binutils-gdb/opcodes/aarch64-tbl.h

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/* aarch64-tbl.h -- AArch64 opcode description table and instruction
operand description table.
Copyright 2012, 2013 Free Software Foundation, Inc.
This file is part of the GNU opcodes library.
This library is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
It 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. See the GNU General Public
License for more details.
You should have received a copy of the GNU General Public License
along with this file; see the file COPYING. If not, write to the
Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
#include "aarch64-opc.h"
/* Operand type. */
#define OPND(x) AARCH64_OPND_##x
#define OP0() {}
#define OP1(a) {OPND(a)}
#define OP2(a,b) {OPND(a), OPND(b)}
#define OP3(a,b,c) {OPND(a), OPND(b), OPND(c)}
#define OP4(a,b,c,d) {OPND(a), OPND(b), OPND(c), OPND(d)}
#define OP5(a,b,c,d,e) {OPND(a), OPND(b), OPND(c), OPND(d), OPND(e)}
#define QLF(x) AARCH64_OPND_QLF_##x
#define QLF1(a) {QLF(a)}
#define QLF2(a,b) {QLF(a), QLF(b)}
#define QLF3(a,b,c) {QLF(a), QLF(b), QLF(c)}
#define QLF4(a,b,c,d) {QLF(a), QLF(b), QLF(c), QLF(d)}
#define QLF5(a,b,c,d,e) {QLF(a), QLF(b), QLF(c), QLF(d), QLF(e)}
/* Qualifiers list. */
/* e.g. MSR <systemreg>, <Xt>. */
#define QL_SRC_X \
{ \
QLF2(NIL,X), \
}
/* e.g. MRS <Xt>, <systemreg>. */
#define QL_DST_X \
{ \
QLF2(X,NIL), \
}
/* e.g. SYS #<op1>, <Cn>, <Cm>, #<op2>{, <Xt>}. */
#define QL_SYS \
{ \
QLF5(NIL,NIL,NIL,NIL,X), \
}
/* e.g. SYSL <Xt>, #<op1>, <Cn>, <Cm>, #<op2>. */
#define QL_SYSL \
{ \
QLF5(X,NIL,NIL,NIL,NIL), \
}
/* e.g. ADRP <Xd>, <label>. */
#define QL_ADRP \
{ \
QLF2(X,NIL), \
}
/* e.g. B.<cond> <label>. */
#define QL_PCREL_NIL \
{ \
QLF1(NIL), \
}
/* e.g. TBZ <Xt>, #<imm>, <label>. */
#define QL_PCREL_14 \
{ \
QLF3(X,imm_0_63,NIL), \
}
/* e.g. BL <label>. */
#define QL_PCREL_26 \
{ \
QLF1(NIL), \
}
/* e.g. LDRSW <Xt>, <label>. */
#define QL_X_PCREL \
{ \
QLF2(X,NIL), \
}
/* e.g. LDR <Wt>, <label>. */
#define QL_R_PCREL \
{ \
QLF2(W,NIL), \
QLF2(X,NIL), \
}
/* e.g. LDR <Dt>, <label>. */
#define QL_FP_PCREL \
{ \
QLF2(S_S,NIL), \
QLF2(S_D,NIL), \
QLF2(S_Q,NIL), \
}
/* e.g. PRFM <prfop>, <label>. */
#define QL_PRFM_PCREL \
{ \
QLF2(NIL,NIL), \
}
/* e.g. BR <Xn>. */
#define QL_I1X \
{ \
QLF1(X), \
}
/* e.g. RBIT <Wd>, <Wn>. */
#define QL_I2SAME \
{ \
QLF2(W,W), \
QLF2(X,X), \
}
/* e.g. CMN <Wn|WSP>, <Wm>{, <extend> {#<amount>}}. */
#define QL_I2_EXT \
{ \
QLF2(W,W), \
QLF2(X,W), \
QLF2(X,X), \
}
/* e.g. MOV <Wd|WSP>, <Wn|WSP>, at least one SP. */
#define QL_I2SP \
{ \
QLF2(WSP,W), \
QLF2(W,WSP), \
QLF2(SP,X), \
QLF2(X,SP), \
}
/* e.g. REV <Wd>, <Wn>. */
#define QL_I2SAMEW \
{ \
QLF2(W,W), \
}
/* e.g. REV32 <Xd>, <Xn>. */
#define QL_I2SAMEX \
{ \
QLF2(X,X), \
}
#define QL_I2SAMER \
{ \
QLF2(W,W), \
QLF2(X,X), \
}
/* e.g. CRC32B <Wd>, <Wn>, <Wm>. */
#define QL_I3SAMEW \
{ \
QLF3(W,W,W), \
}
/* e.g. SMULH <Xd>, <Xn>, <Xm>. */
#define QL_I3SAMEX \
{ \
QLF3(X,X,X), \
}
/* e.g. CRC32X <Wd>, <Wn>, <Xm>. */
#define QL_I3WWX \
{ \
QLF3(W,W,X), \
}
/* e.g. UDIV <Xd>, <Xn>, <Xm>. */
#define QL_I3SAMER \
{ \
QLF3(W,W,W), \
QLF3(X,X,X), \
}
/* e.g. ADDS <Xd>, <Xn|SP>, <R><m>{, <extend> {#<amount>}}. */
#define QL_I3_EXT \
{ \
QLF3(W,W,W), \
QLF3(X,X,W), \
QLF3(X,X,X), \
}
/* e.g. MADD <Xd>, <Xn>, <Xm>, <Xa>. */
#define QL_I4SAMER \
{ \
QLF4(W,W,W,W), \
QLF4(X,X,X,X), \
}
/* e.g. SMADDL <Xd>, <Wn>, <Wm>, <Xa>. */
#define QL_I3SAMEL \
{ \
QLF3(X,W,W), \
}
/* e.g. SMADDL <Xd>, <Wn>, <Wm>, <Xa>. */
#define QL_I4SAMEL \
{ \
QLF4(X,W,W,X), \
}
/* e.g. CSINC <Xd>, <Xn>, <Xm>, <cond>. */
#define QL_CSEL \
{ \
QLF4(W, W, W, NIL), \
QLF4(X, X, X, NIL), \
}
/* e.g. CSET <Wd>, <cond>. */
#define QL_DST_R \
{ \
QLF2(W, NIL), \
QLF2(X, NIL), \
}
/* e.g. BFM <Wd>, <Wn>, #<immr>, #<imms>. */
#define QL_BF \
{ \
QLF4(W,W,imm_0_31,imm_0_31), \
QLF4(X,X,imm_0_63,imm_0_63), \
}
/* e.g. UBFIZ <Wd>, <Wn>, #<lsb>, #<width>. */
#define QL_BF2 \
{ \
QLF4(W,W,imm_0_31,imm_1_32), \
QLF4(X,X,imm_0_63,imm_1_64), \
}
/* e.g. SCVTF <Sd>, <Xn>, #<fbits>. */
#define QL_FIX2FP \
{ \
QLF3(S_D,W,imm_1_32), \
QLF3(S_S,W,imm_1_32), \
QLF3(S_D,X,imm_1_64), \
QLF3(S_S,X,imm_1_64), \
}
/* e.g. FCVTZS <Wd>, <Dn>, #<fbits>. */
#define QL_FP2FIX \
{ \
QLF3(W,S_D,imm_1_32), \
QLF3(W,S_S,imm_1_32), \
QLF3(X,S_D,imm_1_64), \
QLF3(X,S_S,imm_1_64), \
}
/* e.g. SCVTF <Dd>, <Wn>. */
#define QL_INT2FP \
{ \
QLF2(S_D,W), \
QLF2(S_S,W), \
QLF2(S_D,X), \
QLF2(S_S,X), \
}
/* e.g. FCVTNS <Xd>, <Dn>. */
#define QL_FP2INT \
{ \
QLF2(W,S_D), \
QLF2(W,S_S), \
QLF2(X,S_D), \
QLF2(X,S_S), \
}
/* e.g. FMOV <Xd>, <Vn>.D[1]. */
#define QL_XVD1 \
{ \
QLF2(X,S_D), \
}
/* e.g. FMOV <Vd>.D[1], <Xn>. */
#define QL_VD1X \
{ \
QLF2(S_D,X), \
}
/* e.g. EXTR <Xd>, <Xn>, <Xm>, #<lsb>. */
#define QL_EXTR \
{ \
QLF4(W,W,W,imm_0_31), \
QLF4(X,X,X,imm_0_63), \
}
/* e.g. LSL <Wd>, <Wn>, #<uimm>. */
#define QL_SHIFT \
{ \
QLF3(W,W,imm_0_31), \
QLF3(X,X,imm_0_63), \
}
/* e.g. UXTH <Xd>, <Wn>. */
#define QL_EXT \
{ \
QLF2(W,W), \
QLF2(X,W), \
}
/* e.g. UXTW <Xd>, <Wn>. */
#define QL_EXT_W \
{ \
QLF2(X,W), \
}
/* e.g. SQSHL <V><d>, <V><n>, #<shift>. */
#define QL_SSHIFT \
{ \
QLF3(S_B , S_B , S_B ), \
QLF3(S_H , S_H , S_H ), \
QLF3(S_S , S_S , S_S ), \
QLF3(S_D , S_D , S_D ) \
}
/* e.g. SSHR <V><d>, <V><n>, #<shift>. */
#define QL_SSHIFT_D \
{ \
QLF3(S_D , S_D , S_D ) \
}
/* e.g. UCVTF <Vd>.<T>, <Vn>.<T>, #<fbits>. */
#define QL_SSHIFT_SD \
{ \
QLF3(S_S , S_S , S_S ), \
QLF3(S_D , S_D , S_D ) \
}
/* e.g. SQSHRUN <Vb><d>, <Va><n>, #<shift>. */
#define QL_SSHIFTN \
{ \
QLF3(S_B , S_H , S_B ), \
QLF3(S_H , S_S , S_H ), \
QLF3(S_S , S_D , S_S ), \
}
/* e.g. SSHR <Vd>.<T>, <Vn>.<T>, #<shift>.
The register operand variant qualifiers are deliberately used for the
immediate operand to ease the operand encoding/decoding and qualifier
sequence matching. */
#define QL_VSHIFT \
{ \
QLF3(V_8B , V_8B , V_8B ), \
QLF3(V_16B, V_16B, V_16B), \
QLF3(V_4H , V_4H , V_4H ), \
QLF3(V_8H , V_8H , V_8H ), \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
QLF3(V_2D , V_2D , V_2D ) \
}
/* e.g. SCVTF <Vd>.<T>, <Vn>.<T>, #<fbits>. */
#define QL_VSHIFT_SD \
{ \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
QLF3(V_2D , V_2D , V_2D ) \
}
/* e.g. SHRN<Q> <Vd>.<Tb>, <Vn>.<Ta>, #<shift>. */
#define QL_VSHIFTN \
{ \
QLF3(V_8B , V_8H , V_8B ), \
QLF3(V_4H , V_4S , V_4H ), \
QLF3(V_2S , V_2D , V_2S ), \
}
/* e.g. SHRN<Q> <Vd>.<Tb>, <Vn>.<Ta>, #<shift>. */
#define QL_VSHIFTN2 \
{ \
QLF3(V_16B, V_8H, V_16B), \
QLF3(V_8H , V_4S , V_8H ), \
QLF3(V_4S , V_2D , V_4S ), \
}
/* e.g. SSHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>.
the 3rd qualifier is used to help the encoding. */
#define QL_VSHIFTL \
{ \
QLF3(V_8H , V_8B , V_8B ), \
QLF3(V_4S , V_4H , V_4H ), \
QLF3(V_2D , V_2S , V_2S ), \
}
/* e.g. SSHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */
#define QL_VSHIFTL2 \
{ \
QLF3(V_8H , V_16B, V_16B), \
QLF3(V_4S , V_8H , V_8H ), \
QLF3(V_2D , V_4S , V_4S ), \
}
/* e.g. TBL. */
#define QL_TABLE \
{ \
QLF3(V_8B , V_16B, V_8B ), \
QLF3(V_16B, V_16B, V_16B), \
}
/* e.g. SHA1H. */
#define QL_2SAMES \
{ \
QLF2(S_S, S_S), \
}
/* e.g. ABS <V><d>, <V><n>. */
#define QL_2SAMED \
{ \
QLF2(S_D, S_D), \
}
/* e.g. CMGT <V><d>, <V><n>, #0. */
#define QL_SISD_CMP_0 \
{ \
QLF3(S_D, S_D, NIL), \
}
/* e.g. FCMEQ <V><d>, <V><n>, #0. */
#define QL_SISD_FCMP_0 \
{ \
QLF3(S_S, S_S, NIL), \
QLF3(S_D, S_D, NIL), \
}
/* e.g. FMAXNMP <V><d>, <Vn>.<T>. */
#define QL_SISD_PAIR \
{ \
QLF2(S_S, V_2S), \
QLF2(S_D, V_2D), \
}
/* e.g. ADDP <V><d>, <Vn>.<T>. */
#define QL_SISD_PAIR_D \
{ \
QLF2(S_D, V_2D), \
}
/* e.g. DUP <V><d>, <Vn>.<T>[<index>]. */
#define QL_S_2SAME \
{ \
QLF2(S_B, S_B), \
QLF2(S_H, S_H), \
QLF2(S_S, S_S), \
QLF2(S_D, S_D), \
}
/* e.g. FCVTNS <V><d>, <V><n>. */
#define QL_S_2SAMESD \
{ \
QLF2(S_S, S_S), \
QLF2(S_D, S_D), \
}
/* e.g. SQXTN <Vb><d>, <Va><n>. */
#define QL_SISD_NARROW \
{ \
QLF2(S_B, S_H), \
QLF2(S_H, S_S), \
QLF2(S_S, S_D), \
}
/* e.g. FCVTXN <Vb><d>, <Va><n>. */
#define QL_SISD_NARROW_S \
{ \
QLF2(S_S, S_D), \
}
/* e.g. FCVT. */
#define QL_FCVT \
{ \
QLF2(S_S, S_H), \
QLF2(S_S, S_D), \
QLF2(S_D, S_H), \
QLF2(S_D, S_S), \
QLF2(S_H, S_S), \
QLF2(S_H, S_D), \
}
/* FMOV <Dd>, <Dn>. */
#define QL_FP2 \
{ \
QLF2(S_S, S_S), \
QLF2(S_D, S_D), \
}
/* e.g. SQADD <V><d>, <V><n>, <V><m>. */
#define QL_S_3SAME \
{ \
QLF3(S_B, S_B, S_B), \
QLF3(S_H, S_H, S_H), \
QLF3(S_S, S_S, S_S), \
QLF3(S_D, S_D, S_D), \
}
/* e.g. CMGE <V><d>, <V><n>, <V><m>. */
#define QL_S_3SAMED \
{ \
QLF3(S_D, S_D, S_D), \
}
/* e.g. SQDMULH <V><d>, <V><n>, <V><m>. */
#define QL_SISD_HS \
{ \
QLF3(S_H, S_H, S_H), \
QLF3(S_S, S_S, S_S), \
}
/* e.g. SQDMLAL <Va><d>, <Vb><n>, <Vb><m>. */
#define QL_SISDL_HS \
{ \
QLF3(S_S, S_H, S_H), \
QLF3(S_D, S_S, S_S), \
}
/* FMUL <Sd>, <Sn>, <Sm>. */
#define QL_FP3 \
{ \
QLF3(S_S, S_S, S_S), \
QLF3(S_D, S_D, S_D), \
}
/* FMADD <Dd>, <Dn>, <Dm>, <Da>. */
#define QL_FP4 \
{ \
QLF4(S_S, S_S, S_S, S_S), \
QLF4(S_D, S_D, S_D, S_D), \
}
/* e.g. FCMP <Dn>, #0.0. */
#define QL_DST_SD \
{ \
QLF2(S_S, NIL), \
QLF2(S_D, NIL), \
}
/* FCSEL <Sd>, <Sn>, <Sm>, <cond>. */
#define QL_FP_COND \
{ \
QLF4(S_S, S_S, S_S, NIL), \
QLF4(S_D, S_D, S_D, NIL), \
}
/* e.g. CCMN <Xn>, <Xm>, #<nzcv>, <cond>. */
#define QL_CCMP \
{ \
QLF4(W, W, NIL, NIL), \
QLF4(X, X, NIL, NIL), \
}
/* e.g. CCMN <Xn>, #<imm>, #<nzcv>, <cond>, */
#define QL_CCMP_IMM \
{ \
QLF4(W, NIL, NIL, NIL), \
QLF4(X, NIL, NIL, NIL), \
}
/* e.g. FCCMP <Sn>, <Sm>, #<nzcv>, <cond>. */
#define QL_FCCMP \
{ \
QLF4(S_S, S_S, NIL, NIL), \
QLF4(S_D, S_D, NIL, NIL), \
}
/* e.g. DUP <Vd>.<T>, <Vn>.<Ts>[<index>]. */
#define QL_DUP_VX \
{ \
QLF2(V_8B , S_B ), \
QLF2(V_16B, S_B ), \
QLF2(V_4H , S_H ), \
QLF2(V_8H , S_H ), \
QLF2(V_2S , S_S ), \
QLF2(V_4S , S_S ), \
QLF2(V_2D , S_D ), \
}
/* e.g. DUP <Vd>.<T>, <Wn>. */
#define QL_DUP_VR \
{ \
QLF2(V_8B , W ), \
QLF2(V_16B, W ), \
QLF2(V_4H , W ), \
QLF2(V_8H , W ), \
QLF2(V_2S , W ), \
QLF2(V_4S , W ), \
QLF2(V_2D , X ), \
}
/* e.g. INS <Vd>.<Ts>[<index>], <Wn>. */
#define QL_INS_XR \
{ \
QLF2(S_H , W ), \
QLF2(S_S , W ), \
QLF2(S_D , X ), \
QLF2(S_B , W ), \
}
/* e.g. SMOV <Wd>, <Vn>.<Ts>[<index>]. */
#define QL_SMOV \
{ \
QLF2(W , S_H), \
QLF2(X , S_H), \
QLF2(X , S_S), \
QLF2(W , S_B), \
QLF2(X , S_B), \
}
/* e.g. UMOV <Wd>, <Vn>.<Ts>[<index>]. */
#define QL_UMOV \
{ \
QLF2(W , S_H), \
QLF2(W , S_S), \
QLF2(X , S_D), \
QLF2(W , S_B), \
}
/* e.g. MOV <Wd>, <Vn>.<Ts>[<index>]. */
#define QL_MOV \
{ \
QLF2(W , S_S), \
QLF2(X , S_D), \
}
/* e.g. SUQADD <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAME \
{ \
QLF2(V_8B , V_8B ), \
QLF2(V_16B, V_16B), \
QLF2(V_4H , V_4H ), \
QLF2(V_8H , V_8H ), \
QLF2(V_2S , V_2S ), \
QLF2(V_4S , V_4S ), \
QLF2(V_2D , V_2D ), \
}
/* e.g. URSQRTE <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAMES \
{ \
QLF2(V_2S , V_2S ), \
QLF2(V_4S , V_4S ), \
}
/* e.g. REV32 <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAMEBH \
{ \
QLF2(V_8B , V_8B ), \
QLF2(V_16B, V_16B), \
QLF2(V_4H , V_4H ), \
QLF2(V_8H , V_8H ), \
}
/* e.g. FRINTN <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAMESD \
{ \
QLF2(V_2S , V_2S ), \
QLF2(V_4S , V_4S ), \
QLF2(V_2D , V_2D ), \
}
/* e.g. REV64 <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAMEBHS \
{ \
QLF2(V_8B , V_8B ), \
QLF2(V_16B, V_16B), \
QLF2(V_4H , V_4H ), \
QLF2(V_8H , V_8H ), \
QLF2(V_2S , V_2S ), \
QLF2(V_4S , V_4S ), \
}
/* e.g. REV16 <Vd>.<T>, <Vn>.<T>. */
#define QL_V2SAMEB \
{ \
QLF2(V_8B , V_8B ), \
QLF2(V_16B, V_16B), \
}
/* e.g. SADDLP <Vd>.<Ta>, <Vn>.<Tb>. */
#define QL_V2PAIRWISELONGBHS \
{ \
QLF2(V_4H , V_8B ), \
QLF2(V_8H , V_16B), \
QLF2(V_2S , V_4H ), \
QLF2(V_4S , V_8H ), \
QLF2(V_1D , V_2S ), \
QLF2(V_2D , V_4S ), \
}
/* e.g. SHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */
#define QL_V2LONGBHS \
{ \
QLF2(V_8H , V_8B ), \
QLF2(V_4S , V_4H ), \
QLF2(V_2D , V_2S ), \
}
/* e.g. SHLL<Q> <Vd>.<Ta>, <Vn>.<Tb>, #<shift>. */
#define QL_V2LONGBHS2 \
{ \
QLF2(V_8H , V_16B), \
QLF2(V_4S , V_8H ), \
QLF2(V_2D , V_4S ), \
}
/* */
#define QL_V3SAME \
{ \
QLF3(V_8B , V_8B , V_8B ), \
QLF3(V_16B, V_16B, V_16B), \
QLF3(V_4H , V_4H , V_4H ), \
QLF3(V_8H , V_8H , V_8H ), \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
QLF3(V_2D , V_2D , V_2D ) \
}
/* e.g. SHADD. */
#define QL_V3SAMEBHS \
{ \
QLF3(V_8B , V_8B , V_8B ), \
QLF3(V_16B, V_16B, V_16B), \
QLF3(V_4H , V_4H , V_4H ), \
QLF3(V_8H , V_8H , V_8H ), \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
}
/* e.g. FCVTXN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRS \
{ \
QLF2(V_2S , V_2D ), \
}
/* e.g. FCVTXN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRS2 \
{ \
QLF2(V_4S , V_2D ), \
}
/* e.g. FCVTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRHS \
{ \
QLF2(V_4H , V_4S ), \
QLF2(V_2S , V_2D ), \
}
/* e.g. FCVTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRHS2 \
{ \
QLF2(V_8H , V_4S ), \
QLF2(V_4S , V_2D ), \
}
/* e.g. FCVTL<Q> <Vd>.<Ta>, <Vn>.<Tb>. */
#define QL_V2LONGHS \
{ \
QLF2(V_4S , V_4H ), \
QLF2(V_2D , V_2S ), \
}
/* e.g. FCVTL<Q> <Vd>.<Ta>, <Vn>.<Tb>. */
#define QL_V2LONGHS2 \
{ \
QLF2(V_4S , V_8H ), \
QLF2(V_2D , V_4S ), \
}
/* e.g. XTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRBHS \
{ \
QLF2(V_8B , V_8H ), \
QLF2(V_4H , V_4S ), \
QLF2(V_2S , V_2D ), \
}
/* e.g. XTN<Q> <Vd>.<Tb>, <Vn>.<Ta>. */
#define QL_V2NARRBHS2 \
{ \
QLF2(V_16B, V_8H ), \
QLF2(V_8H , V_4S ), \
QLF2(V_4S , V_2D ), \
}
/* e.g. ORR. */
#define QL_V2SAMEB \
{ \
QLF2(V_8B , V_8B ), \
QLF2(V_16B, V_16B), \
}
/* e.g. AESE. */
#define QL_V2SAME16B \
{ \
QLF2(V_16B, V_16B), \
}
/* e.g. SHA1SU1. */
#define QL_V2SAME4S \
{ \
QLF2(V_4S, V_4S), \
}
/* e.g. SHA1SU0. */
#define QL_V3SAME4S \
{ \
QLF3(V_4S, V_4S, V_4S), \
}
/* e.g. SHADD. */
#define QL_V3SAMEB \
{ \
QLF3(V_8B , V_8B , V_8B ), \
QLF3(V_16B, V_16B, V_16B), \
}
/* e.g. EXT <Vd>.<T>, <Vn>.<T>, <Vm>.<T>, #<index>. */
#define QL_VEXT \
{ \
QLF4(V_8B , V_8B , V_8B , imm_0_7), \
QLF4(V_16B, V_16B, V_16B, imm_0_15), \
}
/* e.g. . */
#define QL_V3SAMEHS \
{ \
QLF3(V_4H , V_4H , V_4H ), \
QLF3(V_8H , V_8H , V_8H ), \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
}
/* */
#define QL_V3SAMESD \
{ \
QLF3(V_2S , V_2S , V_2S ), \
QLF3(V_4S , V_4S , V_4S ), \
QLF3(V_2D , V_2D , V_2D ) \
}
/* e.g. SQDMLAL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */
#define QL_V3LONGHS \
{ \
QLF3(V_4S , V_4H , V_4H ), \
QLF3(V_2D , V_2S , V_2S ), \
}
/* e.g. SQDMLAL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */
#define QL_V3LONGHS2 \
{ \
QLF3(V_4S , V_8H , V_8H ), \
QLF3(V_2D , V_4S , V_4S ), \
}
/* e.g. SADDL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */
#define QL_V3LONGBHS \
{ \
QLF3(V_8H , V_8B , V_8B ), \
QLF3(V_4S , V_4H , V_4H ), \
QLF3(V_2D , V_2S , V_2S ), \
}
/* e.g. SADDL<Q> <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Tb>. */
#define QL_V3LONGBHS2 \
{ \
QLF3(V_8H , V_16B , V_16B ), \
QLF3(V_4S , V_8H , V_8H ), \
QLF3(V_2D , V_4S , V_4S ), \
}
/* e.g. SADDW<Q> <Vd>.<Ta>, <Vn>.<Ta>, <Vm>.<Tb>. */
#define QL_V3WIDEBHS \
{ \
QLF3(V_8H , V_8H , V_8B ), \
QLF3(V_4S , V_4S , V_4H ), \
QLF3(V_2D , V_2D , V_2S ), \
}
/* e.g. SADDW<Q> <Vd>.<Ta>, <Vn>.<Ta>, <Vm>.<Tb>. */
#define QL_V3WIDEBHS2 \
{ \
QLF3(V_8H , V_8H , V_16B ), \
QLF3(V_4S , V_4S , V_8H ), \
QLF3(V_2D , V_2D , V_4S ), \
}
/* e.g. ADDHN<Q> <Vd>.<Tb>, <Vn>.<Ta>, <Vm>.<Ta>. */
#define QL_V3NARRBHS \
{ \
QLF3(V_8B , V_8H , V_8H ), \
QLF3(V_4H , V_4S , V_4S ), \
QLF3(V_2S , V_2D , V_2D ), \
}
/* e.g. ADDHN<Q> <Vd>.<Tb>, <Vn>.<Ta>, <Vm>.<Ta>. */
#define QL_V3NARRBHS2 \
{ \
QLF3(V_16B , V_8H , V_8H ), \
QLF3(V_8H , V_4S , V_4S ), \
QLF3(V_4S , V_2D , V_2D ), \
}
/* e.g. PMULL. */
#define QL_V3LONGB \
{ \
QLF3(V_8H , V_8B , V_8B ), \
}
/* e.g. PMULL crypto. */
#define QL_V3LONGD \
{ \
QLF3(V_1Q , V_1D , V_1D ), \
}
/* e.g. PMULL2. */
#define QL_V3LONGB2 \
{ \
QLF3(V_8H , V_16B, V_16B), \
}
/* e.g. PMULL2 crypto. */
#define QL_V3LONGD2 \
{ \
QLF3(V_1Q , V_2D , V_2D ), \
}
/* e.g. SHA1C. */
#define QL_SHAUPT \
{ \
QLF3(S_Q, S_S, V_4S), \
}
/* e.g. SHA256H2. */
#define QL_SHA256UPT \
{ \
QLF3(S_Q, S_Q, V_4S), \
}
/* e.g. LDXRB <Wt>, [<Xn|SP>{,#0}]. */
#define QL_W1_LDST_EXC \
{ \
QLF2(W, NIL), \
}
/* e.g. LDXR <Xt>, [<Xn|SP>{,#0}]. */
#define QL_R1NIL \
{ \
QLF2(W, NIL), \
QLF2(X, NIL), \
}
/* e.g. STXRB <Ws>, <Wt>, [<Xn|SP>{,#0}]. */
#define QL_W2_LDST_EXC \
{ \
QLF3(W, W, NIL), \
}
/* e.g. STXR <Ws>, <Xt>, [<Xn|SP>{,#0}]. */
#define QL_R2_LDST_EXC \
{ \
QLF3(W, W, NIL), \
QLF3(W, X, NIL), \
}
/* e.g. LDXP <Xt1>, <Xt2>, [<Xn|SP>{,#0}]. */
#define QL_R2NIL \
{ \
QLF3(W, W, NIL), \
QLF3(X, X, NIL), \
}
/* e.g. STXP <Ws>, <Xt1>, <Xt2>, [<Xn|SP>{,#0}]. */
#define QL_R3_LDST_EXC \
{ \
QLF4(W, W, W, NIL), \
QLF4(W, X, X, NIL), \
}
/* e.g. STR <Qt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_FP \
{ \
QLF2(S_B, S_B), \
QLF2(S_H, S_H), \
QLF2(S_S, S_S), \
QLF2(S_D, S_D), \
QLF2(S_Q, S_Q), \
}
/* e.g. STR <Xt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_R \
{ \
QLF2(W, S_S), \
QLF2(X, S_D), \
}
/* e.g. STRB <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_W8 \
{ \
QLF2(W, S_B), \
}
/* e.g. LDRSB <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_R8 \
{ \
QLF2(W, S_B), \
QLF2(X, S_B), \
}
/* e.g. STRH <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_W16 \
{ \
QLF2(W, S_H), \
}
/* e.g. LDRSW <Xt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_X32 \
{ \
QLF2(X, S_S), \
}
/* e.g. LDRSH <Wt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_R16 \
{ \
QLF2(W, S_H), \
QLF2(X, S_H), \
}
/* e.g. PRFM <prfop>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */
#define QL_LDST_PRFM \
{ \
QLF2(NIL, S_D), \
}
/* e.g. LDPSW <Xt1>, <Xt2>, [<Xn|SP>{, #<imm>}]. */
#define QL_LDST_PAIR_X32 \
{ \
QLF3(X, X, S_S), \
}
/* e.g. STP <Wt1>, <Wt2>, [<Xn|SP>, #<imm>]!. */
#define QL_LDST_PAIR_R \
{ \
QLF3(W, W, S_S), \
QLF3(X, X, S_D), \
}
/* e.g. STNP <Qt1>, <Qt2>, [<Xn|SP>{, #<imm>}]. */
#define QL_LDST_PAIR_FP \
{ \
QLF3(S_S, S_S, S_S), \
QLF3(S_D, S_D, S_D), \
QLF3(S_Q, S_Q, S_Q), \
}
/* e.g. LD3 {<Vt>.<T>, <Vt2>.<T>, <Vt3>.<T>}, [<Xn|SP>]. */
#define QL_SIMD_LDST \
{ \
QLF2(V_8B, NIL), \
QLF2(V_16B, NIL), \
QLF2(V_4H, NIL), \
QLF2(V_8H, NIL), \
QLF2(V_2S, NIL), \
QLF2(V_4S, NIL), \
QLF2(V_2D, NIL), \
}
/* e.g. LD1 {<Vt>.<T>, <Vt2>.<T>, <Vt3>.<T>}, [<Xn|SP>]. */
#define QL_SIMD_LDST_ANY \
{ \
QLF2(V_8B, NIL), \
QLF2(V_16B, NIL), \
QLF2(V_4H, NIL), \
QLF2(V_8H, NIL), \
QLF2(V_2S, NIL), \
QLF2(V_4S, NIL), \
QLF2(V_1D, NIL), \
QLF2(V_2D, NIL), \
}
/* e.g. LD4 {<Vt>.<T>, <Vt2a>.<T>, <Vt3a>.<T>, <Vt4a>.<T>}[<index>], [<Xn|SP>]. */
#define QL_SIMD_LDSTONE \
{ \
QLF2(S_B, NIL), \
QLF2(S_H, NIL), \
QLF2(S_S, NIL), \
QLF2(S_D, NIL), \
}
/* e.g. ADDV <V><d>, <Vn>.<T>. */
#define QL_XLANES \
{ \
QLF2(S_B, V_8B), \
QLF2(S_B, V_16B), \
QLF2(S_H, V_4H), \
QLF2(S_H, V_8H), \
QLF2(S_S, V_4S), \
}
/* e.g. FMINV <V><d>, <Vn>.<T>. */
#define QL_XLANES_FP \
{ \
QLF2(S_S, V_4S), \
}
/* e.g. SADDLV <V><d>, <Vn>.<T>. */
#define QL_XLANES_L \
{ \
QLF2(S_H, V_8B), \
QLF2(S_H, V_16B), \
QLF2(S_S, V_4H), \
QLF2(S_S, V_8H), \
QLF2(S_D, V_4S), \
}
/* e.g. MUL <Vd>.<T>, <Vn>.<T>, <Vm>.<Ts>[<index>]. */
#define QL_ELEMENT \
{ \
QLF3(V_4H, V_4H, S_H), \
QLF3(V_8H, V_8H, S_H), \
QLF3(V_2S, V_2S, S_S), \
QLF3(V_4S, V_4S, S_S), \
}
/* e.g. SMLAL <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Ts>[<index>]. */
#define QL_ELEMENT_L \
{ \
QLF3(V_4S, V_4H, S_H), \
QLF3(V_2D, V_2S, S_S), \
}
/* e.g. SMLAL2 <Vd>.<Ta>, <Vn>.<Tb>, <Vm>.<Ts>[<index>]. */
#define QL_ELEMENT_L2 \
{ \
QLF3(V_4S, V_8H, S_H), \
QLF3(V_2D, V_4S, S_S), \
}
/* e.g. FMLA <V><d>, <V><n>, <Vm>.<Ts>[<index>]. */
#define QL_ELEMENT_FP \
{ \
QLF3(V_2S, V_2S, S_S), \
QLF3(V_4S, V_4S, S_S), \
QLF3(V_2D, V_2D, S_D), \
}
/* e.g. MOVI <Vd>.4S, #<imm8> {, LSL #<amount>}. */
#define QL_SIMD_IMM_S0W \
{ \
QLF2(V_2S, LSL), \
QLF2(V_4S, LSL), \
}
/* e.g. MOVI <Vd>.4S, #<imm8>, MSL #<amount>. */
#define QL_SIMD_IMM_S1W \
{ \
QLF2(V_2S, MSL), \
QLF2(V_4S, MSL), \
}
/* e.g. MOVI <Vd>.4H, #<imm8> {, LSL #<amount>}. */
#define QL_SIMD_IMM_S0H \
{ \
QLF2(V_4H, LSL), \
QLF2(V_8H, LSL), \
}
/* e.g. FMOV <Vd>.<T>, #<imm>. */
#define QL_SIMD_IMM_S \
{ \
QLF2(V_2S, NIL), \
QLF2(V_4S, NIL), \
}
/* e.g. MOVI <Vd>.8B, #<imm8> {, LSL #<amount>}. */
#define QL_SIMD_IMM_B \
{ \
QLF2(V_8B, LSL), \
QLF2(V_16B, LSL), \
}
/* e.g. MOVI <Dd>, #<imm>. */
#define QL_SIMD_IMM_D \
{ \
QLF2(S_D, NIL), \
}
/* e.g. MOVI <Vd>.2D, #<imm>. */
#define QL_SIMD_IMM_V2D \
{ \
QLF2(V_2D, NIL), \
}
/* Opcode table. */
static const aarch64_feature_set aarch64_feature_v8 =
AARCH64_FEATURE (AARCH64_FEATURE_V8, 0);
static const aarch64_feature_set aarch64_feature_fp =
AARCH64_FEATURE (AARCH64_FEATURE_FP, 0);
static const aarch64_feature_set aarch64_feature_simd =
AARCH64_FEATURE (AARCH64_FEATURE_SIMD, 0);
static const aarch64_feature_set aarch64_feature_crypto =
AARCH64_FEATURE (AARCH64_FEATURE_CRYPTO, 0);
static const aarch64_feature_set aarch64_feature_crc =
AARCH64_FEATURE (AARCH64_FEATURE_CRC, 0);
#define CORE &aarch64_feature_v8
#define FP &aarch64_feature_fp
#define SIMD &aarch64_feature_simd
#define CRYPTO &aarch64_feature_crypto
#define CRC &aarch64_feature_crc
struct aarch64_opcode aarch64_opcode_table[] =
{
/* Add/subtract (with carry). */
{"adc", 0x1a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF},
{"adcs", 0x3a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF},
{"sbc", 0x5a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"ngc", 0x5a0003e0, 0x7fe0ffe0, addsub_carry, 0, CORE, OP2 (Rd, Rm), QL_I2SAME, F_ALIAS | F_SF},
{"sbcs", 0x7a000000, 0x7fe0fc00, addsub_carry, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"ngcs", 0x7a0003e0, 0x7fe0ffe0, addsub_carry, 0, CORE, OP2 (Rd, Rm), QL_I2SAME, F_ALIAS | F_SF},
/* Add/subtract (extended register). */
{"add", 0x0b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd_SP, Rn_SP, Rm_EXT), QL_I3_EXT, F_SF},
{"adds", 0x2b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd, Rn_SP, Rm_EXT), QL_I3_EXT, F_HAS_ALIAS | F_SF},
{"cmn", 0x2b20001f, 0x7fe0001f, addsub_ext, 0, CORE, OP2 (Rn_SP, Rm_EXT), QL_I2_EXT, F_ALIAS | F_SF},
{"sub", 0x4b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd_SP, Rn_SP, Rm_EXT), QL_I3_EXT, F_SF},
{"subs", 0x6b200000, 0x7fe00000, addsub_ext, 0, CORE, OP3 (Rd, Rn_SP, Rm_EXT), QL_I3_EXT, F_HAS_ALIAS | F_SF},
{"cmp", 0x6b20001f, 0x7fe0001f, addsub_ext, 0, CORE, OP2 (Rn_SP, Rm_EXT), QL_I2_EXT, F_ALIAS | F_SF},
/* Add/subtract (immediate). */
{"add", 0x11000000, 0x7f000000, addsub_imm, OP_ADD, CORE, OP3 (Rd_SP, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"mov", 0x11000000, 0x7ffffc00, addsub_imm, 0, CORE, OP2 (Rd_SP, Rn_SP), QL_I2SP, F_ALIAS | F_SF},
{"adds", 0x31000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"cmn", 0x3100001f, 0x7f00001f, addsub_imm, 0, CORE, OP2 (Rn_SP, AIMM), QL_R1NIL, F_ALIAS | F_SF},
{"sub", 0x51000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd_SP, Rn_SP, AIMM), QL_R2NIL, F_SF},
{"subs", 0x71000000, 0x7f000000, addsub_imm, 0, CORE, OP3 (Rd, Rn_SP, AIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"cmp", 0x7100001f, 0x7f00001f, addsub_imm, 0, CORE, OP2 (Rn_SP, AIMM), QL_R1NIL, F_ALIAS | F_SF},
/* Add/subtract (shifted register). */
{"add", 0xb000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
{"adds", 0x2b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"cmn", 0x2b00001f, 0x7f20001f, addsub_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF},
{"sub", 0x4b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"neg", 0x4b0003e0, 0x7f2003e0, addsub_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF},
{"subs", 0x6b000000, 0x7f200000, addsub_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"cmp", 0x6b00001f, 0x7f20001f, addsub_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF},
{"negs", 0x6b0003e0, 0x7f2003e0, addsub_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAME, F_ALIAS | F_SF},
/* AdvSIMD across lanes. */
{"saddlv", 0xe303800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_L, F_SIZEQ},
{"smaxv", 0xe30a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ},
{"sminv", 0xe31a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ},
{"addv", 0xe31b800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ},
{"uaddlv", 0x2e303800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_L, F_SIZEQ},
{"umaxv", 0x2e30a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ},
{"uminv", 0x2e31a800, 0xbf3ffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES, F_SIZEQ},
{"fmaxnmv", 0x2e30c800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ},
{"fmaxv", 0x2e30f800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ},
{"fminnmv", 0x2eb0c800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ},
{"fminv", 0x2eb0f800, 0xbfbffc00, asimdall, 0, SIMD, OP2 (Fd, Vn), QL_XLANES_FP, F_SIZEQ},
/* AdvSIMD three different. */
{"saddl", 0x0e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"saddl2", 0x4e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"saddw", 0x0e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ},
{"saddw2", 0x4e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ},
{"ssubl", 0x0e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"ssubl2", 0x4e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"ssubw", 0x0e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ},
{"ssubw2", 0x4e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ},
{"addhn", 0x0e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ},
{"addhn2", 0x4e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ},
{"sabal", 0x0e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"sabal2", 0x4e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"subhn", 0x0e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ},
{"subhn2", 0x4e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ},
{"sabdl", 0x0e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"sabdl2", 0x4e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"smlal", 0x0e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"smlal2", 0x4e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"sqdmlal", 0x0e209000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ},
{"sqdmlal2", 0x4e209000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ},
{"smlsl", 0x0e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"smlsl2", 0x4e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"sqdmlsl", 0x0e20b000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ},
{"sqdmlsl2", 0x4e20b000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ},
{"smull", 0x0e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"smull2", 0x4e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"sqdmull", 0x0e20d000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS, F_SIZEQ},
{"sqdmull2", 0x4e20d000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGHS2, F_SIZEQ},
{"pmull", 0x0e20e000, 0xffe0fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGB, 0},
{"pmull", 0x0ee0e000, 0xffe0fc00, asimddiff, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3LONGD, 0},
{"pmull2", 0x4e20e000, 0xffe0fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGB2, 0},
{"pmull2", 0x4ee0e000, 0xffe0fc00, asimddiff, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3LONGD2, 0},
{"uaddl", 0x2e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"uaddl2", 0x6e200000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"uaddw", 0x2e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ},
{"uaddw2", 0x6e201000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ},
{"usubl", 0x2e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"usubl2", 0x6e202000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"usubw", 0x2e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS, F_SIZEQ},
{"usubw2", 0x6e203000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3WIDEBHS2, F_SIZEQ},
{"raddhn", 0x2e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ},
{"raddhn2", 0x6e204000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ},
{"uabal", 0x2e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"uabal2", 0x6e205000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"rsubhn", 0x2e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS, F_SIZEQ},
{"rsubhn2", 0x6e206000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3NARRBHS2, F_SIZEQ},
{"uabdl", 0x2e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"uabdl2", 0x6e207000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"umlal", 0x2e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"umlal2", 0x6e208000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"umlsl", 0x2e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"umlsl2", 0x6e20a000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
{"umull", 0x2e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS, F_SIZEQ},
{"umull2", 0x6e20c000, 0xff20fc00, asimddiff, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3LONGBHS2, F_SIZEQ},
/* AdvSIMD vector x indexed element. */
{"smlal", 0x0f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"smlal2", 0x4f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"sqdmlal", 0x0f003000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"sqdmlal2", 0x4f003000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"smlsl", 0x0f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"smlsl2", 0x4f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"sqdmlsl", 0x0f007000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"sqdmlsl2", 0x4f007000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"mul", 0xf008000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ},
{"smull", 0x0f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"smull2", 0x4f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"sqdmull", 0x0f00b000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"sqdmull2", 0x4f00b000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"sqdmulh", 0xf00c000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ},
{"sqrdmulh", 0xf00d000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ},
{"fmla", 0xf801000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ},
{"fmls", 0xf805000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ},
{"fmul", 0xf809000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ},
{"mla", 0x2f000000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ},
{"umlal", 0x2f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"umlal2", 0x6f002000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"mls", 0x2f004000, 0xbf00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT, F_SIZEQ},
{"umlsl", 0x2f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"umlsl2", 0x6f006000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"umull", 0x2f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L, F_SIZEQ},
{"umull2", 0x6f00a000, 0xff00f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_L2, F_SIZEQ},
{"fmulx", 0x2f809000, 0xbf80f400, asimdelem, 0, SIMD, OP3 (Vd, Vn, Em), QL_ELEMENT_FP, F_SIZEQ},
/* AdvSIMD EXT. */
{"ext", 0x2e000000, 0xbfe0c400, asimdext, 0, SIMD, OP4 (Vd, Vn, Vm, IDX), QL_VEXT, F_SIZEQ},
/* AdvSIMD modified immediate. */
{"movi", 0xf000400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ},
{"orr", 0xf001400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ},
{"movi", 0xf008400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ},
{"orr", 0xf009400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ},
{"movi", 0xf00c400, 0xbff8ec00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S1W, F_SIZEQ},
{"movi", 0xf00e400, 0xbff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_B, F_SIZEQ},
{"fmov", 0xf00f400, 0xbff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_FPIMM), QL_SIMD_IMM_S, F_SIZEQ},
{"mvni", 0x2f000400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ},
{"bic", 0x2f001400, 0xbff89c00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0W, F_SIZEQ},
{"mvni", 0x2f008400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ},
{"bic", 0x2f009400, 0xbff8dc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S0H, F_SIZEQ},
{"mvni", 0x2f00c400, 0xbff8ec00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM_SFT), QL_SIMD_IMM_S1W, F_SIZEQ},
{"movi", 0x2f00e400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Sd, SIMD_IMM), QL_SIMD_IMM_D, F_SIZEQ},
{"movi", 0x6f00e400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_IMM), QL_SIMD_IMM_V2D, F_SIZEQ},
{"fmov", 0x6f00f400, 0xfff8fc00, asimdimm, 0, SIMD, OP2 (Vd, SIMD_FPIMM), QL_SIMD_IMM_V2D, F_SIZEQ},
/* AdvSIMD copy. */
{"dup", 0xe000400, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Vd, En), QL_DUP_VX, F_T},
{"dup", 0xe000c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Vd, Rn), QL_DUP_VR, F_T},
{"smov", 0xe002c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_SMOV, F_GPRSIZE_IN_Q},
{"umov", 0xe003c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_UMOV, F_HAS_ALIAS | F_GPRSIZE_IN_Q},
{"mov", 0xe003c00, 0xbfe0fc00, asimdins, 0, SIMD, OP2 (Rd, En), QL_MOV, F_ALIAS | F_GPRSIZE_IN_Q},
{"ins", 0x4e001c00, 0xffe0fc00, asimdins, 0, SIMD, OP2 (Ed, Rn), QL_INS_XR, F_HAS_ALIAS},
{"mov", 0x4e001c00, 0xffe0fc00, asimdins, 0, SIMD, OP2 (Ed, Rn), QL_INS_XR, F_ALIAS},
{"ins", 0x6e000400, 0xffe08400, asimdins, 0, SIMD, OP2 (Ed, En), QL_S_2SAME, F_HAS_ALIAS},
{"mov", 0x6e000400, 0xffe08400, asimdins, 0, SIMD, OP2 (Ed, En), QL_S_2SAME, F_ALIAS},
/* AdvSIMD two-reg misc. */
{"rev64", 0xe200800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ},
{"rev16", 0xe201800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ},
{"saddlp", 0xe202800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ},
{"suqadd", 0xe203800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"cls", 0xe204800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ},
{"cnt", 0xe205800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ},
{"sadalp", 0xe206800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ},
{"sqabs", 0xe207800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"cmgt", 0xe208800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ},
{"cmeq", 0xe209800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ},
{"cmlt", 0xe20a800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ},
{"abs", 0xe20b800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"xtn", 0xe212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ},
{"xtn2", 0x4e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ},
{"sqxtn", 0xe214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ},
{"sqxtn2", 0x4e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ},
{"fcvtn", 0xe216800, 0xffbffc00, asimdmisc, OP_FCVTN, SIMD, OP2 (Vd, Vn), QL_V2NARRHS, F_MISC},
{"fcvtn2", 0x4e216800, 0xffbffc00, asimdmisc, OP_FCVTN2, SIMD, OP2 (Vd, Vn), QL_V2NARRHS2, F_MISC},
{"fcvtl", 0xe217800, 0xffbffc00, asimdmisc, OP_FCVTL, SIMD, OP2 (Vd, Vn), QL_V2LONGHS, F_MISC},
{"fcvtl2", 0x4e217800, 0xffbffc00, asimdmisc, OP_FCVTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGHS2, F_MISC},
{"frintn", 0xe218800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"frintm", 0xe219800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtns", 0xe21a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtms", 0xe21b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtas", 0xe21c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"scvtf", 0xe21d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcmgt", 0xea0c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAMESD, F_SIZEQ},
{"fcmeq", 0xea0d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAMESD, F_SIZEQ},
{"fcmlt", 0xea0e800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAMESD, F_SIZEQ},
{"fabs", 0xea0f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"frintp", 0xea18800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"frintz", 0xea19800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtps", 0xea1a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtzs", 0xea1b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"urecpe", 0xea1c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMES, F_SIZEQ},
{"frecpe", 0xea1d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"rev32", 0x2e200800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBH, F_SIZEQ},
{"uaddlp", 0x2e202800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ},
{"usqadd", 0x2e203800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"clz", 0x2e204800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEBHS, F_SIZEQ},
{"uadalp", 0x2e206800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2PAIRWISELONGBHS, F_SIZEQ},
{"sqneg", 0x2e207800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"cmge", 0x2e208800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ},
{"cmle", 0x2e209800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAME, F_SIZEQ},
{"neg", 0x2e20b800, 0xbf3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAME, F_SIZEQ},
{"sqxtun", 0x2e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ},
{"sqxtun2", 0x6e212800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ},
{"shll", 0x2e213800, 0xff3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, SHLL_IMM), QL_V2LONGBHS, F_SIZEQ},
{"shll2", 0x6e213800, 0xff3ffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, SHLL_IMM), QL_V2LONGBHS2, F_SIZEQ},
{"uqxtn", 0x2e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS, F_SIZEQ},
{"uqxtn2", 0x6e214800, 0xff3ffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRBHS2, F_SIZEQ},
{"fcvtxn", 0x2e616800, 0xfffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRS, 0},
{"fcvtxn2", 0x6e616800, 0xfffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2NARRS2, 0},
{"frinta", 0x2e218800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"frintx", 0x2e219800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtnu", 0x2e21a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtmu", 0x2e21b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtau", 0x2e21c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"ucvtf", 0x2e21d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"not", 0x2e205800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ | F_HAS_ALIAS},
{"mvn", 0x2e205800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ | F_ALIAS},
{"rbit", 0x2e605800, 0xbffffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_SIZEQ},
{"fcmge", 0x2ea0c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAMESD, F_SIZEQ},
{"fcmle", 0x2ea0d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP3 (Vd, Vn, IMM0), QL_V2SAMESD, F_SIZEQ},
{"fneg", 0x2ea0f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"frinti", 0x2ea19800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtpu", 0x2ea1a800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fcvtzu", 0x2ea1b800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"ursqrte", 0x2ea1c800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMES, F_SIZEQ},
{"frsqrte", 0x2ea1d800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
{"fsqrt", 0x2ea1f800, 0xbfbffc00, asimdmisc, 0, SIMD, OP2 (Vd, Vn), QL_V2SAMESD, F_SIZEQ},
/* AdvSIMD ZIP/UZP/TRN. */
{"uzp1", 0xe001800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"trn1", 0xe002800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"zip1", 0xe003800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"uzp2", 0xe005800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"trn2", 0xe006800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"zip2", 0xe007800, 0xbf20fc00, asimdperm, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
/* AdvSIMD three same. */
{"shadd", 0xe200400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sqadd", 0xe200c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"srhadd", 0xe201400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"shsub", 0xe202400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sqsub", 0xe202c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmgt", 0xe203400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmge", 0xe203c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"sshl", 0xe204400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"sqshl", 0xe204c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"srshl", 0xe205400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"sqrshl", 0xe205c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"smax", 0xe206400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"smin", 0xe206c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sabd", 0xe207400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"saba", 0xe207c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"add", 0xe208400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmtst", 0xe208c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"mla", 0xe209400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"mul", 0xe209c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"smaxp", 0xe20a400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sminp", 0xe20ac00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sqdmulh", 0xe20b400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEHS, F_SIZEQ},
{"addp", 0xe20bc00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"fmaxnm", 0xe20c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmla", 0xe20cc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fadd", 0xe20d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmulx", 0xe20dc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fcmeq", 0xe20e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmax", 0xe20f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"frecps", 0xe20fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"and", 0xe201c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"bic", 0xe601c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"fminnm", 0xea0c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmls", 0xea0cc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fsub", 0xea0d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmin", 0xea0f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"frsqrts", 0xea0fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"orr", 0xea01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_HAS_ALIAS | F_SIZEQ},
{"mov", 0xea01c00, 0xbfe0fc00, asimdsame, OP_MOV_V, SIMD, OP2 (Vd, Vn), QL_V2SAMEB, F_ALIAS | F_CONV},
{"orn", 0xee01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"uhadd", 0x2e200400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uqadd", 0x2e200c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"urhadd", 0x2e201400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uhsub", 0x2e202400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uqsub", 0x2e202c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmhi", 0x2e203400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmhs", 0x2e203c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"ushl", 0x2e204400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"uqshl", 0x2e204c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"urshl", 0x2e205400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"uqrshl", 0x2e205c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"umax", 0x2e206400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"umin", 0x2e206c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uabd", 0x2e207400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uaba", 0x2e207c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sub", 0x2e208400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"cmeq", 0x2e208c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAME, F_SIZEQ},
{"mls", 0x2e209400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"pmul", 0x2e209c00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"umaxp", 0x2e20a400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"uminp", 0x2e20ac00, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEBHS, F_SIZEQ},
{"sqrdmulh", 0x2e20b400, 0xbf20fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEHS, F_SIZEQ},
{"fmaxnmp", 0x2e20c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"faddp", 0x2e20d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmul", 0x2e20dc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fcmge", 0x2e20e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"facge", 0x2e20ec00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fmaxp", 0x2e20f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fdiv", 0x2e20fc00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"eor", 0x2e201c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"bsl", 0x2e601c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"fminnmp", 0x2ea0c400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fabd", 0x2ea0d400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fcmgt", 0x2ea0e400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"facgt", 0x2ea0ec00, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"fminp", 0x2ea0f400, 0xbfa0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMESD, F_SIZEQ},
{"bit", 0x2ea01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
{"bif", 0x2ee01c00, 0xbfe0fc00, asimdsame, 0, SIMD, OP3 (Vd, Vn, Vm), QL_V3SAMEB, F_SIZEQ},
/* AdvSIMD shift by immediate. */
{"sshr", 0xf000400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"ssra", 0xf001400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"srshr", 0xf002400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"srsra", 0xf003400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"shl", 0xf005400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0},
{"sqshl", 0xf007400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0},
{"shrn", 0xf008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"shrn2", 0x4f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"rshrn", 0xf008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"rshrn2", 0x4f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"sqshrn", 0xf009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"sqshrn2", 0x4f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"sqrshrn", 0xf009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"sqrshrn2", 0x4f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"sshll", 0xf00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL, F_HAS_ALIAS},
{"sxtl", 0xf00a400, 0xff87fc00, asimdshf, OP_SXTL, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS, F_ALIAS | F_CONV},
{"sshll2", 0x4f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL2, F_HAS_ALIAS},
{"sxtl2", 0x4f00a400, 0xff87fc00, asimdshf, OP_SXTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS2, F_ALIAS | F_CONV},
{"scvtf", 0xf00e400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0},
{"fcvtzs", 0xf00fc00, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0},
{"ushr", 0x2f000400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"usra", 0x2f001400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"urshr", 0x2f002400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"ursra", 0x2f003400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"sri", 0x2f004400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT, 0},
{"sli", 0x2f005400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0},
{"sqshlu", 0x2f006400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0},
{"uqshl", 0x2f007400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFT, 0},
{"sqshrun", 0x2f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"sqshrun2", 0x6f008400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"sqrshrun", 0x2f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"sqrshrun2", 0x6f008c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"uqshrn", 0x2f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"uqshrn2", 0x6f009400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"uqrshrn", 0x2f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN, 0},
{"uqrshrn2", 0x6f009c00, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFTN2, 0},
{"ushll", 0x2f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL, F_HAS_ALIAS},
{"uxtl", 0x2f00a400, 0xff87fc00, asimdshf, OP_UXTL, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS, F_ALIAS | F_CONV},
{"ushll2", 0x6f00a400, 0xff80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSL), QL_VSHIFTL2, F_HAS_ALIAS},
{"uxtl2", 0x6f00a400, 0xff87fc00, asimdshf, OP_UXTL2, SIMD, OP2 (Vd, Vn), QL_V2LONGBHS2, F_ALIAS | F_CONV},
{"ucvtf", 0x2f00e400, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0},
{"fcvtzu", 0x2f00fc00, 0xbf80fc00, asimdshf, 0, SIMD, OP3 (Vd, Vn, IMM_VLSR), QL_VSHIFT_SD, 0},
/* AdvSIMD TBL/TBX. */
{"tbl", 0xe000000, 0xbfe09c00, asimdtbl, 0, SIMD, OP3 (Vd, LVn, Vm), QL_TABLE, F_SIZEQ},
{"tbx", 0xe001000, 0xbfe09c00, asimdtbl, 0, SIMD, OP3 (Vd, LVn, Vm), QL_TABLE, F_SIZEQ},
/* AdvSIMD scalar three different. */
{"sqdmlal", 0x5e209000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE},
{"sqdmlsl", 0x5e20b000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE},
{"sqdmull", 0x5e20d000, 0xff20fc00, asisddiff, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISDL_HS, F_SSIZE},
/* AdvSIMD scalar x indexed element. */
{"sqdmlal", 0x5f003000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE},
{"sqdmlsl", 0x5f007000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE},
{"sqdmull", 0x5f00b000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISDL_HS, F_SSIZE},
{"sqdmulh", 0x5f00c000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISD_HS, F_SSIZE},
{"sqrdmulh", 0x5f00d000, 0xff00f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_SISD_HS, F_SSIZE},
{"fmla", 0x5f801000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE},
{"fmls", 0x5f805000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE},
{"fmul", 0x5f809000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE},
{"fmulx", 0x7f809000, 0xff80f400, asisdelem, 0, SIMD, OP3 (Sd, Sn, Em), QL_FP3, F_SSIZE},
/* AdvSIMD load/store multiple structures. */
{"st4", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(4)},
{"st1", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"st2", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(2)},
{"st3", 0xc000000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(3)},
{"ld4", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(4)},
{"ld1", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"ld2", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(2)},
{"ld3", 0xc400000, 0xbfff0000, asisdlse, 0, SIMD, OP2 (LVt, SIMD_ADDR_SIMPLE), QL_SIMD_LDST, F_SIZEQ | F_OD(3)},
/* AdvSIMD load/store multiple structures (post-indexed). */
{"st4", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(4)},
{"st1", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"st2", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(2)},
{"st3", 0xc800000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(3)},
{"ld4", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(4)},
{"ld1", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"ld2", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(2)},
{"ld3", 0xcc00000, 0xbfe00000, asisdlsep, 0, SIMD, OP2 (LVt, SIMD_ADDR_POST), QL_SIMD_LDST, F_SIZEQ | F_OD(3)},
/* AdvSIMD load/store single structure. */
{"st1", 0xd000000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(1)},
{"st3", 0xd002000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(3)},
{"st2", 0xd200000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(2)},
{"st4", 0xd202000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(4)},
{"ld1", 0xd400000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(1)},
{"ld3", 0xd402000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(3)},
{"ld1r", 0xd40c000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"ld3r", 0xd40e000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(3)},
{"ld2", 0xd600000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(2)},
{"ld4", 0xd602000, 0xbfff2000, asisdlso, 0, SIMD, OP2 (LEt, SIMD_ADDR_SIMPLE), QL_SIMD_LDSTONE, F_OD(4)},
{"ld2r", 0xd60c000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(2)},
{"ld4r", 0xd60e000, 0xbfffe000, asisdlso, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_SIMPLE), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(4)},
/* AdvSIMD load/store single structure (post-indexed). */
{"st1", 0xd800000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(1)},
{"st3", 0xd802000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(3)},
{"st2", 0xda00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(2)},
{"st4", 0xda02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(4)},
{"ld1", 0xdc00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(1)},
{"ld3", 0xdc02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(3)},
{"ld1r", 0xdc0c000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(1)},
{"ld3r", 0xdc0e000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(3)},
{"ld2", 0xde00000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(2)},
{"ld4", 0xde02000, 0xbfe02000, asisdlsop, 0, SIMD, OP2 (LEt, SIMD_ADDR_POST), QL_SIMD_LDSTONE, F_OD(4)},
{"ld2r", 0xde0c000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(2)},
{"ld4r", 0xde0e000, 0xbfe0e000, asisdlsop, 0, SIMD, OP2 (LVt_AL, SIMD_ADDR_POST), QL_SIMD_LDST_ANY, F_SIZEQ | F_OD(4)},
/* AdvSIMD scalar two-reg misc. */
{"suqadd", 0x5e203800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE},
{"sqabs", 0x5e207800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE},
{"cmgt", 0x5e208800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE},
{"cmeq", 0x5e209800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE},
{"cmlt", 0x5e20a800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE},
{"abs", 0x5e20b800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_2SAMED, F_SSIZE},
{"sqxtn", 0x5e214800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE},
{"fcvtns", 0x5e21a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtms", 0x5e21b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtas", 0x5e21c800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"scvtf", 0x5e21d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcmgt", 0x5ea0c800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_FCMP_0, F_SSIZE},
{"fcmeq", 0x5ea0d800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_FCMP_0, F_SSIZE},
{"fcmlt", 0x5ea0e800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_FCMP_0, F_SSIZE},
{"fcvtps", 0x5ea1a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtzs", 0x5ea1b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"frecpe", 0x5ea1d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"frecpx", 0x5ea1f800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"usqadd", 0x7e203800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE},
{"sqneg", 0x7e207800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAME, F_SSIZE},
{"cmge", 0x7e208800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE},
{"cmle", 0x7e209800, 0xff3ffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_CMP_0, F_SSIZE},
{"neg", 0x7e20b800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_2SAMED, F_SSIZE},
{"sqxtun", 0x7e212800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE},
{"uqxtn", 0x7e214800, 0xff3ffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW, F_SSIZE},
{"fcvtxn", 0x7e216800, 0xffbffc00, asisdmisc, OP_FCVTXN_S, SIMD, OP2 (Sd, Sn), QL_SISD_NARROW_S, F_MISC},
{"fcvtnu", 0x7e21a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtmu", 0x7e21b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtau", 0x7e21c800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"ucvtf", 0x7e21d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcmge", 0x7ea0c800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_FCMP_0, F_SSIZE},
{"fcmle", 0x7ea0d800, 0xffbffc00, asisdmisc, 0, SIMD, OP3 (Sd, Sn, IMM0), QL_SISD_FCMP_0, F_SSIZE},
{"fcvtpu", 0x7ea1a800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"fcvtzu", 0x7ea1b800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
{"frsqrte", 0x7ea1d800, 0xffbffc00, asisdmisc, 0, SIMD, OP2 (Sd, Sn), QL_S_2SAMESD, F_SSIZE},
/* AdvSIMD scalar copy. */
{"dup", 0x5e000400, 0xffe0fc00, asisdone, 0, SIMD, OP2 (Sd, En), QL_S_2SAME, F_HAS_ALIAS},
{"mov", 0x5e000400, 0xffe0fc00, asisdone, 0, SIMD, OP2 (Sd, En), QL_S_2SAME, F_ALIAS},
/* AdvSIMD scalar pairwise. */
{"addp", 0x5e31b800, 0xff3ffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR_D, F_SIZEQ},
{"fmaxnmp", 0x7e30c800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ},
{"faddp", 0x7e30d800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ},
{"fmaxp", 0x7e30f800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ},
{"fminnmp", 0x7eb0c800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ},
{"fminp", 0x7eb0f800, 0xffbffc00, asisdpair, 0, SIMD, OP2 (Sd, Vn), QL_SISD_PAIR, F_SIZEQ},
/* AdvSIMD scalar three same. */
{"sqadd", 0x5e200c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"sqsub", 0x5e202c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"sqshl", 0x5e204c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"sqrshl", 0x5e205c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"sqdmulh", 0x5e20b400, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISD_HS, F_SSIZE},
{"fmulx", 0x5e20dc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"fcmeq", 0x5e20e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"frecps", 0x5e20fc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"frsqrts", 0x5ea0fc00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"cmgt", 0x5ee03400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"cmge", 0x5ee03c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"sshl", 0x5ee04400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"srshl", 0x5ee05400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"add", 0x5ee08400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"cmtst", 0x5ee08c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"uqadd", 0x7e200c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"uqsub", 0x7e202c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"uqshl", 0x7e204c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"uqrshl", 0x7e205c00, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAME, F_SSIZE},
{"sqrdmulh", 0x7e20b400, 0xff20fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_SISD_HS, F_SSIZE},
{"fcmge", 0x7e20e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"facge", 0x7e20ec00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"fabd", 0x7ea0d400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"fcmgt", 0x7ea0e400, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"facgt", 0x7ea0ec00, 0xffa0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_FP3, F_SSIZE},
{"cmhi", 0x7ee03400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"cmhs", 0x7ee03c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"ushl", 0x7ee04400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"urshl", 0x7ee05400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"sub", 0x7ee08400, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
{"cmeq", 0x7ee08c00, 0xffe0fc00, asisdsame, 0, SIMD, OP3 (Sd, Sn, Sm), QL_S_3SAMED, F_SSIZE},
/* AdvSIMD scalar shift by immediate. */
{"sshr", 0x5f000400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"ssra", 0x5f001400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"srshr", 0x5f002400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"srsra", 0x5f003400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"shl", 0x5f005400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT_D, 0},
{"sqshl", 0x5f007400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0},
{"sqshrn", 0x5f009400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"sqrshrn", 0x5f009c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"scvtf", 0x5f00e400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0},
{"fcvtzs", 0x5f00fc00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0},
{"ushr", 0x7f000400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"usra", 0x7f001400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"urshr", 0x7f002400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"ursra", 0x7f003400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"sri", 0x7f004400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_D, 0},
{"sli", 0x7f005400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT_D, 0},
{"sqshlu", 0x7f006400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0},
{"uqshl", 0x7f007400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSL), QL_SSHIFT, 0},
{"sqshrun", 0x7f008400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"sqrshrun", 0x7f008c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"uqshrn", 0x7f009400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"uqrshrn", 0x7f009c00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFTN, 0},
{"ucvtf", 0x7f00e400, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0},
{"fcvtzu", 0x7f00fc00, 0xff80fc00, asisdshf, 0, SIMD, OP3 (Sd, Sn, IMM_VLSR), QL_SSHIFT_SD, 0},
/* Bitfield. */
{"sbfm", 0x13000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N},
{"sbfiz", 0x13000000, 0x7f800000, bitfield, OP_SBFIZ, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"sbfx", 0x13000000, 0x7f800000, bitfield, OP_SBFX, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"sxtb", 0x13001c00, 0x7fbffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT, F_ALIAS | F_P3 | F_SF | F_N},
{"sxth", 0x13003c00, 0x7fbffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT, F_ALIAS | F_P3 | F_SF | F_N},
{"sxtw", 0x93407c00, 0xfffffc00, bitfield, 0, CORE, OP2 (Rd, Rn), QL_EXT_W, F_ALIAS | F_P3},
{"asr", 0x13000000, 0x7f800000, bitfield, OP_ASR_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV},
{"bfm", 0x33000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N},
{"bfi", 0x33000000, 0x7f800000, bitfield, OP_BFI, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"bfxil", 0x33000000, 0x7f800000, bitfield, OP_BFXIL, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"ubfm", 0x53000000, 0x7f800000, bitfield, 0, CORE, OP4 (Rd, Rn, IMMR, IMMS), QL_BF, F_HAS_ALIAS | F_SF | F_N},
{"ubfiz", 0x53000000, 0x7f800000, bitfield, OP_UBFIZ, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"ubfx", 0x53000000, 0x7f800000, bitfield, OP_UBFX, CORE, OP4 (Rd, Rn, IMM, WIDTH), QL_BF2, F_ALIAS | F_P1 | F_CONV},
{"uxtb", 0x53001c00, 0xfffffc00, bitfield, OP_UXTB, CORE, OP2 (Rd, Rn), QL_I2SAMEW, F_ALIAS | F_P3},
{"uxth", 0x53003c00, 0xfffffc00, bitfield, OP_UXTH, CORE, OP2 (Rd, Rn), QL_I2SAMEW, F_ALIAS | F_P3},
{"lsl", 0x53000000, 0x7f800000, bitfield, OP_LSL_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV},
{"lsr", 0x53000000, 0x7f800000, bitfield, OP_LSR_IMM, CORE, OP3 (Rd, Rn, IMM), QL_SHIFT, F_ALIAS | F_P2 | F_CONV},
/* Unconditional branch (immediate). */
{"b", 0x14000000, 0xfc000000, branch_imm, OP_B, CORE, OP1 (ADDR_PCREL26), QL_PCREL_26, 0},
{"bl", 0x94000000, 0xfc000000, branch_imm, OP_BL, CORE, OP1 (ADDR_PCREL26), QL_PCREL_26, 0},
/* Unconditional branch (register). */
{"br", 0xd61f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, 0},
{"blr", 0xd63f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, 0},
{"ret", 0xd65f0000, 0xfffffc1f, branch_reg, 0, CORE, OP1 (Rn), QL_I1X, F_OPD0_OPT | F_DEFAULT (30)},
{"eret", 0xd69f03e0, 0xffffffff, branch_reg, 0, CORE, OP0 (), {}, 0},
{"drps", 0xd6bf03e0, 0xffffffff, branch_reg, 0, CORE, OP0 (), {}, 0},
/* Compare & branch (immediate). */
{"cbz", 0x34000000, 0x7f000000, compbranch, 0, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_SF},
{"cbnz", 0x35000000, 0x7f000000, compbranch, 0, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_SF},
/* Conditional branch (immediate). */
{"b.c", 0x54000000, 0xff000010, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_COND},
/* Conditional compare (immediate). */
{"ccmn", 0x3a400800, 0x7fe00c10, condcmp_imm, 0, CORE, OP4 (Rn, CCMP_IMM, NZCV, COND), QL_CCMP_IMM, F_SF},
{"ccmp", 0x7a400800, 0x7fe00c10, condcmp_imm, 0, CORE, OP4 (Rn, CCMP_IMM, NZCV, COND), QL_CCMP_IMM, F_SF},
/* Conditional compare (register). */
{"ccmn", 0x3a400000, 0x7fe00c10, condcmp_reg, 0, CORE, OP4 (Rn, Rm, NZCV, COND), QL_CCMP, F_SF},
{"ccmp", 0x7a400000, 0x7fe00c10, condcmp_reg, 0, CORE, OP4 (Rn, Rm, NZCV, COND), QL_CCMP, F_SF},
/* Conditional select. */
{"csel", 0x1a800000, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_SF},
{"csinc", 0x1a800400, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF},
{"cinc", 0x1a800400, 0x7fe00c00, condsel, OP_CINC, CORE, OP3 (Rd, Rn, COND), QL_CSEL, F_ALIAS | F_SF | F_CONV},
{"cset", 0x1a9f07e0, 0x7fff0fe0, condsel, OP_CSET, CORE, OP2 (Rd, COND), QL_DST_R, F_ALIAS | F_P1 | F_SF | F_CONV},
{"csinv", 0x5a800000, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF},
{"cinv", 0x5a800000, 0x7fe00c00, condsel, OP_CINV, CORE, OP3 (Rd, Rn, COND), QL_CSEL, F_ALIAS | F_SF | F_CONV},
{"csetm", 0x5a9f03e0, 0x7fff0fe0, condsel, OP_CSETM, CORE, OP2 (Rd, COND), QL_DST_R, F_ALIAS | F_P1 | F_SF | F_CONV},
{"csneg", 0x5a800400, 0x7fe00c00, condsel, 0, CORE, OP4 (Rd, Rn, Rm, COND), QL_CSEL, F_HAS_ALIAS | F_SF},
{"cneg", 0x5a800400, 0x7fe00c00, condsel, OP_CNEG, CORE, OP3 (Rd, Rn, COND), QL_CSEL, F_ALIAS | F_SF | F_CONV},
/* Crypto AES. */
{"aese", 0x4e284800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0},
{"aesd", 0x4e285800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0},
{"aesmc", 0x4e286800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0},
{"aesimc", 0x4e287800, 0xfffffc00, cryptoaes, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME16B, 0},
/* Crypto two-reg SHA. */
{"sha1h", 0x5e280800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Fd, Fn), QL_2SAMES, 0},
{"sha1su1", 0x5e281800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME4S, 0},
{"sha256su0", 0x5e282800, 0xfffffc00, cryptosha2, 0, CRYPTO, OP2 (Vd, Vn), QL_V2SAME4S, 0},
/* Crypto three-reg SHA. */
{"sha1c", 0x5e000000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0},
{"sha1p", 0x5e001000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0},
{"sha1m", 0x5e002000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHAUPT, 0},
{"sha1su0", 0x5e003000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3SAME4S, 0},
{"sha256h", 0x5e004000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHA256UPT, 0},
{"sha256h2", 0x5e005000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Fd, Fn, Vm), QL_SHA256UPT, 0},
{"sha256su1", 0x5e006000, 0xffe0fc00, cryptosha3, 0, CRYPTO, OP3 (Vd, Vn, Vm), QL_V3SAME4S, 0},
/* Data-processing (1 source). */
{"rbit", 0x5ac00000, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF},
{"rev16", 0x5ac00400, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF},
{"rev", 0x5ac00800, 0xfffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEW, 0},
{"rev", 0xdac00c00, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEX, 0},
{"clz", 0x5ac01000, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF},
{"cls", 0x5ac01400, 0x7ffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAME, F_SF},
{"rev32", 0xdac00800, 0xfffffc00, dp_1src, 0, CORE, OP2 (Rd, Rn), QL_I2SAMEX, 0},
/* Data-processing (2 source). */
{"udiv", 0x1ac00800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF},
{"sdiv", 0x1ac00c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF},
{"lslv", 0x1ac02000, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS},
{"lsl", 0x1ac02000, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS},
{"lsrv", 0x1ac02400, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS},
{"lsr", 0x1ac02400, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS},
{"asrv", 0x1ac02800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS},
{"asr", 0x1ac02800, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS},
{"rorv", 0x1ac02c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_HAS_ALIAS},
{"ror", 0x1ac02c00, 0x7fe0fc00, dp_2src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_SF | F_ALIAS},
/* CRC instructions. */
{"crc32b", 0x1ac04000, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32h", 0x1ac04400, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32w", 0x1ac04800, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32x", 0x9ac04c00, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3WWX, 0},
{"crc32cb", 0x1ac05000, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32ch", 0x1ac05400, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32cw", 0x1ac05800, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3SAMEW, 0},
{"crc32cx", 0x9ac05c00, 0xffe0fc00, dp_2src, 0, CRC, OP3 (Rd, Rn, Rm), QL_I3WWX, 0},
/* Data-processing (3 source). */
{"madd", 0x1b000000, 0x7fe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMER, F_HAS_ALIAS | F_SF},
{"mul", 0x1b007c00, 0x7fe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_ALIAS | F_SF},
{"msub", 0x1b008000, 0x7fe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMER, F_HAS_ALIAS | F_SF},
{"mneg", 0x1b00fc00, 0x7fe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMER, F_ALIAS | F_SF},
{"smaddl", 0x9b200000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS},
{"smull", 0x9b207c00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS},
{"smsubl", 0x9b208000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS},
{"smnegl", 0x9b20fc00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS},
{"smulh", 0x9b407c00, 0xffe08000, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEX, 0},
{"umaddl", 0x9ba00000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS},
{"umull", 0x9ba07c00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS},
{"umsubl", 0x9ba08000, 0xffe08000, dp_3src, 0, CORE, OP4 (Rd, Rn, Rm, Ra), QL_I4SAMEL, F_HAS_ALIAS},
{"umnegl", 0x9ba0fc00, 0xffe0fc00, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEL, F_ALIAS},
{"umulh", 0x9bc07c00, 0xffe08000, dp_3src, 0, CORE, OP3 (Rd, Rn, Rm), QL_I3SAMEX, 0},
/* Excep'n generation. */
{"svc", 0xd4000001, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0},
{"hvc", 0xd4000002, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0},
{"smc", 0xd4000003, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0},
{"brk", 0xd4200000, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0},
{"hlt", 0xd4400000, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, 0},
{"dcps1", 0xd4a00001, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)},
{"dcps2", 0xd4a00002, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)},
{"dcps3", 0xd4a00003, 0xffe0001f, exception, 0, CORE, OP1 (EXCEPTION), {}, F_OPD0_OPT | F_DEFAULT (0)},
/* Extract. */
{"extr", 0x13800000, 0x7fa00000, extract, 0, CORE, OP4 (Rd, Rn, Rm, IMMS), QL_EXTR, F_HAS_ALIAS | F_SF | F_N},
{"ror", 0x13800000, 0x7fa00000, extract, OP_ROR_IMM, CORE, OP3 (Rd, Rm, IMMS), QL_SHIFT, F_ALIAS | F_CONV},
/* Floating-point<->fixed-point conversions. */
{"scvtf", 0x1e020000, 0x7f3f0000, float2fix, 0, FP, OP3 (Fd, Rn, FBITS), QL_FIX2FP, F_FPTYPE | F_SF},
{"ucvtf", 0x1e030000, 0x7f3f0000, float2fix, 0, FP, OP3 (Fd, Rn, FBITS), QL_FIX2FP, F_FPTYPE | F_SF},
{"fcvtzs", 0x1e180000, 0x7f3f0000, float2fix, 0, FP, OP3 (Rd, Fn, FBITS), QL_FP2FIX, F_FPTYPE | F_SF},
{"fcvtzu", 0x1e190000, 0x7f3f0000, float2fix, 0, FP, OP3 (Rd, Fn, FBITS), QL_FP2FIX, F_FPTYPE | F_SF},
/* Floating-point<->integer conversions. */
{"fcvtns", 0x1e200000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtnu", 0x1e210000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"scvtf", 0x1e220000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF},
{"ucvtf", 0x1e230000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF},
{"fcvtas", 0x1e240000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtau", 0x1e250000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fmov", 0x1e260000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fmov", 0x1e270000, 0x7f3ffc00, float2int, 0, FP, OP2 (Fd, Rn), QL_INT2FP, F_FPTYPE | F_SF},
{"fcvtps", 0x1e280000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtpu", 0x1e290000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtms", 0x1e300000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtmu", 0x1e310000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtzs", 0x1e380000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fcvtzu", 0x1e390000, 0x7f3ffc00, float2int, 0, FP, OP2 (Rd, Fn), QL_FP2INT, F_FPTYPE | F_SF},
{"fmov", 0x9eae0000, 0xfffffc00, float2int, 0, FP, OP2 (Rd, VnD1), QL_XVD1, 0},
{"fmov", 0x9eaf0000, 0xfffffc00, float2int, 0, FP, OP2 (VdD1, Rn), QL_VD1X, 0},
/* Floating-point conditional compare. */
{"fccmp", 0x1e200400, 0xff200c10, floatccmp, 0, FP, OP4 (Fn, Fm, NZCV, COND), QL_FCCMP, F_FPTYPE},
{"fccmpe", 0x1e200410, 0xff200c10, floatccmp, 0, FP, OP4 (Fn, Fm, NZCV, COND), QL_FCCMP, F_FPTYPE},
/* Floating-point compare. */
{"fcmp", 0x1e202000, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, Fm), QL_FP2, F_FPTYPE},
{"fcmpe", 0x1e202010, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, Fm), QL_FP2, F_FPTYPE},
{"fcmp", 0x1e202008, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, FPIMM0), QL_DST_SD, F_FPTYPE},
{"fcmpe", 0x1e202018, 0xff20fc1f, floatcmp, 0, FP, OP2 (Fn, FPIMM0), QL_DST_SD, F_FPTYPE},
/* Floating-point data-processing (1 source). */
{"fmov", 0x1e204000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"fabs", 0x1e20c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"fneg", 0x1e214000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"fsqrt", 0x1e21c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"fcvt", 0x1e224000, 0xff3e7c00, floatdp1, OP_FCVT, FP, OP2 (Fd, Fn), QL_FCVT, F_FPTYPE | F_MISC},
{"frintn", 0x1e244000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frintp", 0x1e24c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frintm", 0x1e254000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frintz", 0x1e25c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frinta", 0x1e264000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frintx", 0x1e274000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
{"frinti", 0x1e27c000, 0xff3ffc00, floatdp1, 0, FP, OP2 (Fd, Fn), QL_FP2, F_FPTYPE},
/* Floating-point data-processing (2 source). */
{"fmul", 0x1e200800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fdiv", 0x1e201800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fadd", 0x1e202800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fsub", 0x1e203800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fmax", 0x1e204800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fmin", 0x1e205800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fmaxnm", 0x1e206800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fminnm", 0x1e207800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
{"fnmul", 0x1e208800, 0xff20fc00, floatdp2, 0, FP, OP3 (Fd, Fn, Fm), QL_FP3, F_FPTYPE},
/* Floating-point data-processing (3 source). */
{"fmadd", 0x1f000000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE},
{"fmsub", 0x1f008000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE},
{"fnmadd", 0x1f200000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE},
{"fnmsub", 0x1f208000, 0xff208000, floatdp3, 0, FP, OP4 (Fd, Fn, Fm, Fa), QL_FP4, F_FPTYPE},
/* Floating-point immediate. */
{"fmov", 0x1e201000, 0xff201fe0, floatimm, 0, FP, OP2 (Fd, FPIMM), QL_DST_SD, F_FPTYPE},
/* Floating-point conditional select. */
{"fcsel", 0x1e200c00, 0xff200c00, floatsel, 0, FP, OP4 (Fd, Fn, Fm, COND), QL_FP_COND, F_FPTYPE},
/* Load/store register (immediate indexed). */
{"strb", 0x38000400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0},
{"ldrb", 0x38400400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0},
{"ldrsb", 0x38800400, 0xffa00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_LDS_SIZE},
{"str", 0x3c000400, 0x3f600400, ldst_imm9, 0, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0},
{"ldr", 0x3c400400, 0x3f600400, ldst_imm9, 0, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, 0},
{"strh", 0x78000400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0},
{"ldrh", 0x78400400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0},
{"ldrsh", 0x78800400, 0xffa00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_LDS_SIZE},
{"str", 0xb8000400, 0xbfe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldr", 0xb8400400, 0xbfe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldrsw", 0xb8800400, 0xffe00400, ldst_imm9, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, 0},
/* Load/store register (unsigned immediate). */
{"strb", 0x39000000, 0xffc00000, ldst_pos, OP_STRB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W8, 0},
{"ldrb", 0x39400000, 0xffc00000, ldst_pos, OP_LDRB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W8, 0},
{"ldrsb", 0x39800000, 0xff800000, ldst_pos, OP_LDRSB_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R8, F_LDS_SIZE},
{"str", 0x3d000000, 0x3f400000, ldst_pos, OP_STRF_POS, CORE, OP2 (Ft, ADDR_UIMM12), QL_LDST_FP, 0},
{"ldr", 0x3d400000, 0x3f400000, ldst_pos, OP_LDRF_POS, CORE, OP2 (Ft, ADDR_UIMM12), QL_LDST_FP, 0},
{"strh", 0x79000000, 0xffc00000, ldst_pos, OP_STRH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W16, 0},
{"ldrh", 0x79400000, 0xffc00000, ldst_pos, OP_LDRH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_W16, 0},
{"ldrsh", 0x79800000, 0xff800000, ldst_pos, OP_LDRSH_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R16, F_LDS_SIZE},
{"str", 0xb9000000, 0xbfc00000, ldst_pos, OP_STR_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldr", 0xb9400000, 0xbfc00000, ldst_pos, OP_LDR_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldrsw", 0xb9800000, 0xffc00000, ldst_pos, OP_LDRSW_POS, CORE, OP2 (Rt, ADDR_UIMM12), QL_LDST_X32, 0},
{"prfm", 0xf9800000, 0xffc00000, ldst_pos, OP_PRFM_POS, CORE, OP2 (PRFOP, ADDR_UIMM12), QL_LDST_PRFM, 0},
/* Load/store register (register offset). */
{"strb", 0x38200800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W8, 0},
{"ldrb", 0x38600800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W8, 0},
{"ldrsb", 0x38a00800, 0xffa00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R8, F_LDS_SIZE},
{"str", 0x3c200800, 0x3f600c00, ldst_regoff, 0, CORE, OP2 (Ft, ADDR_REGOFF), QL_LDST_FP, 0},
{"ldr", 0x3c600800, 0x3f600c00, ldst_regoff, 0, CORE, OP2 (Ft, ADDR_REGOFF), QL_LDST_FP, 0},
{"strh", 0x78200800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W16, 0},
{"ldrh", 0x78600800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_W16, 0},
{"ldrsh", 0x78a00800, 0xffa00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R16, F_LDS_SIZE},
{"str", 0xb8200800, 0xbfe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldr", 0xb8600800, 0xbfe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldrsw", 0xb8a00800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (Rt, ADDR_REGOFF), QL_LDST_X32, 0},
{"prfm", 0xf8a00800, 0xffe00c00, ldst_regoff, 0, CORE, OP2 (PRFOP, ADDR_REGOFF), QL_LDST_PRFM, 0},
/* Load/store register (unprivileged). */
{"sttrb", 0x38000800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0},
{"ldtrb", 0x38400800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, 0},
{"ldtrsb", 0x38800800, 0xffa00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_LDS_SIZE},
{"sttrh", 0x78000800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0},
{"ldtrh", 0x78400800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, 0},
{"ldtrsh", 0x78800800, 0xffa00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_LDS_SIZE},
{"sttr", 0xb8000800, 0xbfe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldtr", 0xb8400800, 0xbfe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_GPRSIZE_IN_Q},
{"ldtrsw", 0xb8800800, 0xffe00c00, ldst_unpriv, 0, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, 0},
/* Load/store register (unscaled immediate). */
{"sturb", 0x38000000, 0xffe00c00, ldst_unscaled, OP_STURB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, F_HAS_ALIAS},
{"ldurb", 0x38400000, 0xffe00c00, ldst_unscaled, OP_LDURB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W8, F_HAS_ALIAS},
{"strb", 0x38000000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_W8, F_ALIAS},
{"ldrb", 0x38400000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_W8, F_ALIAS},
{"ldursb", 0x38800000, 0xffa00c00, ldst_unscaled, OP_LDURSB, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R8, F_HAS_ALIAS | F_LDS_SIZE},
{"ldrsb", 0x38800000, 0xffa00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_R8, F_ALIAS | F_LDS_SIZE},
{"stur", 0x3c000000, 0x3f600c00, ldst_unscaled, OP_STURV, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, F_HAS_ALIAS},
{"ldur", 0x3c400000, 0x3f600c00, ldst_unscaled, OP_LDURV, CORE, OP2 (Ft, ADDR_SIMM9), QL_LDST_FP, F_HAS_ALIAS},
{"str", 0x3c000000, 0x3f600c00, ldst_unscaled, 0, CORE, OP2 (Ft, ADDR_SIMM9_2), QL_LDST_FP, F_ALIAS},
{"ldr", 0x3c400000, 0x3f600c00, ldst_unscaled, 0, CORE, OP2 (Ft, ADDR_SIMM9_2), QL_LDST_FP, F_ALIAS},
{"sturh", 0x78000000, 0xffe00c00, ldst_unscaled, OP_STURH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, F_HAS_ALIAS},
{"ldurh", 0x78400000, 0xffe00c00, ldst_unscaled, OP_LDURH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_W16, F_HAS_ALIAS},
{"strh", 0x78000000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_W16, F_ALIAS},
{"ldrh", 0x78400000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_W16, F_ALIAS},
{"ldursh", 0x78800000, 0xffa00c00, ldst_unscaled, OP_LDURSH, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R16, F_HAS_ALIAS | F_LDS_SIZE},
{"ldrsh", 0x78800000, 0xffa00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_R16, F_ALIAS | F_LDS_SIZE},
{"stur", 0xb8000000, 0xbfe00c00, ldst_unscaled, OP_STUR, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_HAS_ALIAS | F_GPRSIZE_IN_Q},
{"ldur", 0xb8400000, 0xbfe00c00, ldst_unscaled, OP_LDUR, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_R, F_HAS_ALIAS | F_GPRSIZE_IN_Q},
{"str", 0xb8000000, 0xbfe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_R, F_ALIAS | F_GPRSIZE_IN_Q},
{"ldr", 0xb8400000, 0xbfe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_R, F_ALIAS | F_GPRSIZE_IN_Q},
{"ldursw", 0xb8800000, 0xffe00c00, ldst_unscaled, OP_LDURSW, CORE, OP2 (Rt, ADDR_SIMM9), QL_LDST_X32, F_HAS_ALIAS},
{"ldrsw", 0xb8800000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (Rt, ADDR_SIMM9_2), QL_LDST_X32, F_ALIAS},
{"prfum", 0xf8800000, 0xffe00c00, ldst_unscaled, OP_PRFUM, CORE, OP2 (PRFOP, ADDR_SIMM9), QL_LDST_PRFM, F_HAS_ALIAS},
{"prfm", 0xf8800000, 0xffe00c00, ldst_unscaled, 0, CORE, OP2 (PRFOP, ADDR_SIMM9_2), QL_LDST_PRFM, F_ALIAS},
/* Load/store exclusive. */
{"stxrb", 0x8007c00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0},
{"stlxrb", 0x800fc00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0},
{"ldxrb", 0x85f7c00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"ldaxrb", 0x85ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"stlrb", 0x89ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"ldarb", 0x8dffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"stxrh", 0x48007c00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0},
{"stlxrh", 0x4800fc00, 0xffe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_W2_LDST_EXC, 0},
{"ldxrh", 0x485f7c00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"ldaxrh", 0x485ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"stlrh", 0x489ffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"ldarh", 0x48dffc00, 0xffe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_W1_LDST_EXC, 0},
{"stxr", 0x88007c00, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2_LDST_EXC, F_GPRSIZE_IN_Q},
{"stlxr", 0x8800fc00, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rs, Rt, ADDR_SIMPLE), QL_R2_LDST_EXC, F_GPRSIZE_IN_Q},
{"stxp", 0x88200000, 0xbfe08000, ldstexcl, 0, CORE, OP4 (Rs, Rt, Rt2, ADDR_SIMPLE), QL_R3_LDST_EXC, F_GPRSIZE_IN_Q},
{"stlxp", 0x88208000, 0xbfe08000, ldstexcl, 0, CORE, OP4 (Rs, Rt, Rt2, ADDR_SIMPLE), QL_R3_LDST_EXC, F_GPRSIZE_IN_Q},
{"ldxr", 0x885f7c00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q},
{"ldaxr", 0x885ffc00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q},
{"ldxp", 0x887f0000, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMPLE), QL_R2NIL, F_GPRSIZE_IN_Q},
{"ldaxp", 0x887f8000, 0xbfe08000, ldstexcl, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMPLE), QL_R2NIL, F_GPRSIZE_IN_Q},
{"stlr", 0x889ffc00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q},
{"ldar", 0x88dffc00, 0xbfe08000, ldstexcl, 0, CORE, OP2 (Rt, ADDR_SIMPLE), QL_R1NIL, F_GPRSIZE_IN_Q},
/* Load/store no-allocate pair (offset). */
{"stnp", 0x28000000, 0x7fc00000, ldstnapair_offs, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"ldnp", 0x28400000, 0x7fc00000, ldstnapair_offs, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"stnp", 0x2c000000, 0x3fc00000, ldstnapair_offs, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
{"ldnp", 0x2c400000, 0x3fc00000, ldstnapair_offs, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
/* Load/store register pair (offset). */
{"stp", 0x29000000, 0x7ec00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"ldp", 0x29400000, 0x7ec00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"stp", 0x2d000000, 0x3fc00000, ldstpair_off, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
{"ldp", 0x2d400000, 0x3fc00000, ldstpair_off, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
{"ldpsw", 0x69400000, 0xffc00000, ldstpair_off, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_X32, 0},
/* Load/store register pair (indexed). */
{"stp", 0x28800000, 0x7ec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"ldp", 0x28c00000, 0x7ec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_R, F_SF},
{"stp", 0x2c800000, 0x3ec00000, ldstpair_indexed, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
{"ldp", 0x2cc00000, 0x3ec00000, ldstpair_indexed, 0, CORE, OP3 (Ft, Ft2, ADDR_SIMM7), QL_LDST_PAIR_FP, 0},
{"ldpsw", 0x68c00000, 0xfec00000, ldstpair_indexed, 0, CORE, OP3 (Rt, Rt2, ADDR_SIMM7), QL_LDST_PAIR_X32, 0},
/* Load register (literal). */
{"ldr", 0x18000000, 0xbf000000, loadlit, OP_LDR_LIT, CORE, OP2 (Rt, ADDR_PCREL19), QL_R_PCREL, F_GPRSIZE_IN_Q},
{"ldr", 0x1c000000, 0x3f000000, loadlit, OP_LDRV_LIT, CORE, OP2 (Ft, ADDR_PCREL19), QL_FP_PCREL, 0},
{"ldrsw", 0x98000000, 0xff000000, loadlit, OP_LDRSW_LIT, CORE, OP2 (Rt, ADDR_PCREL19), QL_X_PCREL, 0},
{"prfm", 0xd8000000, 0xff000000, loadlit, OP_PRFM_LIT, CORE, OP2 (PRFOP, ADDR_PCREL19), QL_PRFM_PCREL, 0},
/* Logical (immediate). */
{"and", 0x12000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"bic", 0x12000000, 0x7f800000, log_imm, OP_BIC, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_ALIAS | F_PSEUDO | F_SF},
{"orr", 0x32000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"mov", 0x320003e0, 0x7f8003e0, log_imm, OP_MOV_IMM_LOG, CORE, OP2 (Rd_SP, IMM_MOV), QL_R1NIL, F_ALIAS | F_P1 | F_SF | F_CONV},
{"eor", 0x52000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd_SP, Rn, LIMM), QL_R2NIL, F_SF},
{"ands", 0x72000000, 0x7f800000, log_imm, 0, CORE, OP3 (Rd, Rn, LIMM), QL_R2NIL, F_HAS_ALIAS | F_SF},
{"tst", 0x7200001f, 0x7f80001f, log_imm, 0, CORE, OP2 (Rn, LIMM), QL_R1NIL, F_ALIAS | F_SF},
/* Logical (shifted register). */
{"and", 0xa000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
{"bic", 0xa200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
{"orr", 0x2a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"mov", 0x2a0003e0, 0x7f2003e0, log_shift, 0, CORE, OP2 (Rd, Rm), QL_I2SAMER, F_ALIAS | F_SF},
{"uxtw", 0x2a0003e0, 0x7f2003e0, log_shift, OP_UXTW, CORE, OP2 (Rd, Rm), QL_I2SAMEW, F_ALIAS | F_PSEUDO},
{"orn", 0x2a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"mvn", 0x2a2003e0, 0x7f2003e0, log_shift, 0, CORE, OP2 (Rd, Rm_SFT), QL_I2SAMER, F_ALIAS | F_SF},
{"eor", 0x4a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
{"eon", 0x4a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
{"ands", 0x6a000000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_HAS_ALIAS | F_SF},
{"tst", 0x6a00001f, 0x7f20001f, log_shift, 0, CORE, OP2 (Rn, Rm_SFT), QL_I2SAMER, F_ALIAS | F_SF},
{"bics", 0x6a200000, 0x7f200000, log_shift, 0, CORE, OP3 (Rd, Rn, Rm_SFT), QL_I3SAMER, F_SF},
/* Move wide (immediate). */
{"movn", 0x12800000, 0x7f800000, movewide, OP_MOVN, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF | F_HAS_ALIAS},
{"mov", 0x12800000, 0x7f800000, movewide, OP_MOV_IMM_WIDEN, CORE, OP2 (Rd, IMM_MOV), QL_DST_R, F_SF | F_ALIAS | F_CONV},
{"movz", 0x52800000, 0x7f800000, movewide, OP_MOVZ, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF | F_HAS_ALIAS},
{"mov", 0x52800000, 0x7f800000, movewide, OP_MOV_IMM_WIDE, CORE, OP2 (Rd, IMM_MOV), QL_DST_R, F_SF | F_ALIAS | F_CONV},
{"movk", 0x72800000, 0x7f800000, movewide, OP_MOVK, CORE, OP2 (Rd, HALF), QL_DST_R, F_SF},
/* PC-rel. addressing. */
{"adr", 0x10000000, 0x9f000000, pcreladdr, 0, CORE, OP2 (Rd, ADDR_PCREL21), QL_ADRP, 0},
{"adrp", 0x90000000, 0x9f000000, pcreladdr, 0, CORE, OP2 (Rd, ADDR_ADRP), QL_ADRP, 0},
/* System. */
{"msr", 0xd500401f, 0xfff8f01f, ic_system, 0, CORE, OP2 (PSTATEFIELD, UIMM4), {}, 0},
{"hint", 0xd503201f, 0xfffff01f, ic_system, 0, CORE, OP1 (UIMM7), {}, F_HAS_ALIAS},
{"nop", 0xd503201f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"yield", 0xd503203f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"wfe", 0xd503205f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"wfi", 0xd503207f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"sev", 0xd503209f, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"sevl", 0xd50320bf, 0xffffffff, ic_system, 0, CORE, OP0 (), {}, F_ALIAS},
{"clrex", 0xd503305f, 0xfffff0ff, ic_system, 0, CORE, OP1 (UIMM4), {}, F_OPD0_OPT | F_DEFAULT (0xF)},
{"dsb", 0xd503309f, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER), {}, 0},
{"dmb", 0xd50330bf, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER), {}, 0},
{"isb", 0xd50330df, 0xfffff0ff, ic_system, 0, CORE, OP1 (BARRIER_ISB), {}, F_OPD0_OPT | F_DEFAULT (0xF)},
{"sys", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP5 (UIMM3_OP1, Cn, Cm, UIMM3_OP2, Rt), QL_SYS, F_HAS_ALIAS | F_OPD4_OPT | F_DEFAULT (0x1F)},
{"at", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_AT, Rt), QL_SRC_X, F_ALIAS},
{"dc", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_DC, Rt), QL_SRC_X, F_ALIAS},
{"ic", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_IC, Rt_SYS), QL_SRC_X, F_ALIAS | F_OPD1_OPT | F_DEFAULT (0x1F)},
{"tlbi", 0xd5080000, 0xfff80000, ic_system, 0, CORE, OP2 (SYSREG_TLBI, Rt_SYS), QL_SRC_X, F_ALIAS | F_OPD1_OPT | F_DEFAULT (0x1F)},
{"msr", 0xd5100000, 0xfff00000, ic_system, 0, CORE, OP2 (SYSREG, Rt), QL_SRC_X, 0},
{"sysl", 0xd5280000, 0xfff80000, ic_system, 0, CORE, OP5 (Rt, UIMM3_OP1, Cn, Cm, UIMM3_OP2), QL_SYSL, 0},
{"mrs", 0xd5300000, 0xfff00000, ic_system, 0, CORE, OP2 (Rt, SYSREG), QL_DST_X, 0},
/* Test & branch (immediate). */
{"tbz", 0x36000000, 0x7f000000, testbranch, 0, CORE, OP3 (Rt, BIT_NUM, ADDR_PCREL14), QL_PCREL_14, 0},
{"tbnz", 0x37000000, 0x7f000000, testbranch, 0, CORE, OP3 (Rt, BIT_NUM, ADDR_PCREL14), QL_PCREL_14, 0},
/* The old UAL conditional branch mnemonics (to aid portability). */
{"beq", 0x54000000, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bne", 0x54000001, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bcs", 0x54000002, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bhs", 0x54000002, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bcc", 0x54000003, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"blo", 0x54000003, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bmi", 0x54000004, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bpl", 0x54000005, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bvs", 0x54000006, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bvc", 0x54000007, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bhi", 0x54000008, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bls", 0x54000009, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bge", 0x5400000a, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"blt", 0x5400000b, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"bgt", 0x5400000c, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{"ble", 0x5400000d, 0xff00001f, condbranch, 0, CORE, OP1 (ADDR_PCREL19), QL_PCREL_NIL, F_ALIAS | F_PSEUDO},
{0, 0, 0, 0, 0, 0, {}, {}, 0},
};
#ifdef AARCH64_OPERANDS
#undef AARCH64_OPERANDS
#endif
/* Macro-based operand decription; this will be fed into aarch64-gen for it
to generate the structure aarch64_operands and the function
aarch64_insert_operand and aarch64_extract_operand.
These inserters and extracters in the description execute the conversion
between the aarch64_opnd_info and value in the operand-related instruction
field(s). */
/* Y expects arguments (left to right) to be operand class, inserter/extractor
name suffix, operand name, flags, related bitfield(s) and description.
X only differs from Y by having the operand inserter and extractor names
listed separately. */
#define AARCH64_OPERANDS \
Y(INT_REG, regno, "Rd", 0, F(FLD_Rd), "an integer register") \
Y(INT_REG, regno, "Rn", 0, F(FLD_Rn), "an integer register") \
Y(INT_REG, regno, "Rm", 0, F(FLD_Rm), "an integer register") \
Y(INT_REG, regno, "Rt", 0, F(FLD_Rt), "an integer register") \
Y(INT_REG, regno, "Rt2", 0, F(FLD_Rt2), "an integer register") \
Y(INT_REG, regno, "Rs", 0, F(FLD_Rs), "an integer register") \
Y(INT_REG, regno, "Ra", 0, F(FLD_Ra), "an integer register") \
X(INT_REG, ins_regno, ext_regrt_sysins, "Rt_SYS", 0, F(FLD_Rt), \
"an integer register") \
Y(INT_REG, regno, "Rd_SP", OPD_F_MAYBE_SP, F(FLD_Rd), \
"an integer or stack pointer register") \
Y(INT_REG, regno, "Rn_SP", OPD_F_MAYBE_SP, F(FLD_Rn), \
"an integer or stack pointer register") \
Y(MODIFIED_REG, reg_extended, "Rm_EXT", 0, F(), \
"an integer register with optional extension") \
Y(MODIFIED_REG, reg_shifted, "Rm_SFT", 0, F(), \
"an integer register with optional shift") \
Y(FP_REG, regno, "Fd", 0, F(FLD_Rd), "a floating-point register") \
Y(FP_REG, regno, "Fn", 0, F(FLD_Rn), "a floating-point register") \
Y(FP_REG, regno, "Fm", 0, F(FLD_Rm), "a floating-point register") \
Y(FP_REG, regno, "Fa", 0, F(FLD_Ra), "a floating-point register") \
Y(FP_REG, ft, "Ft", 0, F(FLD_Rt), "a floating-point register") \
Y(FP_REG, regno, "Ft2", 0, F(FLD_Rt2), "a floating-point register") \
Y(SISD_REG, regno, "Sd", 0, F(FLD_Rd), "a SIMD scalar register") \
Y(SISD_REG, regno, "Sn", 0, F(FLD_Rn), "a SIMD scalar register") \
Y(SISD_REG, regno, "Sm", 0, F(FLD_Rm), "a SIMD scalar register") \
Y(SIMD_REG, regno, "Vd", 0, F(FLD_Rd), "a SIMD vector register") \
Y(SIMD_REG, regno, "Vn", 0, F(FLD_Rn), "a SIMD vector register") \
Y(SIMD_REG, regno, "Vm", 0, F(FLD_Rm), "a SIMD vector register") \
Y(FP_REG, regno, "VdD1", 0, F(FLD_Rd), \
"the top half of a 128-bit FP/SIMD register") \
Y(FP_REG, regno, "VnD1", 0, F(FLD_Rn), \
"the top half of a 128-bit FP/SIMD register") \
Y(SIMD_ELEMENT, reglane, "Ed", 0, F(FLD_Rd), \
"a SIMD vector element") \
Y(SIMD_ELEMENT, reglane, "En", 0, F(FLD_Rn), \
"a SIMD vector element") \
Y(SIMD_ELEMENT, reglane, "Em", 0, F(FLD_Rm), \
"a SIMD vector element") \
Y(SIMD_REGLIST, reglist, "LVn", 0, F(FLD_Rn), \
"a SIMD vector register list") \
Y(SIMD_REGLIST, ldst_reglist, "LVt", 0, F(), \
"a SIMD vector register list") \
Y(SIMD_REGLIST, ldst_reglist_r, "LVt_AL", 0, F(), \
"a SIMD vector register list") \
Y(SIMD_REGLIST, ldst_elemlist, "LEt", 0, F(), \
"a SIMD vector element list") \
Y(CP_REG, regno, "Cn", 0, F(FLD_CRn), \
"a 4-bit opcode field named for historical reasons C0 - C15") \
Y(CP_REG, regno, "Cm", 0, F(FLD_CRm), \
"a 4-bit opcode field named for historical reasons C0 - C15") \
Y(IMMEDIATE, imm, "IDX", 0, F(FLD_imm4), \
"an immediate as the index of the least significant byte") \
Y(IMMEDIATE, advsimd_imm_shift, "IMM_VLSL", 0, F(), \
"a left shift amount for an AdvSIMD register") \
Y(IMMEDIATE, advsimd_imm_shift, "IMM_VLSR", 0, F(), \
"a right shift amount for an AdvSIMD register") \
Y(IMMEDIATE, advsimd_imm_modified, "SIMD_IMM", 0, F(), \
"an immediate") \
Y(IMMEDIATE, advsimd_imm_modified, "SIMD_IMM_SFT", 0, F(), \
"an 8-bit unsigned immediate with optional shift") \
Y(IMMEDIATE, advsimd_imm_modified, "SIMD_FPIMM", 0, F(), \
"an 8-bit floating-point constant") \
X(IMMEDIATE, 0, ext_shll_imm, "SHLL_IMM", 0, F(), \
"an immediate shift amount of 8, 16 or 32") \
X(IMMEDIATE, 0, 0, "IMM0", 0, F(), "0") \
X(IMMEDIATE, 0, 0, "FPIMM0", 0, F(), "0.0") \
Y(IMMEDIATE, imm, "FPIMM", 0, F(FLD_imm8), \
"an 8-bit floating-point constant") \
Y(IMMEDIATE, imm, "IMMR", 0, F(FLD_immr), \
"the right rotate amount") \
Y(IMMEDIATE, imm, "IMMS", 0, F(FLD_imm6), \
"the leftmost bit number to be moved from the source") \
Y(IMMEDIATE, imm, "WIDTH", 0, F(FLD_imm6), \
"the width of the bit-field") \
Y(IMMEDIATE, imm, "IMM", 0, F(FLD_imm6), "an immediate") \
Y(IMMEDIATE, imm, "UIMM3_OP1", 0, F(FLD_op1), \
"a 3-bit unsigned immediate") \
Y(IMMEDIATE, imm, "UIMM3_OP2", 0, F(FLD_op2), \
"a 3-bit unsigned immediate") \
Y(IMMEDIATE, imm, "UIMM4", 0, F(FLD_CRm), \
"a 4-bit unsigned immediate") \
Y(IMMEDIATE, imm, "UIMM7", 0, F(FLD_CRm, FLD_op2), \
"a 7-bit unsigned immediate") \
Y(IMMEDIATE, imm, "BIT_NUM", 0, F(FLD_b5, FLD_b40), \
"the bit number to be tested") \
Y(IMMEDIATE, imm, "EXCEPTION", 0, F(FLD_imm16), \
"a 16-bit unsigned immediate") \
Y(IMMEDIATE, imm, "CCMP_IMM", 0, F(FLD_imm5), \
"a 5-bit unsigned immediate") \
Y(IMMEDIATE, imm, "NZCV", 0, F(FLD_nzcv), \
"a flag bit specifier giving an alternative value for each flag") \
Y(IMMEDIATE, limm, "LIMM", 0, F(FLD_N,FLD_immr,FLD_imms), \
"Logical immediate") \
Y(IMMEDIATE, aimm, "AIMM", 0, F(FLD_shift,FLD_imm12), \
"a 12-bit unsigned immediate with optional left shift of 12 bits")\
Y(IMMEDIATE, imm_half, "HALF", 0, F(FLD_imm16), \
"a 16-bit immediate with optional left shift") \
Y(IMMEDIATE, fbits, "FBITS", 0, F(FLD_scale), \
"the number of bits after the binary point in the fixed-point value")\
X(IMMEDIATE, 0, 0, "IMM_MOV", 0, F(), "an immediate") \
Y(NIL, cond, "COND", 0, F(), "a condition") \
X(ADDRESS, 0, ext_imm, "ADDR_ADRP", OPD_F_SEXT, F(FLD_immhi, FLD_immlo),\
"21-bit PC-relative address of a 4KB page") \
Y(ADDRESS, imm, "ADDR_PCREL14", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \
F(FLD_imm14), "14-bit PC-relative address") \
Y(ADDRESS, imm, "ADDR_PCREL19", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \
F(FLD_imm19), "19-bit PC-relative address") \
Y(ADDRESS, imm, "ADDR_PCREL21", OPD_F_SEXT, F(FLD_immhi,FLD_immlo), \
"21-bit PC-relative address") \
Y(ADDRESS, imm, "ADDR_PCREL26", OPD_F_SEXT | OPD_F_SHIFT_BY_2, \
F(FLD_imm26), "26-bit PC-relative address") \
Y(ADDRESS, addr_simple, "ADDR_SIMPLE", 0, F(), \
"an address with base register (no offset)") \
Y(ADDRESS, addr_regoff, "ADDR_REGOFF", 0, F(), \
"an address with register offset") \
Y(ADDRESS, addr_simm, "ADDR_SIMM7", 0, F(FLD_imm7,FLD_index2), \
"an address with 7-bit signed immediate offset") \
Y(ADDRESS, addr_simm, "ADDR_SIMM9", 0, F(FLD_imm9,FLD_index), \
"an address with 9-bit signed immediate offset") \
Y(ADDRESS, addr_simm, "ADDR_SIMM9_2", 0, F(FLD_imm9,FLD_index), \
"an address with 9-bit negative or unaligned immediate offset") \
Y(ADDRESS, addr_uimm12, "ADDR_UIMM12", 0, F(FLD_Rn,FLD_imm12), \
"an address with scaled, unsigned immediate offset") \
Y(ADDRESS, addr_simple, "SIMD_ADDR_SIMPLE", 0, F(), \
"an address with base register (no offset)") \
Y(ADDRESS, simd_addr_post, "SIMD_ADDR_POST", 0, F(), \
"a post-indexed address with immediate or register increment") \
Y(SYSTEM, sysreg, "SYSREG", 0, F(), "a system register") \
Y(SYSTEM, pstatefield, "PSTATEFIELD", 0, F(), \
"a PSTATE field name") \
Y(SYSTEM, sysins_op, "SYSREG_AT", 0, F(), \
"an address translation operation specifier") \
Y(SYSTEM, sysins_op, "SYSREG_DC", 0, F(), \
"a data cache maintenance operation specifier") \
Y(SYSTEM, sysins_op, "SYSREG_IC", 0, F(), \
"an instructin cache maintenance operation specifier") \
Y(SYSTEM, sysins_op, "SYSREG_TLBI", 0, F(), \
"a TBL invalidation operation specifier") \
Y(SYSTEM, barrier, "BARRIER", 0, F(), \
"a barrier option name") \
Y(SYSTEM, barrier, "BARRIER_ISB", 0, F(), \
"the ISB option name SY or an optional 4-bit unsigned immediate") \
Y(SYSTEM, prfop, "PRFOP", 0, F(), \
"an prefetch operation specifier")