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instr.h
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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
/*****************************************************************************/
#ifndef _INSTR_H_
#define _INSTR_H_
/*****************************************************************************/
#ifdef TARGET_LOONGARCH64
#define BAD_CODE 0XFFFFFFFF
#elif TARGET_RISCV64
#define BAD_CODE 0X00000000
#else
#define BAD_CODE 0x0BADC0DE // better not match a real encoding!
#endif
/*****************************************************************************/
// clang-format off
enum instruction : uint32_t
{
#if defined(TARGET_XARCH)
#define INST0(id, nm, um, mr, tt, flags) INS_##id,
#define INST1(id, nm, um, mr, tt, flags) INS_##id,
#define INST2(id, nm, um, mr, mi, tt, flags) INS_##id,
#define INST3(id, nm, um, mr, mi, rm, tt, flags) INS_##id,
#define INST4(id, nm, um, mr, mi, rm, a4, tt, flags) INS_##id,
#define INST5(id, nm, um, mr, mi, rm, a4, rr, tt, flags) INS_##id,
#include "instrs.h"
#elif defined(TARGET_ARM)
#define INST1(id, nm, fp, ldst, fmt, e1 ) INS_##id,
#define INST2(id, nm, fp, ldst, fmt, e1, e2 ) INS_##id,
#define INST3(id, nm, fp, ldst, fmt, e1, e2, e3 ) INS_##id,
#define INST4(id, nm, fp, ldst, fmt, e1, e2, e3, e4 ) INS_##id,
#define INST5(id, nm, fp, ldst, fmt, e1, e2, e3, e4, e5 ) INS_##id,
#define INST6(id, nm, fp, ldst, fmt, e1, e2, e3, e4, e5, e6 ) INS_##id,
#define INST8(id, nm, fp, ldst, fmt, e1, e2, e3, e4, e5, e6, e7, e8 ) INS_##id,
#define INST9(id, nm, fp, ldst, fmt, e1, e2, e3, e4, e5, e6, e7, e8, e9) INS_##id,
#include "instrs.h"
INS_lea, // Not a real instruction. It is used for load the address of stack locals
#elif defined(TARGET_ARM64)
#define INST1(id, nm, ldst, fmt, e1 ) INS_##id,
#define INST2(id, nm, ldst, fmt, e1, e2 ) INS_##id,
#define INST3(id, nm, ldst, fmt, e1, e2, e3 ) INS_##id,
#define INST4(id, nm, ldst, fmt, e1, e2, e3, e4 ) INS_##id,
#define INST5(id, nm, ldst, fmt, e1, e2, e3, e4, e5 ) INS_##id,
#define INST6(id, nm, ldst, fmt, e1, e2, e3, e4, e5, e6 ) INS_##id,
#define INST9(id, nm, ldst, fmt, e1, e2, e3, e4, e5, e6, e7, e8, e9) INS_##id,
#include "instrs.h"
#define INST1(id, nm, info, fmt, e1 ) INS_sve_##id,
#define INST2(id, nm, info, fmt, e1, e2 ) INS_sve_##id,
#define INST3(id, nm, info, fmt, e1, e2, e3 ) INS_sve_##id,
#define INST4(id, nm, info, fmt, e1, e2, e3, e4 ) INS_sve_##id,
#define INST5(id, nm, info, fmt, e1, e2, e3, e4, e5 ) INS_sve_##id,
#define INST6(id, nm, info, fmt, e1, e2, e3, e4, e5, e6 ) INS_sve_##id,
#define INST7(id, nm, info, fmt, e1, e2, e3, e4, e5, e6, e7 ) INS_sve_##id,
#define INST8(id, nm, info, fmt, e1, e2, e3, e4, e5, e6, e7, e8 ) INS_sve_##id,
#define INST9(id, nm, info, fmt, e1, e2, e3, e4, e5, e6, e7, e8, e9 ) INS_sve_##id,
#define INST11(id, nm, info, fmt, e1, e2, e3, e4, e5, e6, e7, e8, e9, e10,e11 ) INS_sve_##id,
#define INST13(id, nm, info, fmt, e1, e2, e3, e4, e5, e6, e7, e8, e9, e10, e11, e12, e13) INS_sve_##id,
#include "instrsarm64sve.h"
INS_lea, // Not a real instruction. It is used for load the address of stack locals
#elif defined(TARGET_LOONGARCH64)
#define INST(id, nm, ldst, e1, msk, fmt) INS_##id,
#include "instrs.h"
INS_lea, // Not a real instruction. It is used for load the address of stack locals
#elif defined(TARGET_RISCV64)
#define INST(id, nm, ldst, e1) INS_##id,
#include "instrs.h"
INS_lea, // Not a real instruction. It is used for load the address of stack locals
#else
#error Unsupported target architecture
#endif
INS_none,
INS_count = INS_none
};
//------------------------------------------------------------------------
// IsAvx512OrPriorInstruction: Is this an Avx512 or Avx or Sse or K (opmask) instruction.
// Technically, K instructions would be considered under the VEX encoding umbrella, but due to
// the instruction table encoding had to be pulled out with the rest of the `INST5` definitions.
//
// Arguments:
// ins - The instruction to check.
//
// Returns:
// `true` if it is a sse or avx or avx512 instruction.
//
inline bool IsAvx512OrPriorInstruction(instruction ins)
{
#if defined(TARGET_XARCH)
return (ins >= INS_FIRST_SSE_INSTRUCTION) && (ins <= INS_LAST_AVX512_INSTRUCTION);
#else
return false;
#endif // TARGET_XARCH
}
/*****************************************************************************/
enum insUpdateModes
{
IUM_RD,
IUM_WR,
IUM_RW,
};
/*****************************************************************************/
enum emitJumpKind
{
EJ_NONE,
#define JMP_SMALL(en, rev, ins) EJ_##en,
#include "emitjmps.h"
EJ_COUNT
};
/*****************************************************************************/
enum GCtype : unsigned
{
GCT_NONE,
GCT_GCREF,
GCT_BYREF
};
#if defined(TARGET_XARCH)
enum insFlags : uint64_t
{
INS_FLAGS_None = 0ULL,
// Reads
Reads_OF = 1ULL << 0,
Reads_SF = 1ULL << 1,
Reads_ZF = 1ULL << 2,
Reads_PF = 1ULL << 3,
Reads_CF = 1ULL << 4,
Reads_DF = 1ULL << 5,
// Writes
Writes_OF = 1ULL << 6,
Writes_SF = 1ULL << 7,
Writes_ZF = 1ULL << 8,
Writes_AF = 1ULL << 9,
Writes_PF = 1ULL << 10,
Writes_CF = 1ULL << 11,
// Resets
Resets_OF = 1ULL << 12,
Resets_SF = 1ULL << 13,
Resets_ZF = 1ULL << 14,
Resets_AF = 1ULL << 15,
Resets_PF = 1ULL << 16,
Resets_CF = 1ULL << 17,
// Undefined
Undefined_OF = 1ULL << 18,
Undefined_SF = 1ULL << 19,
Undefined_ZF = 1ULL << 20,
Undefined_AF = 1ULL << 21,
Undefined_PF = 1ULL << 22,
Undefined_CF = 1ULL << 23,
// Restore
Restore_SF_ZF_AF_PF_CF = 1ULL << 24,
// x87 instruction
INS_FLAGS_x87Instr = 1ULL << 25,
// Avx
INS_Flags_IsDstDstSrcAVXInstruction = 1ULL << 26,
INS_Flags_IsDstSrcSrcAVXInstruction = 1ULL << 27,
INS_Flags_Is3OperandInstructionMask = (INS_Flags_IsDstDstSrcAVXInstruction | INS_Flags_IsDstSrcSrcAVXInstruction),
// w and s bits
INS_FLAGS_Has_Wbit = 1ULL << 29,
INS_FLAGS_Has_Sbit = 1ULL << 30,
// instruction input size
// if not input size is set, instruction defaults to using
// the emitAttr for size
Input_8Bit = 1ULL << 31,
Input_16Bit = 1ULL << 32,
Input_32Bit = 1ULL << 33,
Input_64Bit = 1ULL << 34,
Input_Mask = (0xFULL) << 31,
// encoding of the REX.W-bit
REX_W0 = 1ULL << 35,
REX_W1 = 1ULL << 36,
REX_WX = 1ULL << 37,
// encoding of the REX.W-bit is considered for EVEX only and W0 or WIG otherwise
REX_W0_EVEX = REX_W0,
REX_W1_EVEX = 1ULL << 38,
// encoding of the REX.W-bit is ignored
REX_WIG = REX_W0,
// whether VEX or EVEX encodings are directly supported
Encoding_VEX = 1ULL << 39,
Encoding_EVEX = 1ULL << 40,
KInstruction = 1ULL << 41,
// EVEX feature: embedded broadcast
INS_Flags_EmbeddedBroadcastSupported = 1ULL << 42,
// TODO-Cleanup: Remove this flag and its usage from TARGET_XARCH
INS_FLAGS_DONT_CARE = 0x00ULL,
};
enum insOpts: unsigned
{
INS_OPTS_NONE = 0,
// Two-bits: 0b0000_0011
INS_OPTS_EVEX_b_MASK = 0x03, // mask for EVEX.b related features.
INS_OPTS_EVEX_eb_er_rd = 1, // Embedded Broadcast or Round down
INS_OPTS_EVEX_er_ru = 2, // Round up
INS_OPTS_EVEX_er_rz = 3, // Round towards zero
// Three-bits: 0b0001_1100
INS_OPTS_EVEX_aaa_MASK = 0x1C, // mask for EVEX.aaa related features
INS_OPTS_EVEX_em_k1 = 1 << 2, // Embedded mask uses K1
INS_OPTS_EVEX_em_k2 = 2 << 2, // Embedded mask uses K2
INS_OPTS_EVEX_em_k3 = 3 << 2, // Embedded mask uses K3
INS_OPTS_EVEX_em_k4 = 4 << 2, // Embedded mask uses K4
INS_OPTS_EVEX_em_k5 = 5 << 2, // Embedded mask uses K5
INS_OPTS_EVEX_em_k6 = 6 << 2, // Embedded mask uses K6
INS_OPTS_EVEX_em_k7 = 7 << 2, // Embedded mask uses K7
// One-bit: 0b0010_0000
INS_OPTS_EVEX_z_MASK = 0x20, // mask for EVEX.z related features
INS_OPTS_EVEX_em_zero = 1 << 5, // Embedded mask merges with zero
};
#elif defined(TARGET_ARM) || defined(TARGET_ARM64) || defined(TARGET_LOONGARCH64) || defined(TARGET_RISCV64)
// TODO-Cleanup: Move 'insFlags' under TARGET_ARM
enum insFlags: unsigned
{
INS_FLAGS_NOT_SET = 0x00,
INS_FLAGS_SET = 0x01,
INS_FLAGS_DONT_CARE = 0x02,
};
#else
#error Unsupported target architecture
#endif
#if defined(TARGET_ARM)
enum insOpts: unsigned
{
INS_OPTS_NONE,
INS_OPTS_LDST_PRE_DEC,
INS_OPTS_LDST_POST_INC,
INS_OPTS_RRX,
INS_OPTS_LSL,
INS_OPTS_LSR,
INS_OPTS_ASR,
INS_OPTS_ROR
};
enum insBarrier : unsigned
{
INS_BARRIER_SY = 15
};
#elif defined(TARGET_ARM64)
enum insOpts : unsigned
{
INS_OPTS_NONE,
INS_OPTS_PRE_INDEX,
INS_OPTS_POST_INDEX,
INS_OPTS_LSL12,
INS_OPTS_LSL = 4,
INS_OPTS_LSR,
INS_OPTS_ASR,
INS_OPTS_ROR,
INS_OPTS_UXTB = 8,
INS_OPTS_UXTH,
INS_OPTS_UXTW,
INS_OPTS_UXTX,
INS_OPTS_SXTB,
INS_OPTS_SXTH,
INS_OPTS_SXTW,
INS_OPTS_SXTX,
INS_OPTS_8B = 16,
INS_OPTS_16B,
INS_OPTS_4H,
INS_OPTS_8H,
INS_OPTS_2S,
INS_OPTS_4S,
INS_OPTS_1D,
INS_OPTS_2D,
INS_OPTS_SCALABLE_B,
INS_OPTS_SCALABLE_H,
INS_OPTS_SCALABLE_S,
INS_OPTS_SCALABLE_D,
INS_OPTS_SCALABLE_Q,
INS_OPTS_SCALABLE_S_UXTW,
INS_OPTS_SCALABLE_S_SXTW,
INS_OPTS_SCALABLE_D_UXTW,
INS_OPTS_SCALABLE_D_SXTW,
INS_OPTS_MSL, // Vector Immediate (shifting ones variant)
INS_OPTS_S_TO_4BYTE, // Single to INT32
INS_OPTS_D_TO_4BYTE, // Double to INT32
INS_OPTS_S_TO_8BYTE, // Single to INT64
INS_OPTS_D_TO_8BYTE, // Double to INT64
INS_OPTS_4BYTE_TO_S, // INT32 to Single
INS_OPTS_4BYTE_TO_D, // INT32 to Double
INS_OPTS_8BYTE_TO_S, // INT64 to Single
INS_OPTS_8BYTE_TO_D, // INT64 to Double
INS_OPTS_S_TO_D, // Single to Double
INS_OPTS_D_TO_S, // Double to Single
INS_OPTS_H_TO_S, // Half to Single
INS_OPTS_H_TO_D, // Half to Double
INS_OPTS_S_TO_H, // Single to Half
INS_OPTS_D_TO_H, // Double to Half
#if FEATURE_LOOP_ALIGN
INS_OPTS_ALIGN // Align instruction
#endif
};
// When a single instruction has different encodings variants, this is used
// to distinguish those that can't be determined solely by register usage.
enum insScalableOpts : unsigned
{
INS_SCALABLE_OPTS_NONE, // No Variants exist
INS_SCALABLE_OPTS_WIDE, // Variants with wide elements (eg asr)
INS_SCALABLE_OPTS_WITH_SIMD_SCALAR, // Variants with a NEON SIMD register (eg clasta)
INS_SCALABLE_OPTS_PREDICATE_MERGE, // Variants with a Pg/M predicate (eg brka)
INS_SCALABLE_OPTS_WITH_PREDICATE_PAIR, // Variants with {<Pd1>.<T>, <Pd2>.<T>} predicate pair (eg whilege)
INS_SCALABLE_OPTS_VL_2X, // Variants with a vector length specifier of 2x (eg whilege)
INS_SCALABLE_OPTS_VL_4X, // Variants with a vector length specifier of 4x (eg whilege)
INS_SCALABLE_OPTS_LSL_N, // Variants with a LSL #N (eg {<Zt>.<T>}, <Pg>, [<Xn|SP>, <Xm>, LSL #2])
INS_SCALABLE_OPTS_MOD_N, // Variants with a <mod> #N (eg {<Zt>.S }, <Pg>, [<Xn|SP>, <Zm>.S, <mod> #2])
INS_SCALABLE_OPTS_WITH_VECTOR_PAIR, // Variants with {<Zn1>.<T>, <Zn2>.<T>} sve register pair (eg splice)
INS_SCALABLE_OPTS_IMM_BITMASK, // Variants with an immediate that is a bitmask
INS_SCALABLE_OPTS_IMM_FIRST, // Variants with an immediate and a register, where the immediate comes first
// Removable once REG_V0 and REG_P0 are distinct
INS_SCALABLE_OPTS_UNPREDICATED, // Variants without a predicate (eg add)
INS_SCALABLE_OPTS_UNPREDICATED_WIDE, // Variants without a predicate and wide elements (eg asr)
INS_SCALABLE_OPTS_TO_PREDICATE, // Variants moving to a predicate from a vector (e.g. pmov)
INS_SCALABLE_OPTS_TO_VECTOR, // Variants moving to a vector from a predicate (e.g. pmov)
INS_SCALABLE_OPTS_BROADCAST, // Used to distinguish mov from cpy, where mov is an alias for both
};
// Maps directly to the pattern used in SVE instructions such as cntb.
enum insSvePattern : unsigned
{
SVE_PATTERN_POW2 = 0, // The largest power of 2.
SVE_PATTERN_VL1 = 1, // 1 element.
SVE_PATTERN_VL2 = 2, // 2 elements.
SVE_PATTERN_VL3 = 3, // 3 elements.
SVE_PATTERN_VL4 = 4, // 4 elements.
SVE_PATTERN_VL5 = 5, // 5 elements.
SVE_PATTERN_VL6 = 6, // 6 elements.
SVE_PATTERN_VL7 = 7, // 7 elements.
SVE_PATTERN_VL8 = 8, // 8 elements.
SVE_PATTERN_VL16 = 9, // 16 elements.
SVE_PATTERN_VL32 = 10, // 32 elements.
SVE_PATTERN_VL64 = 11, // 64 elements.
SVE_PATTERN_VL128 = 12, // 128 elements.
SVE_PATTERN_VL256 = 13, // 256 elements.
SVE_PATTERN_MUL4 = 29, // The largest multiple of 4.
SVE_PATTERN_MUL3 = 30, // The largest multiple of 3.
SVE_PATTERN_ALL = 31 // All available (implicitly a multiple of two).
};
// Prefetch operation specifier for SVE instructions such as prfb.
enum insSvePrfop : unsigned
{
SVE_PRFOP_PLDL1KEEP = 0b0000,
SVE_PRFOP_PLDL1STRM = 0b0001,
SVE_PRFOP_PLDL2KEEP = 0b0010,
SVE_PRFOP_PLDL2STRM = 0b0011,
SVE_PRFOP_PLDL3KEEP = 0b0100,
SVE_PRFOP_PLDL3STRM = 0b0101,
SVE_PRFOP_PSTL1KEEP = 0b1000,
SVE_PRFOP_PSTL1STRM = 0b1001,
SVE_PRFOP_PSTL2KEEP = 0b1010,
SVE_PRFOP_PSTL2STRM = 0b1011,
SVE_PRFOP_PSTL3KEEP = 0b1100,
SVE_PRFOP_PSTL3STRM = 0b1101,
SVE_PRFOP_CONST6 = 0b0110,
SVE_PRFOP_CONST7 = 0b0111,
SVE_PRFOP_CONST14 = 0b1110,
SVE_PRFOP_CONST15 = 0b1111
};
enum insCond : unsigned
{
INS_COND_EQ,
INS_COND_NE,
INS_COND_HS,
INS_COND_LO,
INS_COND_MI,
INS_COND_PL,
INS_COND_VS,
INS_COND_VC,
INS_COND_HI,
INS_COND_LS,
INS_COND_GE,
INS_COND_LT,
INS_COND_GT,
INS_COND_LE,
};
enum insBarrier : unsigned
{
INS_BARRIER_OSHLD = 1,
INS_BARRIER_OSHST = 2,
INS_BARRIER_OSH = 3,
INS_BARRIER_NSHLD = 5,
INS_BARRIER_NSHST = 6,
INS_BARRIER_NSH = 7,
INS_BARRIER_ISHLD = 9,
INS_BARRIER_ISHST = 10,
INS_BARRIER_ISH = 11,
INS_BARRIER_LD = 13,
INS_BARRIER_ST = 14,
INS_BARRIER_SY = 15,
};
#elif defined(TARGET_LOONGARCH64)
enum insOpts : unsigned
{
INS_OPTS_NONE,
INS_OPTS_RC, // see ::emitIns_R_C().
INS_OPTS_RL, // see ::emitIns_R_L().
INS_OPTS_JIRL, // see ::emitIns_J_R().
INS_OPTS_J, // see ::emitIns_J().
INS_OPTS_J_cond, // see ::emitIns_J_cond_la().
INS_OPTS_I, // see ::emitIns_I_la().
INS_OPTS_C, // see ::emitIns_Call().
INS_OPTS_RELOC, // see ::emitIns_R_AI().
};
enum insBarrier : unsigned
{
// TODO-LOONGARCH64-CQ: ALL there are the same value right now.
// These are reserved for future extension.
// Because the LoongArch64 doesn't support these right now.
INS_BARRIER_FULL = 0,
INS_BARRIER_WMB = INS_BARRIER_FULL,//4,
INS_BARRIER_MB = INS_BARRIER_FULL,//16,
INS_BARRIER_ACQ = INS_BARRIER_FULL,//17,
INS_BARRIER_REL = INS_BARRIER_FULL,//18,
INS_BARRIER_RMB = INS_BARRIER_FULL,//19,
};
#elif defined(TARGET_RISCV64)
enum insOpts : unsigned
{
INS_OPTS_NONE,
INS_OPTS_RC, // see ::emitIns_R_C().
INS_OPTS_RL, // see ::emitIns_R_L().
INS_OPTS_JALR, // see ::emitIns_J_R().
INS_OPTS_J, // see ::emitIns_J().
INS_OPTS_J_cond, // see ::emitIns_J_cond_la().
INS_OPTS_I, // see ::emitLoadImmediate().
INS_OPTS_C, // see ::emitIns_Call().
INS_OPTS_RELOC, // see ::emitIns_R_AI().
};
enum insBarrier : unsigned
{
INS_BARRIER_FULL = 0x33,
};
#endif
#if defined(TARGET_XARCH)
// Represents tupletype attribute of instruction.
// This is used in determining factor N while calculating compressed displacement in EVEX encoding
// Reference: Section 2.6.5 in Intel 64 and ia-32 architectures software developer's manual volume 2.
enum insTupleType : uint16_t
{
INS_TT_NONE = 0x0000,
INS_TT_FULL = 0x0001,
INS_TT_HALF = 0x0002,
INS_TT_IS_BROADCAST = static_cast<uint16_t>(INS_TT_FULL | INS_TT_HALF),
INS_TT_FULL_MEM = 0x0010,
INS_TT_TUPLE1_SCALAR = 0x0020,
INS_TT_TUPLE1_FIXED = 0x0040,
INS_TT_TUPLE2 = 0x0080,
INS_TT_TUPLE4 = 0x0100,
INS_TT_TUPLE8 = 0x0200,
INS_TT_HALF_MEM = 0x0400,
INS_TT_QUARTER_MEM = 0x0800,
INS_TT_EIGHTH_MEM = 0x1000,
INS_TT_MEM128 = 0x2000,
INS_TT_MOVDDUP = 0x4000,
INS_TT_IS_NON_BROADCAST = static_cast<uint16_t>(~INS_TT_IS_BROADCAST),
};
#endif
#undef EA_UNKNOWN
enum emitAttr : unsigned
{
EA_UNKNOWN = 0x000,
EA_1BYTE = 0x001,
EA_2BYTE = 0x002,
EA_4BYTE = 0x004,
EA_8BYTE = 0x008,
EA_16BYTE = 0x010,
#if defined(TARGET_ARM64)
EA_SCALABLE = 0x020,
EA_SIZE_MASK = 0x03F,
#elif defined(TARGET_XARCH)
EA_32BYTE = 0x020,
EA_64BYTE = 0x040,
EA_SIZE_MASK = 0x07F,
#else
EA_SIZE_MASK = 0x01F,
#endif
#ifdef TARGET_64BIT
EA_PTRSIZE = EA_8BYTE,
#else
EA_PTRSIZE = EA_4BYTE,
#endif
EA_OFFSET_FLG = 0x080,
EA_OFFSET = EA_OFFSET_FLG | EA_PTRSIZE, /* size == 0 */
EA_GCREF_FLG = 0x100,
EA_GCREF = EA_GCREF_FLG | EA_PTRSIZE, /* size == -1 */
EA_BYREF_FLG = 0x200,
EA_BYREF = EA_BYREF_FLG | EA_PTRSIZE, /* size == -2 */
EA_DSP_RELOC_FLG = 0x400, // Is the displacement of the instruction relocatable?
EA_CNS_RELOC_FLG = 0x800, // Is the immediate of the instruction relocatable?
EA_CNS_SEC_RELOC = 0x1000, // Is the offset immediate that should be relocatable
EA_CNS_TLSGD_RELOC = 0x2000, // Is the tlsgd constant to pass to tls_get_addr(). Only on linux/x64/NativeAot
};
#define EA_ATTR(x) ((emitAttr)(x))
#define EA_SIZE(x) ((emitAttr)(((unsigned)(x)) & EA_SIZE_MASK))
#define EA_SIZE_IN_BYTES(x) ((UNATIVE_OFFSET)(EA_SIZE(x)))
#define EA_SET_FLG(x, flg) ((emitAttr)(((unsigned)(x)) | (flg)))
#define EA_REMOVE_FLG(x, flg) ((emitAttr)(((unsigned)(x)) & ~(flg)))
#define EA_4BYTE_DSP_RELOC (EA_SET_FLG(EA_4BYTE, EA_DSP_RELOC_FLG))
#define EA_PTR_DSP_RELOC (EA_SET_FLG(EA_PTRSIZE, EA_DSP_RELOC_FLG))
#define EA_HANDLE_CNS_RELOC (EA_SET_FLG(EA_PTRSIZE, EA_CNS_RELOC_FLG))
#define EA_IS_OFFSET(x) ((((unsigned)(x)) & ((unsigned)EA_OFFSET_FLG)) != 0)
#define EA_IS_GCREF(x) ((((unsigned)(x)) & ((unsigned)EA_GCREF_FLG)) != 0)
#define EA_IS_BYREF(x) ((((unsigned)(x)) & ((unsigned)EA_BYREF_FLG)) != 0)
#define EA_IS_GCREF_OR_BYREF(x) ((((unsigned)(x)) & ((unsigned)(EA_BYREF_FLG | EA_GCREF_FLG))) != 0)
#define EA_IS_DSP_RELOC(x) ((((unsigned)(x)) & ((unsigned)EA_DSP_RELOC_FLG)) != 0)
#define EA_IS_CNS_RELOC(x) ((((unsigned)(x)) & ((unsigned)EA_CNS_RELOC_FLG)) != 0)
#define EA_IS_CNS_SEC_RELOC(x) ((((unsigned)(x)) & ((unsigned)EA_CNS_SEC_RELOC)) != 0)
#define EA_IS_CNS_TLSGD_RELOC(x) ((((unsigned)(x)) & ((unsigned)EA_CNS_TLSGD_RELOC)) != 0)
#define EA_IS_RELOC(x) (EA_IS_DSP_RELOC(x) || EA_IS_CNS_RELOC(x))
#define EA_TYPE(x) ((emitAttr)(((unsigned)(x)) & ~(EA_OFFSET_FLG | EA_DSP_RELOC_FLG | EA_CNS_RELOC_FLG)))
// clang-format on
/*****************************************************************************/
#endif //_INSTR_H_
/*****************************************************************************/