opcodes/aarch64-opc.h - binutils-gdb - Git at Google

 /* aarch64-opc.h -- Header file for aarch64-opc.c and aarch64-opc-2.c.
    Copyright (C) 2012-2024 Free Software Foundation, Inc.
    Contributed by ARM Ltd.

    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 program; see the file COPYING3. If not,
    see <http://www.gnu.org/licenses/>.  */

 #ifndef OPCODES_AARCH64_OPC_H
 #define OPCODES_AARCH64_OPC_H

 #include <string.h>
 #include "opcode/aarch64.h"

 /* Instruction fields.
    Keep this sorted alphanumerically and synced with the fields array
    in aarch64-opc.c.  */
 enum aarch64_field_kind
 {
   FLD_NIL,
   FLD_CRm,
   FLD_CRm_dsb_nxs,
   FLD_CRn,
   FLD_CSSC_imm8,
   FLD_H,
   FLD_L,
   FLD_LSE128_Rt,
   FLD_LSE128_Rt2,
   FLD_M,
   FLD_N,
   FLD_Q,
   FLD_Ra,
   FLD_Rd,
   FLD_Rm,
   FLD_Rn,
   FLD_Rs,
   FLD_Rt,
   FLD_Rt2,
   FLD_S,
   FLD_SM3_imm2,
   FLD_SME_Pdx2,
   FLD_SME_Pm,
   FLD_SME_PNd3,
   FLD_SME_PNn3,
   FLD_SME_Q,
   FLD_SME_Rm,
   FLD_SME_Rv,
   FLD_SME_V,
   FLD_SME_VL_10,
   FLD_SME_VL_13,
   FLD_SME_ZAda_2b,
   FLD_SME_ZAda_3b,
   FLD_SME_Zdn2,
   FLD_SME_Zdn4,
   FLD_SME_Zm,
   FLD_SME_Zm2,
   FLD_SME_Zm4,
   FLD_SME_Zn2,
   FLD_SME_Zn4,
   FLD_SME_ZtT,
   FLD_SME_Zt3,
   FLD_SME_Zt2,
   FLD_SME_i1,
   FLD_SME_size_12,
   FLD_SME_size_22,
   FLD_SME_sz_23,
   FLD_SME_tszh,
   FLD_SME_tszl,
   FLD_SME_zero_mask,
   FLD_SVE_M_4,
   FLD_SVE_M_14,
   FLD_SVE_M_16,
   FLD_SVE_N,
   FLD_SVE_Pd,
   FLD_SVE_Pg3,
   FLD_SVE_Pg4_5,
   FLD_SVE_Pg4_10,
   FLD_SVE_Pg4_16,
   FLD_SVE_Pm,
   FLD_SVE_Pn,
   FLD_SVE_Pt,
   FLD_SVE_Rm,
   FLD_SVE_Rn,
   FLD_SVE_Vd,
   FLD_SVE_Vm,
   FLD_SVE_Vn,
   FLD_SVE_Za_5,
   FLD_SVE_Za_16,
   FLD_SVE_Zd,
   FLD_SVE_Zm_5,
   FLD_SVE_Zm_16,
   FLD_SVE_Zn,
   FLD_SVE_Zt,
   FLD_SVE_i1,
   FLD_SVE_i2h,
   FLD_SVE_i3h,
   FLD_SVE_i3h2,
   FLD_SVE_i3l,
   FLD_SVE_imm3,
   FLD_SVE_imm4,
   FLD_SVE_imm5,
   FLD_SVE_imm5b,
   FLD_SVE_imm6,
   FLD_SVE_imm7,
   FLD_SVE_imm8,
   FLD_SVE_imm9,
   FLD_SVE_immr,
   FLD_SVE_imms,
   FLD_SVE_msz,
   FLD_SVE_pattern,
   FLD_SVE_prfop,
   FLD_SVE_rot1,
   FLD_SVE_rot2,
   FLD_SVE_rot3,
   FLD_SVE_size,
   FLD_SVE_sz,
   FLD_SVE_sz2,
   FLD_SVE_tsz,
   FLD_SVE_tszh,
   FLD_SVE_tszl_8,
   FLD_SVE_tszl_19,
   FLD_SVE_xs_14,
   FLD_SVE_xs_22,
   FLD_S_imm10,
   FLD_abc,
   FLD_asisdlso_opcode,
   FLD_b40,
   FLD_b5,
   FLD_cmode,
   FLD_cond,
   FLD_cond2,
   FLD_defgh,
   FLD_hw,
   FLD_imm1_0,
   FLD_imm1_2,
   FLD_imm1_8,
   FLD_imm1_10,
   FLD_imm1_15,
   FLD_imm1_16,
   FLD_imm2_0,
   FLD_imm2_1,
   FLD_imm2_8,
   FLD_imm2_10,
   FLD_imm2_12,
   FLD_imm2_15,
   FLD_imm2_16,
   FLD_imm2_19,
   FLD_imm3_0,
   FLD_imm3_5,
   FLD_imm3_10,
   FLD_imm3_12,
   FLD_imm3_14,
   FLD_imm3_15,
   FLD_imm4_0,
   FLD_imm4_5,
   FLD_imm4_10,
   FLD_imm4_11,
   FLD_imm4_14,
   FLD_imm5,
   FLD_imm6_10,
   FLD_imm6_15,
   FLD_imm7,
   FLD_imm8,
   FLD_imm9,
   FLD_imm12,
   FLD_imm14,
   FLD_imm16_0,
   FLD_imm16_5,
   FLD_imm19,
   FLD_imm26,
   FLD_immb,
   FLD_immh,
   FLD_immhi,
   FLD_immlo,
   FLD_immr,
   FLD_imms,
   FLD_index,
   FLD_index2,
   FLD_ldst_size,
   FLD_len,
   FLD_lse_sz,
   FLD_nzcv,
   FLD_op,
   FLD_op0,
   FLD_op1,
   FLD_op2,
   FLD_opc,
   FLD_opc1,
   FLD_opcode,
   FLD_option,
   FLD_rotate1,
   FLD_rotate2,
   FLD_rotate3,
   FLD_scale,
   FLD_sf,
   FLD_shift,
   FLD_size,
   FLD_sz,
   FLD_type,
   FLD_vldst_size,
   FLD_off3,
   FLD_off2,
   FLD_ZAn_1,
   FLD_ol,
   FLD_ZAn_2,
   FLD_ZAn_3,
   FLD_ZAn,
   FLD_opc2,
   FLD_rcpc3_size,
 };

 /* Field description.  */
 struct aarch64_field
 {
   int lsb;
   int width;
 };

 typedef struct aarch64_field aarch64_field;

 extern const aarch64_field fields[];

 /* Operand description.  */

 struct aarch64_operand
 {
   enum aarch64_operand_class op_class;

   /* Name of the operand code; used mainly for the purpose of internal
      debugging.  */
   const char *name;

   unsigned int flags;

   /* The associated instruction bit-fields; no operand has more than 4
      bit-fields */
   enum aarch64_field_kind fields[5];

   /* Brief description */
   const char *desc;
 };

 typedef struct aarch64_operand aarch64_operand;

 extern const aarch64_operand aarch64_operands[];

 enum err_type
 verify_constraints (const struct aarch64_inst *, const aarch64_insn, bfd_vma,
 		    bool, aarch64_operand_error *, aarch64_instr_sequence*);

 /* Operand flags.  */

 #define OPD_F_HAS_INSERTER	0x00000001
 #define OPD_F_HAS_EXTRACTOR	0x00000002
 #define OPD_F_SEXT		0x00000004	/* Require sign-extension.  */
 #define OPD_F_SHIFT_BY_2	0x00000008	/* Need to left shift the field
 						   value by 2 to get the value
 						   of an immediate operand.  */
 #define OPD_F_MAYBE_SP		0x00000010	/* May potentially be SP.  */
 #define OPD_F_OD_MASK		0x000001e0	/* Operand-dependent data.  */
 #define OPD_F_OD_LSB		5
 #define OPD_F_NO_ZR		0x00000200	/* ZR index not allowed.  */
 #define OPD_F_SHIFT_BY_3	0x00000400	/* Need to left shift the field
 						   value by 3 to get the value
 						   of an immediate operand.  */
 #define OPD_F_SHIFT_BY_4	0x00000800	/* Need to left shift the field
 						   value by 4 to get the value
 						   of an immediate operand.  */


 /* Register flags.  */

 #undef F_DEPRECATED
 #define F_DEPRECATED	(1 << 0)  /* Deprecated system register.  */

 #undef F_ARCHEXT
 #define F_ARCHEXT	(1 << 1)  /* Architecture dependent system register.  */

 #undef F_HASXT
 #define F_HASXT		(1 << 2)  /* System instruction register <Xt>
 				     operand.  */

 #undef F_REG_READ
 #define F_REG_READ	(1 << 3)  /* Register can only be used to read values
 				     out of.  */

 #undef F_REG_WRITE
 #define F_REG_WRITE	(1 << 4)  /* Register can only be written to but not
 				     read from.  */

 #undef F_REG_IN_CRM
 #define F_REG_IN_CRM	(1 << 5)  /* Register extra encoding in CRm.  */

 #undef F_REG_ALIAS
 #define F_REG_ALIAS	(1 << 6)  /* Register name aliases another.  */

 #undef F_REG_128
 #define F_REG_128	(1 << 7) /* System regsister implementable as 128-bit wide.  */


 /* PSTATE field name for the MSR instruction this is encoded in "op1:op2:CRm".
    Part of CRm can be used to encode <pstatefield>. E.g. CRm[3:1] for SME.
    In order to set/get full PSTATE field name use flag F_REG_IN_CRM and below
    macros to encode and decode CRm encoding.
 */
 #define PSTATE_ENCODE_CRM(val) (val << 6)
 #define PSTATE_DECODE_CRM(flags) ((flags >> 6) & 0x0f)

 #undef F_IMM_IN_CRM
 #define F_IMM_IN_CRM	(1 << 10)  /* Immediate extra encoding in CRm.  */

 /* Also CRm may contain, in addition to <pstatefield> immediate.
    E.g. CRm[0] <imm1> at bit 0 for SME. Use below macros to encode and decode
    immediate mask.
 */
 #define PSTATE_ENCODE_CRM_IMM(mask) (mask << 11)
 #define PSTATE_DECODE_CRM_IMM(mask) ((mask >> 11) & 0x0f)

 /* Helper macro to ENCODE CRm and its immediate.  */
 #define PSTATE_ENCODE_CRM_AND_IMM(CVAL,IMASK) \
         (F_REG_IN_CRM | PSTATE_ENCODE_CRM(CVAL) \
          | F_IMM_IN_CRM | PSTATE_ENCODE_CRM_IMM(IMASK))

 /* Bits [15, 18] contain the maximum value for an immediate MSR.  */
 #define F_REG_MAX_VALUE(X) ((X) << 15)
 #define F_GET_REG_MAX_VALUE(X) (((X) >> 15) & 0x0f)

 /* HINT operand flags.  */
 #define HINT_OPD_F_NOPRINT	(1 << 0)  /* Should not be printed.  */

 /* Encode 7-bit HINT #imm in the lower 8 bits.  Use higher bits for flags.  */
 #define HINT_ENCODE(flag, val) ((flag << 8) | val)
 #define HINT_FLAG(val) (val >> 8)
 #define HINT_VAL(val) (val & 0xff)

 static inline bool
 operand_has_inserter (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_HAS_INSERTER) != 0;
 }

 static inline bool
 operand_has_extractor (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_HAS_EXTRACTOR) != 0;
 }

 static inline bool
 operand_need_sign_extension (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_SEXT) != 0;
 }

 static inline bool
 operand_need_shift_by_two (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_SHIFT_BY_2) != 0;
 }

 static inline bool
 operand_need_shift_by_three (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_SHIFT_BY_3) != 0;
 }

 static inline bool
 operand_need_shift_by_four (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_SHIFT_BY_4) != 0;
 }

 static inline bool
 operand_maybe_stack_pointer (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_MAYBE_SP) != 0;
 }

 /* Return the value of the operand-specific data field (OPD_F_OD_MASK).  */
 static inline unsigned int
 get_operand_specific_data (const aarch64_operand *operand)
 {
   return (operand->flags & OPD_F_OD_MASK) >> OPD_F_OD_LSB;
 }

 /* Return the width of field number N of operand *OPERAND.  */
 static inline unsigned
 get_operand_field_width (const aarch64_operand *operand, unsigned n)
 {
   assert (operand->fields[n] != FLD_NIL);
   return fields[operand->fields[n]].width;
 }

 /* Return the total width of the operand *OPERAND.  */
 static inline unsigned
 get_operand_fields_width (const aarch64_operand *operand)
 {
   int i = 0;
   unsigned width = 0;
   while (operand->fields[i] != FLD_NIL)
     width += fields[operand->fields[i++]].width;
   assert (width > 0 && width < 32);
   return width;
 }

 static inline const aarch64_operand *
 get_operand_from_code (enum aarch64_opnd code)
 {
   return aarch64_operands + code;
 }

 /* Operand qualifier and operand constraint checking.  */

 int aarch64_match_operands_constraint (aarch64_inst *,
 				       aarch64_operand_error *);

 /* Operand qualifier related functions.  */
 const char* aarch64_get_qualifier_name (aarch64_opnd_qualifier_t);
 unsigned char aarch64_get_qualifier_nelem (aarch64_opnd_qualifier_t);
 aarch64_insn aarch64_get_qualifier_standard_value (aarch64_opnd_qualifier_t);
 int aarch64_find_best_match (const aarch64_inst *,
 			     const aarch64_opnd_qualifier_seq_t *,
 			     int, aarch64_opnd_qualifier_t *, int *);

 static inline void
 reset_operand_qualifier (aarch64_inst *inst, int idx)
 {
   assert (idx >=0 && idx < aarch64_num_of_operands (inst->opcode));
   inst->operands[idx].qualifier = AARCH64_OPND_QLF_NIL;
 }

 /* Inline functions operating on instruction bit-field(s).  */

 /* Generate a mask that has WIDTH number of consecutive 1s.  */

 static inline aarch64_insn
 gen_mask (int width)
 {
   return ((aarch64_insn) 1 << width) - 1;
 }

 /* LSB_REL is the relative location of the lsb in the sub field, starting from 0.  */
 static inline int
 gen_sub_field (enum aarch64_field_kind kind, int lsb_rel, int width, aarch64_field *ret)
 {
   const aarch64_field *field = &fields[kind];
   if (lsb_rel < 0 || width <= 0 || lsb_rel + width > field->width)
     return 0;
   ret->lsb = field->lsb + lsb_rel;
   ret->width = width;
   return 1;
 }

 /* Insert VALUE into FIELD of CODE.  MASK can be zero or the base mask
    of the opcode.  */

 static inline void
 insert_field_2 (const aarch64_field *field, aarch64_insn *code,
 		aarch64_insn value, aarch64_insn mask)
 {
   assert (field->width < 32 && field->width >= 1 && field->lsb >= 0
 	  && field->lsb + field->width <= 32);
   value &= gen_mask (field->width);
   value <<= field->lsb;
   /* In some opcodes, field can be part of the base opcode, e.g. the size
      field in FADD.  The following helps avoid corrupt the base opcode.  */
   value &= ~mask;
   *code |= value;
 }

 /* Extract FIELD of CODE and return the value.  MASK can be zero or the base
    mask of the opcode.  */

 static inline aarch64_insn
 extract_field_2 (const aarch64_field *field, aarch64_insn code,
 		 aarch64_insn mask)
 {
   aarch64_insn value;
   /* Clear any bit that is a part of the base opcode.  */
   code &= ~mask;
   value = (code >> field->lsb) & gen_mask (field->width);
   return value;
 }

 /* Insert VALUE into field KIND of CODE.  MASK can be zero or the base mask
    of the opcode.  */

 static inline void
 insert_field (enum aarch64_field_kind kind, aarch64_insn *code,
 	      aarch64_insn value, aarch64_insn mask)
 {
   insert_field_2 (&fields[kind], code, value, mask);
 }

 /* Extract field KIND of CODE and return the value.  MASK can be zero or the
    base mask of the opcode.  */

 static inline aarch64_insn
 extract_field (enum aarch64_field_kind kind, aarch64_insn code,
 	       aarch64_insn mask)
 {
   return extract_field_2 (&fields[kind], code, mask);
 }

 extern aarch64_insn
 extract_fields (aarch64_insn code, aarch64_insn mask, ...);

 /* Inline functions selecting operand to do the encoding/decoding for a
    certain instruction bit-field.  */

 /* Select the operand to do the encoding/decoding of the 'sf' field.
    The heuristic-based rule is that the result operand is respected more.  */

 static inline int
 select_operand_for_sf_field_coding (const aarch64_opcode *opcode)
 {
   int idx = -1;
   if (aarch64_get_operand_class (opcode->operands[0])
       == AARCH64_OPND_CLASS_INT_REG)
     /* normal case.  */
     idx = 0;
   else if (aarch64_get_operand_class (opcode->operands[1])
 	   == AARCH64_OPND_CLASS_INT_REG)
     /* e.g. float2fix.  */
     idx = 1;
   else
     { assert (0); abort (); }
   return idx;
 }

 /* Select the operand to do the encoding/decoding of the 'type' field in
    the floating-point instructions.
    The heuristic-based rule is that the source operand is respected more.  */

 static inline int
 select_operand_for_fptype_field_coding (const aarch64_opcode *opcode)
 {
   int idx;
   if (aarch64_get_operand_class (opcode->operands[1])
       == AARCH64_OPND_CLASS_FP_REG)
     /* normal case.  */
     idx = 1;
   else if (aarch64_get_operand_class (opcode->operands[0])
 	   == AARCH64_OPND_CLASS_FP_REG)
     /* e.g. float2fix.  */
     idx = 0;
   else
     { assert (0); abort (); }
   return idx;
 }

 /* Select the operand to do the encoding/decoding of the 'size' field in
    the AdvSIMD scalar instructions.
    The heuristic-based rule is that the destination operand is respected
    more.  */

 static inline int
 select_operand_for_scalar_size_field_coding (const aarch64_opcode *opcode)
 {
   int src_size = 0, dst_size = 0;
   if (aarch64_get_operand_class (opcode->operands[0])
       == AARCH64_OPND_CLASS_SISD_REG)
     dst_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][0]);
   if (aarch64_get_operand_class (opcode->operands[1])
       == AARCH64_OPND_CLASS_SISD_REG)
     src_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][1]);
   if (src_size == dst_size && src_size == 0)
     { assert (0); abort (); }
   /* When the result is not a sisd register or it is a long operantion.  */
   if (dst_size == 0 || dst_size == src_size << 1)
     return 1;
   else
     return 0;
 }

 /* Select the operand to do the encoding/decoding of the 'size:Q' fields in
    the AdvSIMD instructions.  */

 int aarch64_select_operand_for_sizeq_field_coding (const aarch64_opcode *);

 /* Miscellaneous.  */

 aarch64_insn aarch64_get_operand_modifier_value (enum aarch64_modifier_kind);
 enum aarch64_modifier_kind
 aarch64_get_operand_modifier_from_value (aarch64_insn, bool);


 bool aarch64_wide_constant_p (uint64_t, int, unsigned int *);
 bool aarch64_logical_immediate_p (uint64_t, int, aarch64_insn *);
 int aarch64_shrink_expanded_imm8 (uint64_t);

 /* Copy the content of INST->OPERANDS[SRC] to INST->OPERANDS[DST].  */
 static inline void
 copy_operand_info (aarch64_inst *inst, int dst, int src)
 {
   assert (dst >= 0 && src >= 0 && dst < AARCH64_MAX_OPND_NUM
 	  && src < AARCH64_MAX_OPND_NUM);
   memcpy (&inst->operands[dst], &inst->operands[src],
 	  sizeof (aarch64_opnd_info));
   inst->operands[dst].idx = dst;
 }

 /* A primitive log caculator.  */

 static inline unsigned int
 get_logsz (unsigned int size)
 {
   const unsigned char ls[16] =
     {0, 1, -1, 2, -1, -1, -1, 3, -1, -1, -1, -1, -1, -1, -1, 4};
   if (size > 16)
     {
       assert (0);
       return -1;
     }
   assert (ls[size - 1] != (unsigned char)-1);
   return ls[size - 1];
 }

 #endif /* OPCODES_AARCH64_OPC_H */
	/* aarch64-opc.h -- Header file for aarch64-opc.c and aarch64-opc-2.c.
	Copyright (C) 2012-2024 Free Software Foundation, Inc.
	Contributed by ARM Ltd.

	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 program; see the file COPYING3. If not,
	see <http://www.gnu.org/licenses/>. */

	#ifndef OPCODES_AARCH64_OPC_H
	#define OPCODES_AARCH64_OPC_H

	#include <string.h>
	#include "opcode/aarch64.h"

	/* Instruction fields.
	Keep this sorted alphanumerically and synced with the fields array
	in aarch64-opc.c. */
	enum aarch64_field_kind
	{
	FLD_NIL,
	FLD_CRm,
	FLD_CRm_dsb_nxs,
	FLD_CRn,
	FLD_CSSC_imm8,
	FLD_H,
	FLD_L,
	FLD_LSE128_Rt,
	FLD_LSE128_Rt2,
	FLD_M,
	FLD_N,
	FLD_Q,
	FLD_Ra,
	FLD_Rd,
	FLD_Rm,
	FLD_Rn,
	FLD_Rs,
	FLD_Rt,
	FLD_Rt2,
	FLD_S,
	FLD_SM3_imm2,
	FLD_SME_Pdx2,
	FLD_SME_Pm,
	FLD_SME_PNd3,
	FLD_SME_PNn3,
	FLD_SME_Q,
	FLD_SME_Rm,
	FLD_SME_Rv,
	FLD_SME_V,
	FLD_SME_VL_10,
	FLD_SME_VL_13,
	FLD_SME_ZAda_2b,
	FLD_SME_ZAda_3b,
	FLD_SME_Zdn2,
	FLD_SME_Zdn4,
	FLD_SME_Zm,
	FLD_SME_Zm2,
	FLD_SME_Zm4,
	FLD_SME_Zn2,
	FLD_SME_Zn4,
	FLD_SME_ZtT,
	FLD_SME_Zt3,
	FLD_SME_Zt2,
	FLD_SME_i1,
	FLD_SME_size_12,
	FLD_SME_size_22,
	FLD_SME_sz_23,
	FLD_SME_tszh,
	FLD_SME_tszl,
	FLD_SME_zero_mask,
	FLD_SVE_M_4,
	FLD_SVE_M_14,
	FLD_SVE_M_16,
	FLD_SVE_N,
	FLD_SVE_Pd,
	FLD_SVE_Pg3,
	FLD_SVE_Pg4_5,
	FLD_SVE_Pg4_10,
	FLD_SVE_Pg4_16,
	FLD_SVE_Pm,
	FLD_SVE_Pn,
	FLD_SVE_Pt,
	FLD_SVE_Rm,
	FLD_SVE_Rn,
	FLD_SVE_Vd,
	FLD_SVE_Vm,
	FLD_SVE_Vn,
	FLD_SVE_Za_5,
	FLD_SVE_Za_16,
	FLD_SVE_Zd,
	FLD_SVE_Zm_5,
	FLD_SVE_Zm_16,
	FLD_SVE_Zn,
	FLD_SVE_Zt,
	FLD_SVE_i1,
	FLD_SVE_i2h,
	FLD_SVE_i3h,
	FLD_SVE_i3h2,
	FLD_SVE_i3l,
	FLD_SVE_imm3,
	FLD_SVE_imm4,
	FLD_SVE_imm5,
	FLD_SVE_imm5b,
	FLD_SVE_imm6,
	FLD_SVE_imm7,
	FLD_SVE_imm8,
	FLD_SVE_imm9,
	FLD_SVE_immr,
	FLD_SVE_imms,
	FLD_SVE_msz,
	FLD_SVE_pattern,
	FLD_SVE_prfop,
	FLD_SVE_rot1,
	FLD_SVE_rot2,
	FLD_SVE_rot3,
	FLD_SVE_size,
	FLD_SVE_sz,
	FLD_SVE_sz2,
	FLD_SVE_tsz,
	FLD_SVE_tszh,
	FLD_SVE_tszl_8,
	FLD_SVE_tszl_19,
	FLD_SVE_xs_14,
	FLD_SVE_xs_22,
	FLD_S_imm10,
	FLD_abc,
	FLD_asisdlso_opcode,
	FLD_b40,
	FLD_b5,
	FLD_cmode,
	FLD_cond,
	FLD_cond2,
	FLD_defgh,
	FLD_hw,
	FLD_imm1_0,
	FLD_imm1_2,
	FLD_imm1_8,
	FLD_imm1_10,
	FLD_imm1_15,
	FLD_imm1_16,
	FLD_imm2_0,
	FLD_imm2_1,
	FLD_imm2_8,
	FLD_imm2_10,
	FLD_imm2_12,
	FLD_imm2_15,
	FLD_imm2_16,
	FLD_imm2_19,
	FLD_imm3_0,
	FLD_imm3_5,
	FLD_imm3_10,
	FLD_imm3_12,
	FLD_imm3_14,
	FLD_imm3_15,
	FLD_imm4_0,
	FLD_imm4_5,
	FLD_imm4_10,
	FLD_imm4_11,
	FLD_imm4_14,
	FLD_imm5,
	FLD_imm6_10,
	FLD_imm6_15,
	FLD_imm7,
	FLD_imm8,
	FLD_imm9,
	FLD_imm12,
	FLD_imm14,
	FLD_imm16_0,
	FLD_imm16_5,
	FLD_imm19,
	FLD_imm26,
	FLD_immb,
	FLD_immh,
	FLD_immhi,
	FLD_immlo,
	FLD_immr,
	FLD_imms,
	FLD_index,
	FLD_index2,
	FLD_ldst_size,
	FLD_len,
	FLD_lse_sz,
	FLD_nzcv,
	FLD_op,
	FLD_op0,
	FLD_op1,
	FLD_op2,
	FLD_opc,
	FLD_opc1,
	FLD_opcode,
	FLD_option,
	FLD_rotate1,
	FLD_rotate2,
	FLD_rotate3,
	FLD_scale,
	FLD_sf,
	FLD_shift,
	FLD_size,
	FLD_sz,
	FLD_type,
	FLD_vldst_size,
	FLD_off3,
	FLD_off2,
	FLD_ZAn_1,
	FLD_ol,
	FLD_ZAn_2,
	FLD_ZAn_3,
	FLD_ZAn,
	FLD_opc2,
	FLD_rcpc3_size,
	};

	/* Field description. */
	struct aarch64_field
	{
	int lsb;
	int width;
	};

	typedef struct aarch64_field aarch64_field;

	extern const aarch64_field fields[];

	/* Operand description. */

	struct aarch64_operand
	{
	enum aarch64_operand_class op_class;

	/* Name of the operand code; used mainly for the purpose of internal
	debugging. */
	const char *name;

	unsigned int flags;

	/* The associated instruction bit-fields; no operand has more than 4
	bit-fields */
	enum aarch64_field_kind fields[5];

	/* Brief description */
	const char *desc;
	};

	typedef struct aarch64_operand aarch64_operand;

	extern const aarch64_operand aarch64_operands[];

	enum err_type
	verify_constraints (const struct aarch64_inst *, const aarch64_insn, bfd_vma,
	bool, aarch64_operand_error , aarch64_instr_sequence);

	/* Operand flags. */

	#define OPD_F_HAS_INSERTER 0x00000001
	#define OPD_F_HAS_EXTRACTOR 0x00000002
	#define OPD_F_SEXT 0x00000004 /* Require sign-extension. */
	#define OPD_F_SHIFT_BY_2 0x00000008 /* Need to left shift the field
	value by 2 to get the value
	of an immediate operand. */
	#define OPD_F_MAYBE_SP 0x00000010 /* May potentially be SP. */
	#define OPD_F_OD_MASK 0x000001e0 /* Operand-dependent data. */
	#define OPD_F_OD_LSB 5
	#define OPD_F_NO_ZR 0x00000200 /* ZR index not allowed. */
	#define OPD_F_SHIFT_BY_3 0x00000400 /* Need to left shift the field
	value by 3 to get the value
	of an immediate operand. */
	#define OPD_F_SHIFT_BY_4 0x00000800 /* Need to left shift the field
	value by 4 to get the value
	of an immediate operand. */


	/* Register flags. */

	#undef F_DEPRECATED
	#define F_DEPRECATED (1 << 0) /* Deprecated system register. */

	#undef F_ARCHEXT
	#define F_ARCHEXT (1 << 1) /* Architecture dependent system register. */

	#undef F_HASXT
	#define F_HASXT (1 << 2) /* System instruction register <Xt>
	operand. */

	#undef F_REG_READ
	#define F_REG_READ (1 << 3) /* Register can only be used to read values
	out of. */

	#undef F_REG_WRITE
	#define F_REG_WRITE (1 << 4) /* Register can only be written to but not
	read from. */

	#undef F_REG_IN_CRM
	#define F_REG_IN_CRM (1 << 5) /* Register extra encoding in CRm. */

	#undef F_REG_ALIAS
	#define F_REG_ALIAS (1 << 6) /* Register name aliases another. */

	#undef F_REG_128
	#define F_REG_128 (1 << 7) /* System regsister implementable as 128-bit wide. */


	/* PSTATE field name for the MSR instruction this is encoded in "op1:op2:CRm".
	Part of CRm can be used to encode <pstatefield>. E.g. CRm[3:1] for SME.
	In order to set/get full PSTATE field name use flag F_REG_IN_CRM and below
	macros to encode and decode CRm encoding.
	*/
	#define PSTATE_ENCODE_CRM(val) (val << 6)
	#define PSTATE_DECODE_CRM(flags) ((flags >> 6) & 0x0f)

	#undef F_IMM_IN_CRM
	#define F_IMM_IN_CRM (1 << 10) /* Immediate extra encoding in CRm. */

	/* Also CRm may contain, in addition to <pstatefield> immediate.
	E.g. CRm[0] <imm1> at bit 0 for SME. Use below macros to encode and decode
	immediate mask.
	*/
	#define PSTATE_ENCODE_CRM_IMM(mask) (mask << 11)
	#define PSTATE_DECODE_CRM_IMM(mask) ((mask >> 11) & 0x0f)

	/* Helper macro to ENCODE CRm and its immediate. */
	#define PSTATE_ENCODE_CRM_AND_IMM(CVAL,IMASK) \
	(F_REG_IN_CRM \| PSTATE_ENCODE_CRM(CVAL) \
	\| F_IMM_IN_CRM \| PSTATE_ENCODE_CRM_IMM(IMASK))

	/* Bits [15, 18] contain the maximum value for an immediate MSR. */
	#define F_REG_MAX_VALUE(X) ((X) << 15)
	#define F_GET_REG_MAX_VALUE(X) (((X) >> 15) & 0x0f)

	/* HINT operand flags. */
	#define HINT_OPD_F_NOPRINT (1 << 0) /* Should not be printed. */

	/* Encode 7-bit HINT #imm in the lower 8 bits. Use higher bits for flags. */
	#define HINT_ENCODE(flag, val) ((flag << 8) \| val)
	#define HINT_FLAG(val) (val >> 8)
	#define HINT_VAL(val) (val & 0xff)

	static inline bool
	operand_has_inserter (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_HAS_INSERTER) != 0;
	}

	static inline bool
	operand_has_extractor (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_HAS_EXTRACTOR) != 0;
	}

	static inline bool
	operand_need_sign_extension (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_SEXT) != 0;
	}

	static inline bool
	operand_need_shift_by_two (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_SHIFT_BY_2) != 0;
	}

	static inline bool
	operand_need_shift_by_three (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_SHIFT_BY_3) != 0;
	}

	static inline bool
	operand_need_shift_by_four (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_SHIFT_BY_4) != 0;
	}

	static inline bool
	operand_maybe_stack_pointer (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_MAYBE_SP) != 0;
	}

	/* Return the value of the operand-specific data field (OPD_F_OD_MASK). */
	static inline unsigned int
	get_operand_specific_data (const aarch64_operand *operand)
	{
	return (operand->flags & OPD_F_OD_MASK) >> OPD_F_OD_LSB;
	}

	/* Return the width of field number N of operand OPERAND. /
	static inline unsigned
	get_operand_field_width (const aarch64_operand *operand, unsigned n)
	{
	assert (operand->fields[n] != FLD_NIL);
	return fields[operand->fields[n]].width;
	}

	/* Return the total width of the operand OPERAND. /
	static inline unsigned
	get_operand_fields_width (const aarch64_operand *operand)
	{
	int i = 0;
	unsigned width = 0;
	while (operand->fields[i] != FLD_NIL)
	width += fields[operand->fields[i++]].width;
	assert (width > 0 && width < 32);
	return width;
	}

	static inline const aarch64_operand *
	get_operand_from_code (enum aarch64_opnd code)
	{
	return aarch64_operands + code;
	}

	/* Operand qualifier and operand constraint checking. */

	int aarch64_match_operands_constraint (aarch64_inst *,
	aarch64_operand_error *);

	/* Operand qualifier related functions. */
	const char* aarch64_get_qualifier_name (aarch64_opnd_qualifier_t);
	unsigned char aarch64_get_qualifier_nelem (aarch64_opnd_qualifier_t);
	aarch64_insn aarch64_get_qualifier_standard_value (aarch64_opnd_qualifier_t);
	int aarch64_find_best_match (const aarch64_inst *,
	const aarch64_opnd_qualifier_seq_t *,
	int, aarch64_opnd_qualifier_t , int );

	static inline void
	reset_operand_qualifier (aarch64_inst *inst, int idx)
	{
	assert (idx >=0 && idx < aarch64_num_of_operands (inst->opcode));
	inst->operands[idx].qualifier = AARCH64_OPND_QLF_NIL;
	}

	/* Inline functions operating on instruction bit-field(s). */

	/* Generate a mask that has WIDTH number of consecutive 1s. */

	static inline aarch64_insn
	gen_mask (int width)
	{
	return ((aarch64_insn) 1 << width) - 1;
	}

	/* LSB_REL is the relative location of the lsb in the sub field, starting from 0. */
	static inline int
	gen_sub_field (enum aarch64_field_kind kind, int lsb_rel, int width, aarch64_field *ret)
	{
	const aarch64_field *field = &fields[kind];
	if (lsb_rel < 0 \|\| width <= 0 \|\| lsb_rel + width > field->width)
	return 0;
	ret->lsb = field->lsb + lsb_rel;
	ret->width = width;
	return 1;
	}

	/* Insert VALUE into FIELD of CODE. MASK can be zero or the base mask
	of the opcode. */

	static inline void
	insert_field_2 (const aarch64_field field, aarch64_insn code,
	aarch64_insn value, aarch64_insn mask)
	{
	assert (field->width < 32 && field->width >= 1 && field->lsb >= 0
	&& field->lsb + field->width <= 32);
	value &= gen_mask (field->width);
	value <<= field->lsb;
	/* In some opcodes, field can be part of the base opcode, e.g. the size
	field in FADD. The following helps avoid corrupt the base opcode. */
	value &= ~mask;
	*code \|= value;
	}

	/* Extract FIELD of CODE and return the value. MASK can be zero or the base
	mask of the opcode. */

	static inline aarch64_insn
	extract_field_2 (const aarch64_field *field, aarch64_insn code,
	aarch64_insn mask)
	{
	aarch64_insn value;
	/* Clear any bit that is a part of the base opcode. */
	code &= ~mask;
	value = (code >> field->lsb) & gen_mask (field->width);
	return value;
	}

	/* Insert VALUE into field KIND of CODE. MASK can be zero or the base mask
	of the opcode. */

	static inline void
	insert_field (enum aarch64_field_kind kind, aarch64_insn *code,
	aarch64_insn value, aarch64_insn mask)
	{
	insert_field_2 (&fields[kind], code, value, mask);
	}

	/* Extract field KIND of CODE and return the value. MASK can be zero or the
	base mask of the opcode. */

	static inline aarch64_insn
	extract_field (enum aarch64_field_kind kind, aarch64_insn code,
	aarch64_insn mask)
	{
	return extract_field_2 (&fields[kind], code, mask);
	}

	extern aarch64_insn
	extract_fields (aarch64_insn code, aarch64_insn mask, ...);

	/* Inline functions selecting operand to do the encoding/decoding for a
	certain instruction bit-field. */

	/* Select the operand to do the encoding/decoding of the 'sf' field.
	The heuristic-based rule is that the result operand is respected more. */

	static inline int
	select_operand_for_sf_field_coding (const aarch64_opcode *opcode)
	{
	int idx = -1;
	if (aarch64_get_operand_class (opcode->operands[0])
	== AARCH64_OPND_CLASS_INT_REG)
	/* normal case. */
	idx = 0;
	else if (aarch64_get_operand_class (opcode->operands[1])
	== AARCH64_OPND_CLASS_INT_REG)
	/* e.g. float2fix. */
	idx = 1;
	else
	{ assert (0); abort (); }
	return idx;
	}

	/* Select the operand to do the encoding/decoding of the 'type' field in
	the floating-point instructions.
	The heuristic-based rule is that the source operand is respected more. */

	static inline int
	select_operand_for_fptype_field_coding (const aarch64_opcode *opcode)
	{
	int idx;
	if (aarch64_get_operand_class (opcode->operands[1])
	== AARCH64_OPND_CLASS_FP_REG)
	/* normal case. */
	idx = 1;
	else if (aarch64_get_operand_class (opcode->operands[0])
	== AARCH64_OPND_CLASS_FP_REG)
	/* e.g. float2fix. */
	idx = 0;
	else
	{ assert (0); abort (); }
	return idx;
	}

	/* Select the operand to do the encoding/decoding of the 'size' field in
	the AdvSIMD scalar instructions.
	The heuristic-based rule is that the destination operand is respected
	more. */

	static inline int
	select_operand_for_scalar_size_field_coding (const aarch64_opcode *opcode)
	{
	int src_size = 0, dst_size = 0;
	if (aarch64_get_operand_class (opcode->operands[0])
	== AARCH64_OPND_CLASS_SISD_REG)
	dst_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][0]);
	if (aarch64_get_operand_class (opcode->operands[1])
	== AARCH64_OPND_CLASS_SISD_REG)
	src_size = aarch64_get_qualifier_esize (opcode->qualifiers_list[0][1]);
	if (src_size == dst_size && src_size == 0)
	{ assert (0); abort (); }
	/* When the result is not a sisd register or it is a long operantion. */
	if (dst_size == 0 \|\| dst_size == src_size << 1)
	return 1;
	else
	return 0;
	}

	/* Select the operand to do the encoding/decoding of the 'size:Q' fields in
	the AdvSIMD instructions. */

	int aarch64_select_operand_for_sizeq_field_coding (const aarch64_opcode *);

	/* Miscellaneous. */

	aarch64_insn aarch64_get_operand_modifier_value (enum aarch64_modifier_kind);
	enum aarch64_modifier_kind
	aarch64_get_operand_modifier_from_value (aarch64_insn, bool);


	bool aarch64_wide_constant_p (uint64_t, int, unsigned int *);
	bool aarch64_logical_immediate_p (uint64_t, int, aarch64_insn *);
	int aarch64_shrink_expanded_imm8 (uint64_t);

	/* Copy the content of INST->OPERANDS[SRC] to INST->OPERANDS[DST]. */
	static inline void
	copy_operand_info (aarch64_inst *inst, int dst, int src)
	{
	assert (dst >= 0 && src >= 0 && dst < AARCH64_MAX_OPND_NUM
	&& src < AARCH64_MAX_OPND_NUM);
	memcpy (&inst->operands[dst], &inst->operands[src],
	sizeof (aarch64_opnd_info));
	inst->operands[dst].idx = dst;
	}

	/* A primitive log caculator. */

	static inline unsigned int
	get_logsz (unsigned int size)
	{
	const unsigned char ls[16] =
	{0, 1, -1, 2, -1, -1, -1, 3, -1, -1, -1, -1, -1, -1, -1, 4};
	if (size > 16)
	{
	assert (0);
	return -1;
	}
	assert (ls[size - 1] != (unsigned char)-1);
	return ls[size - 1];
	}

	#endif /* OPCODES_AARCH64_OPC_H */