kolibrios/contrib/toolchain/binutils/include/opcode/cr16.h

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/* cr16.h -- Header file for CR16 opcode and register tables.
Copyright 2007, 2008, 2010, 2013 Free Software Foundation, Inc.
Contributed by M R Swami Reddy
This file is part of GAS, GDB and the GNU binutils.
GAS, GDB, and GNU binutils 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.
GAS, GDB, and GNU binutils are distributed in the hope that they 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; if not, write to the Free Software Foundation,
Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */
#ifndef _CR16_H_
#define _CR16_H_
/* CR16 core Registers :
The enums are used as indices to CR16 registers table (cr16_regtab).
Therefore, order MUST be preserved. */
typedef enum
{
/* 16-bit general purpose registers. */
r0, r1, r2, r3,
r4, r5, r6, r7,
r8, r9, r10, r11,
r12_L = 12, r13_L = 13, ra = 14, sp_L = 15,
/* 32-bit general purpose registers. */
r12 = 12, r13 = 13, r14 = 14, r15 = 15,
era = 14, sp = 15, RA,
/* Not a register. */
nullregister,
MAX_REG
}
reg;
/* CR16 processor registers and special registers :
The enums are used as indices to CR16 processor registers table
(cr16_pregtab). Therefore, order MUST be preserved. */
typedef enum
{
/* processor registers. */
dbs = MAX_REG,
dsr, dcrl, dcrh,
car0l, car0h, car1l, car1h,
cfg, psr, intbasel, intbaseh,
ispl, isph, uspl, usph,
dcr = dcrl,
car0 = car0l,
car1 = car1l,
intbase = intbasel,
isp = ispl,
usp = uspl,
/* Not a processor register. */
nullpregister = usph + 1,
MAX_PREG
}
preg;
/* CR16 Register types. */
typedef enum
{
CR16_R_REGTYPE, /* r<N> */
CR16_RP_REGTYPE, /* reg pair */
CR16_P_REGTYPE /* Processor register */
}
reg_type;
/* CR16 argument types :
The argument types correspond to instructions operands
Argument types :
r - register
rp - register pair
c - constant
i - immediate
idxr - index with register
idxrp - index with register pair
rbase - register base
rpbase - register pair base
pr - processor register. */
typedef enum
{
arg_r,
arg_c,
arg_cr,
arg_crp,
arg_ic,
arg_icr,
arg_idxr,
arg_idxrp,
arg_rbase,
arg_rpbase,
arg_rp,
arg_pr,
arg_prp,
arg_cc,
arg_ra,
/* Not an argument. */
nullargs
}
argtype;
/* CR16 operand types:The operand types correspond to instructions operands. */
typedef enum
{
dummy,
/* N-bit signed immediate. */
imm3, imm4, imm5, imm6, imm16, imm20, imm32,
/* N-bit unsigned immediate. */
uimm3, uimm3_1, uimm4, uimm4_1, uimm5, uimm16, uimm20, uimm32,
/* N-bit signed displacement. */
disps5, disps17, disps25,
/* N-bit unsigned displacement. */
dispe9,
/* N-bit absolute address. */
abs20, abs24,
/* Register relative. */
rra, rbase, rbase_disps20, rbase_dispe20,
/* Register pair relative. */
rpbase_disps0, rpbase_dispe4, rpbase_disps4, rpbase_disps16,
rpbase_disps20, rpbase_dispe20,
/* Register index. */
rindex7_abs20, rindex8_abs20,
/* Register pair index. */
rpindex_disps0, rpindex_disps14, rpindex_disps20,
/* register. */
regr,
/* register pair. */
regp,
/* processor register. */
pregr,
/* processor register 32 bit. */
pregrp,
/* condition code - 4 bit. */
cc,
/* Not an operand. */
nulloperand,
/* Maximum supported operand. */
MAX_OPRD
}
operand_type;
/* CR16 instruction types. */
#define NO_TYPE_INS 0
#define ARITH_INS 1
#define LD_STOR_INS 2
#define BRANCH_INS 3
#define ARITH_BYTE_INS 4
#define SHIFT_INS 5
#define BRANCH_NEQ_INS 6
#define LD_STOR_INS_INC 7
#define STOR_IMM_INS 8
#define CSTBIT_INS 9
/* Maximum value supported for instruction types. */
#define CR16_INS_MAX (1 << 4)
/* Mask to record an instruction type. */
#define CR16_INS_MASK (CR16_INS_MAX - 1)
/* Return instruction type, given instruction's attributes. */
#define CR16_INS_TYPE(attr) ((attr) & CR16_INS_MASK)
/* Indicates whether this instruction has a register list as parameter. */
#define REG_LIST CR16_INS_MAX
/* The operands in binary and assembly are placed in reverse order.
load - (REVERSE_MATCH)/store - (! REVERSE_MATCH). */
#define REVERSE_MATCH (1 << 5)
/* Printing formats, where the instruction prefix isn't consecutive. */
#define FMT_1 (1 << 9) /* 0xF0F00000 */
#define FMT_2 (1 << 10) /* 0xFFF0FF00 */
#define FMT_3 (1 << 11) /* 0xFFF00F00 */
#define FMT_4 (1 << 12) /* 0xFFF0F000 */
#define FMT_5 (1 << 13) /* 0xFFF0FFF0 */
#define FMT_CR16 (FMT_1 | FMT_2 | FMT_3 | FMT_4 | FMT_5)
/* Indicates whether this instruction can be relaxed. */
#define RELAXABLE (1 << 14)
/* Indicates that instruction uses user registers (and not
general-purpose registers) as operands. */
#define USER_REG (1 << 15)
/* Instruction shouldn't allow 'sp' usage. */
#define NO_SP (1 << 17)
/* Instruction shouldn't allow to push a register which is used as a rptr. */
#define NO_RPTR (1 << 18)
/* Maximum operands per instruction. */
#define MAX_OPERANDS 5
/* Maximum register name length. */
#define MAX_REGNAME_LEN 10
/* Maximum instruction length. */
#define MAX_INST_LEN 256
/* Values defined for the flags field of a struct operand_entry. */
/* Operand must be an unsigned number. */
#define OP_UNSIGNED (1 << 0)
/* Operand must be a signed number. */
#define OP_SIGNED (1 << 1)
/* Operand must be a negative number. */
#define OP_NEG (1 << 2)
/* A special load/stor 4-bit unsigned displacement operand. */
#define OP_DEC (1 << 3)
/* Operand must be an even number. */
#define OP_EVEN (1 << 4)
/* Operand is shifted right. */
#define OP_SHIFT (1 << 5)
/* Operand is shifted right and decremented. */
#define OP_SHIFT_DEC (1 << 6)
/* Operand has reserved escape sequences. */
#define OP_ESC (1 << 7)
/* Operand must be a ABS20 number. */
#define OP_ABS20 (1 << 8)
/* Operand must be a ABS24 number. */
#define OP_ABS24 (1 << 9)
/* Operand has reserved escape sequences type 1. */
#define OP_ESC1 (1 << 10)
/* Single operand description. */
typedef struct
{
/* Operand type. */
operand_type op_type;
/* Operand location within the opcode. */
unsigned int shift;
}
operand_desc;
/* Instruction data structure used in instruction table. */
typedef struct
{
/* Name. */
const char *mnemonic;
/* Size (in words). */
unsigned int size;
/* Constant prefix (matched by the disassembler). */
unsigned long match; /* ie opcode */
/* Match size (in bits). */
/* MASK: if( (i & match_bits) == match ) then match */
int match_bits;
/* Attributes. */
unsigned int flags;
/* Operands (always last, so unreferenced operands are initialized). */
operand_desc operands[MAX_OPERANDS];
}
inst;
/* Data structure for a single instruction's arguments (Operands). */
typedef struct
{
/* Register or base register. */
reg r;
/* Register pair register. */
reg rp;
/* Index register. */
reg i_r;
/* Processor register. */
preg pr;
/* Processor register. 32 bit */
preg prp;
/* Constant/immediate/absolute value. */
long constant;
/* CC code. */
unsigned int cc;
/* Scaled index mode. */
unsigned int scale;
/* Argument type. */
argtype type;
/* Size of the argument (in bits) required to represent. */
int size;
/* The type of the expression. */
unsigned char X_op;
}
argument;
/* Internal structure to hold the various entities
corresponding to the current assembling instruction. */
typedef struct
{
/* Number of arguments. */
int nargs;
/* The argument data structure for storing args (operands). */
argument arg[MAX_OPERANDS];
/* The following fields are required only by CR16-assembler. */
#ifdef TC_CR16
/* Expression used for setting the fixups (if any). */
expressionS exp;
bfd_reloc_code_real_type rtype;
#endif /* TC_CR16 */
/* Instruction size (in bytes). */
int size;
}
ins;
/* Structure to hold information about predefined operands. */
typedef struct
{
/* Size (in bits). */
unsigned int bit_size;
/* Argument type. */
argtype arg_type;
/* One bit syntax flags. */
int flags;
}
operand_entry;
/* Structure to hold trap handler information. */
typedef struct
{
/* Trap name. */
char *name;
/* Index in dispatch table. */
unsigned int entry;
}
trap_entry;
/* Structure to hold information about predefined registers. */
typedef struct
{
/* Name (string representation). */
char *name;
/* Value (enum representation). */
union
{
/* Register. */
reg reg_val;
/* processor register. */
preg preg_val;
} value;
/* Register image. */
int image;
/* Register type. */
reg_type type;
}
reg_entry;
/* CR16 opcode table. */
extern const inst cr16_instruction[];
extern const unsigned int cr16_num_opcodes;
#define NUMOPCODES cr16_num_opcodes
/* CR16 operands table. */
extern const operand_entry cr16_optab[];
extern const unsigned int cr16_num_optab;
/* CR16 registers table. */
extern const reg_entry cr16_regtab[];
extern const unsigned int cr16_num_regs;
#define NUMREGS cr16_num_regs
/* CR16 register pair table. */
extern const reg_entry cr16_regptab[];
extern const unsigned int cr16_num_regps;
#define NUMREGPS cr16_num_regps
/* CR16 processor registers table. */
extern const reg_entry cr16_pregtab[];
extern const unsigned int cr16_num_pregs;
#define NUMPREGS cr16_num_pregs
/* CR16 processor registers - 32 bit table. */
extern const reg_entry cr16_pregptab[];
extern const unsigned int cr16_num_pregps;
#define NUMPREGPS cr16_num_pregps
/* CR16 trap/interrupt table. */
extern const trap_entry cr16_traps[];
extern const unsigned int cr16_num_traps;
#define NUMTRAPS cr16_num_traps
/* CR16 CC - codes bit table. */
extern const char * cr16_b_cond_tab[];
extern const unsigned int cr16_num_cc;
#define NUMCC cr16_num_cc;
/* Table of instructions with no operands. */
extern const char * cr16_no_op_insn[];
/* Current instruction we're assembling. */
extern const inst *instruction;
/* A macro for representing the instruction "constant" opcode, that is,
the FIXED part of the instruction. The "constant" opcode is represented
as a 32-bit unsigned long, where OPC is expanded (by a left SHIFT)
over that range. */
#define BIN(OPC,SHIFT) (OPC << SHIFT)
/* Is the current instruction type is TYPE ? */
#define IS_INSN_TYPE(TYPE) \
(CR16_INS_TYPE (instruction->flags) == TYPE)
/* Is the current instruction mnemonic is MNEMONIC ? */
#define IS_INSN_MNEMONIC(MNEMONIC) \
(strcmp (instruction->mnemonic, MNEMONIC) == 0)
/* Does the current instruction has register list ? */
#define INST_HAS_REG_LIST \
(instruction->flags & REG_LIST)
/* Utility macros for string comparison. */
#define streq(a, b) (strcmp (a, b) == 0)
#define strneq(a, b, c) (strncmp (a, b, c) == 0)
/* Long long type handling. */
/* Replace all appearances of 'long long int' with LONGLONG. */
typedef long long int LONGLONG;
typedef unsigned long long ULONGLONG;
/* Data types for opcode handling. */
typedef unsigned long dwordU;
typedef unsigned short wordU;
/* Globals to store opcode data and build the instruction. */
extern wordU cr16_words[3];
extern ULONGLONG cr16_allWords;
extern ins cr16_currInsn;
/* Prototypes for function in cr16-dis.c. */
extern void cr16_make_instruction (void);
extern int cr16_match_opcode (void);
#endif /* _CR16_H_ */