__ void __cpuid(int[4], int); static __inline__ void __cpuidex(int[4], int, int); void __debugbreak(void); __int64 __emul(int, int); unsigned __int64 __emulu(unsigned int, unsigned int); void __cdecl __fastfail(unsigned int); unsigned int __getcallerseflags(void); static __inline__ void __halt(void); unsigned char __inbyte(unsigned short); void __inbytestring(unsigned short, unsigned char *, unsigned long); void __incfsbyte(unsigned long); void __incfsdword(unsigned long); void __incfsword(unsigned long); unsigned long __indword(unsigned short); void __indwordstring(unsigned short, unsigned long *, unsigned long); void __int2c(void); void __invlpg(void *); unsigned short __inword(unsigned short); void __inwordstring(unsigned short, unsigned short *, unsigned long); void __lidt(void *); unsigned __int64 __ll_lshift(unsigned __int64, int); __int64 __ll_rshift(__int64, int); void __llwpcb(void *); unsigned char __lwpins32(unsigned int, unsigned int, unsigned int); void __lwpval32(unsigned int, unsigned int, unsigned int); unsigned int __lzcnt(unsigned int); unsigned short __lzcnt16(unsigned short); static __inline__ void __movsb(unsigned char *, unsigned char const *, size_t); static __inline__ void __movsd(unsigned long *, unsigned long const *, size_t); static __inline__ void __movsw(unsigned short *, unsigned short const *, size_t); void __nop(void); void __nvreg_restore_fence(void); void __nvreg_save_fence(void); void __outbyte(unsigned short, unsigned char); void __outbytestring(unsigned short, unsigned char *, unsigned long); void __outdword(unsigned short, unsigned long); void __outdwordstring(unsigned short, unsigned long *, unsigned long); void __outword(unsigned short, unsigned short); void __outwordstring(unsigned short, unsigned short *, unsigned long); static __inline__ unsigned int __popcnt(unsigned int); static __inline__ unsigned short __popcnt16(unsigned short); unsigned long __readcr0(void); unsigned long __readcr2(void); static __inline__ unsigned long __readcr3(void); unsigned long __readcr4(void); unsigned long __readcr8(void); unsigned int __readdr(unsigned int); #ifdef __i386__ static __inline__ unsigned char __readfsbyte(unsigned long); static __inline__ unsigned long __readfsdword(unsigned long); static __inline__ unsigned __int64 __readfsqword(unsigned long); static __inline__ unsigned short __readfsword(unsigned long); #endif static __inline__ unsigned __int64 __readmsr(unsigned long); unsigned __int64 __readpmc(unsigned long); unsigned long __segmentlimit(unsigned long); void __sidt(void *); void *__slwpcb(void); static __inline__ void __stosb(unsigned char *, unsigned char, size_t); static __inline__ void __stosd(unsigned long *, unsigned long, size_t); static __inline__ void __stosw(unsigned short *, unsigned short, size_t); void __svm_clgi(void); void __svm_invlpga(void *, int); void __svm_skinit(int); void __svm_stgi(void); void __svm_vmload(size_t); void __svm_vmrun(size_t); void __svm_vmsave(size_t); void __ud2(void); unsigned __int64 __ull_rshift(unsigned __int64, int); void __vmx_off(void); void __vmx_vmptrst(unsigned __int64 *); void __wbinvd(void); void __writecr0(unsigned int); static __inline__ void __writecr3(unsigned int); void __writecr4(unsigned int); void __writecr8(unsigned int); void __writedr(unsigned int, unsigned int); void __writefsbyte(unsigned long, unsigned char); void __writefsdword(unsigned long, unsigned long); void __writefsqword(unsigned long, unsigned __int64); void __writefsword(unsigned long, unsigned short); void __writemsr(unsigned long, unsigned __int64); static __inline__ void *_AddressOfReturnAddress(void); static __inline__ unsigned char _BitScanForward(unsigned long *_Index, unsigned long _Mask); static __inline__ unsigned char _BitScanReverse(unsigned long *_Index, unsigned long _Mask); static __inline__ unsigned char _bittest(long const *, long); static __inline__ unsigned char _bittestandcomplement(long *, long); static __inline__ unsigned char _bittestandreset(long *, long); static __inline__ unsigned char _bittestandset(long *, long); unsigned __int64 __cdecl _byteswap_uint64(unsigned __int64); unsigned long __cdecl _byteswap_ulong(unsigned long); unsigned short __cdecl _byteswap_ushort(unsigned short); void __cdecl _disable(void); void __cdecl _enable(void); long _InterlockedAddLargeStatistic(__int64 volatile *_Addend, long _Value); static __inline__ long _InterlockedAnd(long volatile *_Value, long _Mask); static __inline__ short _InterlockedAnd16(short volatile *_Value, short _Mask); static __inline__ char _InterlockedAnd8(char volatile *_Value, char _Mask); unsigned char _interlockedbittestandreset(long volatile *, long); static __inline__ unsigned char _interlockedbittestandset(long volatile *, long); static __inline__ long __cdecl _InterlockedCompareExchange(long volatile *_Destination, long _Exchange, long _Comparand); long _InterlockedCompareExchange_HLEAcquire(long volatile *, long, long); long _InterlockedCompareExchange_HLERelease(long volatile *, long, long); static __inline__ short _InterlockedCompareExchange16(short volatile *_Destination, short _Exchange, short _Comparand); static __inline__ __int64 _InterlockedCompareExchange64(__int64 volatile *_Destination, __int64 _Exchange, __int64 _Comparand); __int64 _InterlockedcompareExchange64_HLEAcquire(__int64 volatile *, __int64, __int64); __int64 _InterlockedCompareExchange64_HLERelease(__int64 volatile *, __int64, __int64); static __inline__ char _InterlockedCompareExchange8(char volatile *_Destination, char _Exchange, char _Comparand); void *_InterlockedCompareExchangePointer_HLEAcquire(void *volatile *, void *, void *); void *_InterlockedCompareExchangePointer_HLERelease(void *volatile *, void *, void *); static __inline__ long __cdecl _InterlockedDecrement(long volatile *_Addend); static __inline__ short _InterlockedDecrement16(short volatile *_Addend); long _InterlockedExchange(long volatile *_Target, long _Value); static __inline__ short _InterlockedExchange16(short volatile *_Target, short _Value); static __inline__ char _InterlockedExchange8(char volatile *_Target, char _Value); static __inline__ long __cdecl _InterlockedExchangeAdd(long volatile *_Addend, long _Value); long _InterlockedExchangeAdd_HLEAcquire(long volatile *, long); long _InterlockedExchangeAdd_HLERelease(long volatile *, long); static __inline__ short _InterlockedExchangeAdd16(short volatile *_Addend, short _Value); __int64 _InterlockedExchangeAdd64_HLEAcquire(__int64 volatile *, __int64); __int64 _InterlockedExchangeAdd64_HLERelease(__int64 volatile *, __int64); static __inline__ char _InterlockedExchangeAdd8(char volatile *_Addend, char _Value); static __inline__ long __cdecl _InterlockedIncrement(long volatile *_Addend); static __inline__ short _InterlockedIncrement16(short volatile *_Addend); static __inline__ long _InterlockedOr(long volatile *_Value, long _Mask); static __inline__ short _InterlockedOr16(short volatile *_Value, short _Mask); static __inline__ char _InterlockedOr8(char volatile *_Value, char _Mask); static __inline__ long _InterlockedXor(long volatile *_Value, long _Mask); static __inline__ short _InterlockedXor16(short volatile *_Value, short _Mask); static __inline__ char _InterlockedXor8(char volatile *_Value, char _Mask); void __cdecl _invpcid(unsigned int, void *); static __inline__ unsigned long __cdecl _lrotl(unsigned long, int); static __inline__ unsigned long __cdecl _lrotr(unsigned long, int); static __inline__ void _ReadBarrier(void); static __inline__ void _ReadWriteBarrier(void); static __inline__ void *_ReturnAddress(void); unsigned int _rorx_u32(unsigned int, const unsigned int); static __inline__ unsigned int __cdecl _rotl(unsigned int _Value, int _Shift); static __inline__ unsigned short _rotl16(unsigned short _Value, unsigned char _Shift); static __inline__ unsigned __int64 __cdecl _rotl64(unsigned __int64 _Value, int _Shift); static __inline__ unsigned char _rotl8(unsigned char _Value, unsigned char _Shift); static __inline__ unsigned int __cdecl _rotr(unsigned int _Value, int _Shift); static __inline__ unsigned short _rotr16(unsigned short _Value, unsigned char _Shift); static __inline__ unsigned __int64 __cdecl _rotr64(unsigned __int64 _Value, int _Shift); static __inline__ unsigned char _rotr8(unsigned char _Value, unsigned char _Shift); int _sarx_i32(int, unsigned int); #if __STDC_HOSTED__ int __cdecl _setjmp(jmp_buf); #endif unsigned int _shlx_u32(unsigned int, unsigned int); unsigned int _shrx_u32(unsigned int, unsigned int); void _Store_HLERelease(long volatile *, long); void _Store64_HLERelease(__int64 volatile *, __int64); void _StorePointer_HLERelease(void *volatile *, void *); static __inline__ void _WriteBarrier(void); unsigned __int32 xbegin(void); void _xend(void); static __inline__ #define _XCR_XFEATURE_ENABLED_MASK 0 unsigned __int64 __cdecl _xgetbv(unsigned int); void __cdecl _xsetbv(unsigned int, unsigned __int64); /* These additional intrinsics are turned on in x64/amd64/x86_64 mode. */ #ifdef __x86_64__ void __addgsbyte(unsigned long, unsigned char); void __addgsdword(unsigned long, unsigned long); void __addgsqword(unsigned long, unsigned __int64); void __addgsword(unsigned long, unsigned short); static __inline__ void __faststorefence(void); void __incgsbyte(unsigned long); void __incgsdword(unsigned long); void __incgsqword(unsigned long); void __incgsword(unsigned long); unsigned char __lwpins64(unsigned __int64, unsigned int, unsigned int); void __lwpval64(unsigned __int64, unsigned int, unsigned int); unsigned __int64 __lzcnt64(unsigned __int64); static __inline__ void __movsq(unsigned long long *, unsigned long long const *, size_t); __int64 __mulh(__int64, __int64); static __inline__ unsigned __int64 __popcnt64(unsigned __int64); static __inline__ unsigned char __readgsbyte(unsigned long); static __inline__ unsigned long __readgsdword(unsigned long); static __inline__ unsigned __int64 __readgsqword(unsigned long); unsigned short __readgsword(unsigned long); unsigned __int64 __shiftleft128(unsigned __int64 _LowPart, unsigned __int64 _HighPart, unsigned char _Shift); unsigned __int64 __shiftright128(unsigned __int64 _LowPart, unsigned __int64 _HighPart, unsigned char _Shift); static __inline__ void __stosq(unsigned __int64 *, unsigned __int64, size_t); unsigned char __vmx_on(unsigned __int64 *); unsigned char __vmx_vmclear(unsigned __int64 *); unsigned char __vmx_vmlaunch(void); unsigned char __vmx_vmptrld(unsigned __int64 *); unsigned char __vmx_vmread(size_t, size_t *); unsigned char __vmx_vmresume(void); unsigned char __vmx_vmwrite(size_t, size_t); void __writegsbyte(unsigned long, unsigned char); void __writegsdword(unsigned long, unsigned long); void __writegsqword(unsigned long, unsigned __int64); void __writegsword(unsigned long, unsigned short); static __inline__ unsigned char _BitScanForward64(unsigned long *_Index, unsigned __int64 _Mask); static __inline__ unsigned char _BitScanReverse64(unsigned long *_Index, unsigned __int64 _Mask); static __inline__ unsigned char _bittest64(__int64 const *, __int64); static __inline__ unsigned char _bittestandcomplement64(__int64 *, __int64); static __inline__ unsigned char _bittestandreset64(__int64 *, __int64); static __inline__ unsigned char _bittestandset64(__int64 *, __int64); unsigned __int64 __cdecl _byteswap_uint64(unsigned __int64); long _InterlockedAnd_np(long volatile *_Value, long _Mask); short _InterlockedAnd16_np(short volatile *_Value, short _Mask); __int64 _InterlockedAnd64_np(__int64 volatile *_Value, __int64 _Mask); char _InterlockedAnd8_np(char volatile *_Value, char _Mask); unsigned char _interlockedbittestandreset64(__int64 volatile *, __int64); static __inline__ unsigned char _interlockedbittestandset64(__int64 volatile *, __int64); long _InterlockedCompareExchange_np(long volatile *_Destination, long _Exchange, long _Comparand); unsigned char _InterlockedCompareExchange128(__int64 volatile *_Destination, __int64 _ExchangeHigh, __int64 _ExchangeLow, __int64 *_CompareandResult); unsigned char _InterlockedCompareExchange128_np(__int64 volatile *_Destination, __int64 _ExchangeHigh, __int64 _ExchangeLow, __int64 *_ComparandResult); short _InterlockedCompareExchange16_np(short volatile *_Destination, short _Exchange, short _Comparand); __int64 _InterlockedCompareExchange64_HLEAcquire(__int64 volatile *, __int64, __int64); __int64 _InterlockedCompareExchange64_HLERelease(__int64 volatile *, __int64, __int64); __int64 _InterlockedCompareExchange64_np(__int64 volatile *_Destination, __int64 _Exchange, __int64 _Comparand); void *_InterlockedCompareExchangePointer(void *volatile *_Destination, void *_Exchange, void *_Comparand); void *_InterlockedCompareExchangePointer_np(void *volatile *_Destination, void *_Exchange, void *_Comparand); static __inline__ __int64 _InterlockedDecrement64(__int64 volatile *_Addend); static __inline__ __int64 _InterlockedExchange64(__int64 volatile *_Target, __int64 _Value); static __inline__ __int64 _InterlockedExchangeAdd64(__int64 volatile *_Addend, __int64 _Value); void *_InterlockedExchangePointer(void *volatile *_Target, void *_Value); static __inline__ __int64 _InterlockedIncrement64(__int64 volatile *_Addend); long _InterlockedOr_np(long volatile *_Value, long _Mask); short _InterlockedOr16_np(short volatile *_Value, short _Mask); static __inline__ __int64 _InterlockedOr64(__int64 volatile *_Value, __int64 _Mask); __int64 _InterlockedOr64_np(__int64 volatile *_Value, __int64 _Mask); char _InterlockedOr8_np(char volatile *_Value, char _Mask); long _InterlockedXor_np(long volatile *_Value, long _Mask); short _InterlockedXor16_np(short volatile *_Value, short _Mask); static __inline__ __int64 _InterlockedXor64(__int64 volatile *_Value, __int64 _Mask); __int64 _InterlockedXor64_np(__int64 volatile *_Value, __int64 _Mask); char _InterlockedXor8_np(char volatile *_Value, char _Mask); static __inline__ __int64 _mul128(__int64 _Multiplier, __int64 _Multiplicand, __int64 *_HighProduct); unsigned __int64 _rorx_u64(unsigned __int64, const unsigned int); __int64 _sarx_i64(__int64, unsigned int); #if __STDC_HOSTED__ int __cdecl _setjmpex(jmp_buf); #endif unsigned __int64 _shlx_u64(unsigned __int64, unsigned int); unsigned __int64 _shrx_u64(unsigned __int64, unsigned int); /* * Multiply two 64-bit integers and obtain a 64-bit result. * The low-half is returned directly and the high half is in an out parameter. */ static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS _umul128(unsigned __int64 _Multiplier, unsigned __int64 _Multiplicand, unsigned __int64 *_HighProduct) { unsigned __int128 _FullProduct = (unsigned __int128)_Multiplier * (unsigned __int128)_Multiplicand; *_HighProduct = _FullProduct >> 64; return _FullProduct; } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __umulh(unsigned __int64 _Multiplier, unsigned __int64 _Multiplicand) { unsigned __int128 _FullProduct = (unsigned __int128)_Multiplier * (unsigned __int128)_Multiplicand; return _FullProduct >> 64; } #endif /* __x86_64__ */ /*----------------------------------------------------------------------------*\ |* Multiplication \*----------------------------------------------------------------------------*/ static __inline__ __int64 __DEFAULT_FN_ATTRS __emul(int __in1, int __in2) { return (__int64)__in1 * (__int64)__in2; } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __emulu(unsigned int __in1, unsigned int __in2) { return (unsigned __int64)__in1 * (unsigned __int64)__in2; } /*----------------------------------------------------------------------------*\ |* Bit Twiddling \*----------------------------------------------------------------------------*/ static __inline__ unsigned char __DEFAULT_FN_ATTRS _rotl8(unsigned char _Value, unsigned char _Shift) { _Shift &= 0x7; return _Shift ? (_Value << _Shift) | (_Value >> (8 - _Shift)) : _Value; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _rotr8(unsigned char _Value, unsigned char _Shift) { _Shift &= 0x7; return _Shift ? (_Value >> _Shift) | (_Value << (8 - _Shift)) : _Value; } static __inline__ unsigned short __DEFAULT_FN_ATTRS _rotl16(unsigned short _Value, unsigned char _Shift) { _Shift &= 0xf; return _Shift ? (_Value << _Shift) | (_Value >> (16 - _Shift)) : _Value; } static __inline__ unsigned short __DEFAULT_FN_ATTRS _rotr16(unsigned short _Value, unsigned char _Shift) { _Shift &= 0xf; return _Shift ? (_Value >> _Shift) | (_Value << (16 - _Shift)) : _Value; } static __inline__ unsigned int __DEFAULT_FN_ATTRS _rotl(unsigned int _Value, int _Shift) { _Shift &= 0x1f; return _Shift ? (_Value << _Shift) | (_Value >> (32 - _Shift)) : _Value; } static __inline__ unsigned int __DEFAULT_FN_ATTRS _rotr(unsigned int _Value, int _Shift) { _Shift &= 0x1f; return _Shift ? (_Value >> _Shift) | (_Value << (32 - _Shift)) : _Value; } static __inline__ unsigned long __DEFAULT_FN_ATTRS _lrotl(unsigned long _Value, int _Shift) { _Shift &= 0x1f; return _Shift ? (_Value << _Shift) | (_Value >> (32 - _Shift)) : _Value; } static __inline__ unsigned long __DEFAULT_FN_ATTRS _lrotr(unsigned long _Value, int _Shift) { _Shift &= 0x1f; return _Shift ? (_Value >> _Shift) | (_Value << (32 - _Shift)) : _Value; } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS _rotl64(unsigned __int64 _Value, int _Shift) { _Shift &= 0x3f; return _Shift ? (_Value << _Shift) | (_Value >> (64 - _Shift)) : _Value; } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS _rotr64(unsigned __int64 _Value, int _Shift) { _Shift &= 0x3f; return _Shift ? (_Value >> _Shift) | (_Value << (64 - _Shift)) : _Value; } /*----------------------------------------------------------------------------*\ |* Bit Counting and Testing \*----------------------------------------------------------------------------*/ static __inline__ unsigned char __DEFAULT_FN_ATTRS _BitScanForward(unsigned long *_Index, unsigned long _Mask) { if (!_Mask) return 0; *_Index = __builtin_ctzl(_Mask); return 1; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _BitScanReverse(unsigned long *_Index, unsigned long _Mask) { if (!_Mask) return 0; *_Index = 31 - __builtin_clzl(_Mask); return 1; } static __inline__ unsigned short __DEFAULT_FN_ATTRS __popcnt16(unsigned short _Value) { return __builtin_popcount((int)_Value); } static __inline__ unsigned int __DEFAULT_FN_ATTRS __popcnt(unsigned int _Value) { return __builtin_popcount(_Value); } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittest(long const *_BitBase, long _BitPos) { return (*_BitBase >> _BitPos) & 1; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandcomplement(long *_BitBase, long _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase ^ (1 << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandreset(long *_BitBase, long _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase & ~(1 << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandset(long *_BitBase, long _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase | (1 << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _interlockedbittestandset(long volatile *_BitBase, long _BitPos) { long _PrevVal = __atomic_fetch_or(_BitBase, 1l << _BitPos, __ATOMIC_SEQ_CST); return (_PrevVal >> _BitPos) & 1; } #ifdef __x86_64__ static __inline__ unsigned char __DEFAULT_FN_ATTRS _BitScanForward64(unsigned long *_Index, unsigned __int64 _Mask) { if (!_Mask) return 0; *_Index = __builtin_ctzll(_Mask); return 1; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _BitScanReverse64(unsigned long *_Index, unsigned __int64 _Mask) { if (!_Mask) return 0; *_Index = 63 - __builtin_clzll(_Mask); return 1; } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __popcnt64(unsigned __int64 _Value) { return __builtin_popcountll(_Value); } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittest64(__int64 const *_BitBase, __int64 _BitPos) { return (*_BitBase >> _BitPos) & 1; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandcomplement64(__int64 *_BitBase, __int64 _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase ^ (1ll << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandreset64(__int64 *_BitBase, __int64 _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase & ~(1ll << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _bittestandset64(__int64 *_BitBase, __int64 _BitPos) { unsigned char _Res = (*_BitBase >> _BitPos) & 1; *_BitBase = *_BitBase | (1ll << _BitPos); return _Res; } static __inline__ unsigned char __DEFAULT_FN_ATTRS _interlockedbittestandset64(__int64 volatile *_BitBase, __int64 _BitPos) { long long _PrevVal = __atomic_fetch_or(_BitBase, 1ll << _BitPos, __ATOMIC_SEQ_CST); return (_PrevVal >> _BitPos) & 1; } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Exchange Add \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedExchangeAdd8(char volatile *_Addend, char _Value) { return __atomic_fetch_add(_Addend, _Value, __ATOMIC_SEQ_CST); } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedExchangeAdd16(short volatile *_Addend, short _Value) { return __atomic_fetch_add(_Addend, _Value, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedExchangeAdd64(__int64 volatile *_Addend, __int64 _Value) { return __atomic_fetch_add(_Addend, _Value, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Exchange Sub \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedExchangeSub8(char volatile *_Subend, char _Value) { return __atomic_fetch_sub(_Subend, _Value, __ATOMIC_SEQ_CST); } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedExchangeSub16(short volatile *_Subend, short _Value) { return __atomic_fetch_sub(_Subend, _Value, __ATOMIC_SEQ_CST); } static __inline__ long __DEFAULT_FN_ATTRS _InterlockedExchangeSub(long volatile *_Subend, long _Value) { return __atomic_fetch_sub(_Subend, _Value, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedExchangeSub64(__int64 volatile *_Subend, __int64 _Value) { return __atomic_fetch_sub(_Subend, _Value, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Increment \*----------------------------------------------------------------------------*/ static __inline__ short __DEFAULT_FN_ATTRS _InterlockedIncrement16(short volatile *_Value) { return __atomic_add_fetch(_Value, 1, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedIncrement64(__int64 volatile *_Value) { return __atomic_add_fetch(_Value, 1, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Decrement \*----------------------------------------------------------------------------*/ static __inline__ short __DEFAULT_FN_ATTRS _InterlockedDecrement16(short volatile *_Value) { return __atomic_sub_fetch(_Value, 1, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedDecrement64(__int64 volatile *_Value) { return __atomic_sub_fetch(_Value, 1, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked And \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedAnd8(char volatile *_Value, char _Mask) { return __atomic_fetch_and(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedAnd16(short volatile *_Value, short _Mask) { return __atomic_fetch_and(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ long __DEFAULT_FN_ATTRS _InterlockedAnd(long volatile *_Value, long _Mask) { return __atomic_fetch_and(_Value, _Mask, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedAnd64(__int64 volatile *_Value, __int64 _Mask) { return __atomic_fetch_and(_Value, _Mask, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Or \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedOr8(char volatile *_Value, char _Mask) { return __atomic_fetch_or(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedOr16(short volatile *_Value, short _Mask) { return __atomic_fetch_or(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ long __DEFAULT_FN_ATTRS _InterlockedOr(long volatile *_Value, long _Mask) { return __atomic_fetch_or(_Value, _Mask, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedOr64(__int64 volatile *_Value, __int64 _Mask) { return __atomic_fetch_or(_Value, _Mask, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Xor \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedXor8(char volatile *_Value, char _Mask) { return __atomic_fetch_xor(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedXor16(short volatile *_Value, short _Mask) { return __atomic_fetch_xor(_Value, _Mask, __ATOMIC_SEQ_CST); } static __inline__ long __DEFAULT_FN_ATTRS _InterlockedXor(long volatile *_Value, long _Mask) { return __atomic_fetch_xor(_Value, _Mask, __ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedXor64(__int64 volatile *_Value, __int64 _Mask) { return __atomic_fetch_xor(_Value, _Mask, __ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Exchange \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedExchange8(char volatile *_Target, char _Value) { __atomic_exchange(_Target, &_Value, &_Value, __ATOMIC_SEQ_CST); return _Value; } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedExchange16(short volatile *_Target, short _Value) { __atomic_exchange(_Target, &_Value, &_Value, __ATOMIC_SEQ_CST); return _Value; } #ifdef __x86_64__ static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedExchange64(__int64 volatile *_Target, __int64 _Value) { __atomic_exchange(_Target, &_Value, &_Value, __ATOMIC_SEQ_CST); return _Value; } #endif /*----------------------------------------------------------------------------*\ |* Interlocked Compare Exchange \*----------------------------------------------------------------------------*/ static __inline__ char __DEFAULT_FN_ATTRS _InterlockedCompareExchange8(char volatile *_Destination, char _Exchange, char _Comparand) { __atomic_compare_exchange(_Destination, &_Comparand, &_Exchange, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); return _Comparand; } static __inline__ short __DEFAULT_FN_ATTRS _InterlockedCompareExchange16(short volatile *_Destination, short _Exchange, short _Comparand) { __atomic_compare_exchange(_Destination, &_Comparand, &_Exchange, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); return _Comparand; } static __inline__ __int64 __DEFAULT_FN_ATTRS _InterlockedCompareExchange64(__int64 volatile *_Destination, __int64 _Exchange, __int64 _Comparand) { __atomic_compare_exchange(_Destination, &_Comparand, &_Exchange, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); return _Comparand; } /*----------------------------------------------------------------------------*\ |* Barriers \*----------------------------------------------------------------------------*/ static __inline__ void __DEFAULT_FN_ATTRS __attribute__((__deprecated__("use other intrinsics or C++11 atomics instead"))) _ReadWriteBarrier(void) { __atomic_signal_fence(__ATOMIC_SEQ_CST); } static __inline__ void __DEFAULT_FN_ATTRS __attribute__((__deprecated__("use other intrinsics or C++11 atomics instead"))) _ReadBarrier(void) { __atomic_signal_fence(__ATOMIC_SEQ_CST); } static __inline__ void __DEFAULT_FN_ATTRS __attribute__((__deprecated__("use other intrinsics or C++11 atomics instead"))) _WriteBarrier(void) { __atomic_signal_fence(__ATOMIC_SEQ_CST); } #ifdef __x86_64__ static __inline__ void __DEFAULT_FN_ATTRS __faststorefence(void) { __atomic_thread_fence(__ATOMIC_SEQ_CST); } #endif /*----------------------------------------------------------------------------*\ |* readfs, readgs |* (Pointers in address space #256 and #257 are relative to the GS and FS |* segment registers, respectively.) \*----------------------------------------------------------------------------*/ #define __ptr_to_addr_space(__addr_space_nbr, __type, __offset) \ ((volatile __type __attribute__((__address_space__(__addr_space_nbr)))*) \ (__offset)) #ifdef __i386__ static __inline__ unsigned char __DEFAULT_FN_ATTRS __readfsbyte(unsigned long __offset) { return *__ptr_to_addr_space(257, unsigned char, __offset); } static __inline__ unsigned short __DEFAULT_FN_ATTRS __readfsword(unsigned long __offset) { return *__ptr_to_addr_space(257, unsigned short, __offset); } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __readfsqword(unsigned long __offset) { return *__ptr_to_addr_space(257, unsigned __int64, __offset); } #endif #ifdef __x86_64__ static __inline__ unsigned char __DEFAULT_FN_ATTRS __readgsbyte(unsigned long __offset) { return *__ptr_to_addr_space(256, unsigned char, __offset); } static __inline__ unsigned short __DEFAULT_FN_ATTRS __readgsword(unsigned long __offset) { return *__ptr_to_addr_space(256, unsigned short, __offset); } static __inline__ unsigned long __DEFAULT_FN_ATTRS __readgsdword(unsigned long __offset) { return *__ptr_to_addr_space(256, unsigned long, __offset); } static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __readgsqword(unsigned long __offset) { return *__ptr_to_addr_space(256, unsigned __int64, __offset); } #endif #undef __ptr_to_addr_space /*----------------------------------------------------------------------------*\ |* movs, stos \*----------------------------------------------------------------------------*/ #if defined(__i386__) || defined(__x86_64__) static __inline__ void __DEFAULT_FN_ATTRS __movsb(unsigned char *__dst, unsigned char const *__src, size_t __n) { __asm__("rep movsb" : : "D"(__dst), "S"(__src), "c"(__n) : "%edi", "%esi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __movsd(unsigned long *__dst, unsigned long const *__src, size_t __n) { __asm__("rep movsl" : : "D"(__dst), "S"(__src), "c"(__n) : "%edi", "%esi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __movsw(unsigned short *__dst, unsigned short const *__src, size_t __n) { __asm__("rep movsw" : : "D"(__dst), "S"(__src), "c"(__n) : "%edi", "%esi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __stosb(unsigned char *__dst, unsigned char __x, size_t __n) { __asm__("rep stosb" : : "D"(__dst), "a"(__x), "c"(__n) : "%edi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __stosd(unsigned long *__dst, unsigned long __x, size_t __n) { __asm__("rep stosl" : : "D"(__dst), "a"(__x), "c"(__n) : "%edi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __stosw(unsigned short *__dst, unsigned short __x, size_t __n) { __asm__("rep stosw" : : "D"(__dst), "a"(__x), "c"(__n) : "%edi", "%ecx"); } #endif #ifdef __x86_64__ static __inline__ void __DEFAULT_FN_ATTRS __movsq(unsigned long long *__dst, unsigned long long const *__src, size_t __n) { __asm__("rep movsq" : : "D"(__dst), "S"(__src), "c"(__n) : "%edi", "%esi", "%ecx"); } static __inline__ void __DEFAULT_FN_ATTRS __stosq(unsigned __int64 *__dst, unsigned __int64 __x, size_t __n) { __asm__("rep stosq" : : "D"(__dst), "a"(__x), "c"(__n) : "%edi", "%ecx"); } #endif /*----------------------------------------------------------------------------*\ |* Misc \*----------------------------------------------------------------------------*/ static __inline__ void * __DEFAULT_FN_ATTRS _AddressOfReturnAddress(void) { return (void*)((char*)__builtin_frame_address(0) + sizeof(void*)); } static __inline__ void * __DEFAULT_FN_ATTRS _ReturnAddress(void) { return __builtin_return_address(0); } #if defined(__i386__) || defined(__x86_64__) static __inline__ void __DEFAULT_FN_ATTRS __cpuid(int __info[4], int __level) { __asm__ ("cpuid" : "=a"(__info[0]), "=b" (__info[1]), "=c"(__info[2]), "=d"(__info[3]) : "a"(__level)); } static __inline__ void __DEFAULT_FN_ATTRS __cpuidex(int __info[4], int __level, int __ecx) { __asm__ ("cpuid" : "=a"(__info[0]), "=b" (__info[1]), "=c"(__info[2]), "=d"(__info[3]) : "a"(__level), "c"(__ecx)); } static __inline__ unsigned __int64 __cdecl __DEFAULT_FN_ATTRS _xgetbv(unsigned int __xcr_no) { unsigned int __eax, __edx; __asm__ ("xgetbv" : "=a" (__eax), "=d" (__edx) : "c" (__xcr_no)); return ((unsigned __int64)__edx << 32) | __eax; } static __inline__ void __DEFAULT_FN_ATTRS __halt(void) { __asm__ volatile ("hlt"); } #endif /*----------------------------------------------------------------------------*\ |* Privileged intrinsics \*----------------------------------------------------------------------------*/ #if defined(__i386__) || defined(__x86_64__) static __inline__ unsigned __int64 __DEFAULT_FN_ATTRS __readmsr(unsigned long __register) { // Loads the contents of a 64-bit model specific register (MSR) specified in // the ECX register into registers EDX:EAX. The EDX register is loaded with // the high-order 32 bits of the MSR and the EAX register is loaded with the // low-order 32 bits. If less than 64 bits are implemented in the MSR being // read, the values returned to EDX:EAX in unimplemented bit locations are // undefined. unsigned long __edx; unsigned long __eax; __asm__ ("rdmsr" : "=d"(__edx), "=a"(__eax) : "c"(__register)); return (((unsigned __int64)__edx) << 32) | (unsigned __int64)__eax; } static __inline__ unsigned long __DEFAULT_FN_ATTRS __readcr3(void) { unsigned long __cr3_val; __asm__ __volatile__ ("mov %%cr3, %0" : "=q"(__cr3_val) : : "memory"); return __cr3_val; } static __inline__ void __DEFAULT_FN_ATTRS __writecr3(unsigned int __cr3_val) { __asm__ ("mov %0, %%cr3" : : "q"(__cr3_val) : "memory"); } #endif #ifdef __cplusplus } #endif #undef __DEFAULT_FN_ATTRS #endif /* __INTRIN_H */ #endif /* _MSC_VER */