/* Opcode table for the H8-300 Copyright (C) 1991,1992 Free Software Foundation. Written by Steve Chamberlain, sac@cygnus.com. This file is part of GDB, the GNU Debugger and GAS, the GNU Assembler. This program 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 2 of the License, or (at your option) any later version. This program 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; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* Instructions are stored as a sequence of nibbles. If the nibble has value 15 or less then the representation is complete. Otherwise, we record what it contains with several flags. */ typedef int op_type; #define Hex0 0 #define Hex1 1 #define Hex2 2 #define Hex3 3 #define Hex4 4 #define Hex5 5 #define Hex6 6 #define Hex7 7 #define Hex8 8 #define Hex9 9 #define HexA 10 #define HexB 11 #define HexC 12 #define HexD 13 #define HexE 14 #define HexF 15 #define L_8 0x01 #define L_16 0x02 #define L_32 0x04 #define L_P 0x08 #define L_24 0x10 #define MEMRELAX 0x20 /* move insn which may relax */ #define SRC 0x40 #define DST 0x80 #define REG 0x100 #define EXR 0x200 #define MACREG 0x800 #define SRC_IN_DST 0x400 #define IMM 0x1000 #define DISP 0x2000 #define IND 0x4000 #define INC 0x8000 #define DEC 0x10000 #define L_3 0x20000 #define KBIT 0x40000 #define DBIT 0x80000 #define DISPREG 0x100000 #define IGNORE 0x200000 #define E 0x400000 /* FIXME: end of nibble sequence? */ #define L_2 0x800000 #define B30 0x1000000 /* bit 3 must be low */ #define B31 0x2000000 /* bit 3 must be high */ #define CCR 0x4000000 #define ABS 0x8000000 #define ABSJMP 0x10000000 #define ABS8MEM 0x20000000 #define PCREL 0x40000000 #define MEMIND 0x80000000 #define IMM3 IMM|L_3 #define IMM2 IMM|L_2 #define SIZE (L_2|L_3|L_8|L_16|L_32|L_P|L_24) #define MODE (REG|IMM|DISP|IND|INC|DEC|CCR|ABS|MEMIND|EXR) #define RD8 (DST|L_8|REG) #define RD16 (DST|L_16|REG) #define RD32 (DST|L_32|REG) #define RS8 (SRC|L_8|REG) #define RS16 (SRC|L_16|REG) #define RS32 (SRC|L_32|REG) #define RSP (SRC|L_P|REG) #define RDP (DST|L_P|REG) #define IMM8 (IMM|SRC|L_8) #define IMM16 (IMM|SRC|L_16) #define IMM32 (IMM|SRC|L_32) #define ABS8SRC (SRC|ABS|L_8|ABS8MEM) #define ABS8DST (DST|ABS|L_8|ABS8MEM) #define DISP8 (PCREL|L_8) #define DISP16 (PCREL|L_16) #define DISP8SRC (DISP|L_8|SRC) #define DISP16SRC (DISP|L_16|SRC) #define DISP8DST (DISP|L_8|DST) #define DISP16DST (DISP|L_16|DST) #define ABS16SRC (SRC|ABS|L_16) #define ABS16DST (DST|ABS|L_16) #define ABS24SRC (SRC|ABS|L_24) #define ABS24DST (DST|ABS|L_24) #define ABS32SRC (SRC|ABS|L_32) #define ABS32DST (DST|ABS|L_32) #define RDDEC (DST|DEC) #define RSINC (SRC|INC) #define RDINC (DST|INC) #define RDIND (DST|IND) #define RSIND (SRC|IND) #if 1 #define OR8 RS8 /* ??? OR as in One Register? */ #define OR16 RS16 #define OR32 RS32 #else #define OR8 RD8 #define OR16 RD16 #define OR32 RD32 #endif struct code { op_type nib[30]; }; struct arg { op_type nib[3]; }; struct h8_opcode { int how; int inbase; int time; char *name; struct arg args; struct code data; int length; int noperands; int idx; int size; }; #ifdef DEFINE_TABLE #define BITOP(code, imm, name, op00, op01,op10,op11, op20,op21,op30)\ { code, 1, 2, name, {imm,RD8,E}, {op00, op01, imm, RD8, E, 0, 0, 0, 0}, 0, 0, 0, 0},\ { code, 1, 6, name, {imm,RDIND,E}, {op10, op11, B30|RDIND, 0, op00,op01, imm, 0, E}, 0, 0, 0, 0},\ { code, 1, 6, name, {imm,ABS8DST,E},{op20, op21, ABS8DST, IGNORE, op00,op01, imm, 0,E}, 0, 0, 0, 0}\ ,{ code, 1, 6, name, {imm,ABS16DST,E},{0x6,0xa,0x1,op30,ABS16DST,IGNORE,IGNORE,IGNORE, op00,op01, imm, 0,E}, 0, 0, 0, 0},\ { code, 1, 6, name, {imm,ABS32DST,E},{0x6,0xa,0x3,op30,ABS32DST,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE, op00,op01, imm, 0,E}, 0, 0, 0, 0} #define EBITOP(code, imm, name, op00, op01,op10,op11, op20,op21,op30)\ BITOP(code,imm, name, op00+1, op01, op10,op11, op20,op21,op30),\ BITOP(code,RS8, name, op00, op01, op10,op11, op20,op21,op30) #define WTWOP(code,name, op1, op2) \ { code, 1, 2, name, {RS16, RD16, E}, { op1, op2, RS16, RD16, E, 0, 0, 0, 0}, 0, 0, 0, 0} #define BRANCH(code, name, op) \ { code, 1, 4,name,{DISP8,E,0}, { 0x4, op, DISP8, IGNORE, E, 0, 0, 0, 0}, 0, 0, 0, 0}, \ { code, 0, 6,name,{DISP16,E,0}, { 0x5, 0x8, op, 0x0, DISP16, IGNORE, IGNORE, IGNORE, E,0}, 0, 0, 0, 0} #define SOP(code, x,name) \ {code, 1, x, name #define NEW_SOP(code, in,x,name) \ {code, in, x, name #define EOP ,0,0,0 } #define TWOOP(code, name, op1, op2,op3) \ { code,1, 2,name, {IMM8, RD8, E}, { op1, RD8, IMM8, IGNORE, E, 0, 0, 0, 0}, 0, 0, 0, 0},\ { code, 1, 2,name, {RS8, RD8, E}, { op2, op3, RS8, RD8, E, 0, 0, 0, 0}, 0, 0, 0, 0} #define UNOP(code,name, op1, op2) \ { code, 1, 2, name, {OR8, E, 0}, { op1, op2, 0, OR8, E, 0, 0, 0, 0}, 0, 0, 0, 0} #define UNOP3(code, name, op1, op2, op3) \ { O(code,SB), 1, 2, name, {OR8, E, 0}, {op1, op2, op3+0, OR8, E, 0, 0, 0, 0}, 0, 0, 0, 0}, \ { O(code,SW), 0, 2, name, {OR16, E, 0}, {op1, op2, op3+1, OR16, E, 0, 0, 0, 0}, 0, 0, 0, 0}, \ { O(code,SL), 0, 2, name, {OR32, E, 0}, {op1, op2, op3+3, OR32|B30, E, 0, 0, 0, 0}, 0, 0, 0, 0} \ ,{ O(code,SB), 1, 2, name, {IMM, OR8 | SRC_IN_DST, E}, {op1, op2, op3+4, OR8 | SRC_IN_DST, E, 0, 0, 0, 0}, 0, 0, 0, 0}, \ { O(code,SW), 0, 2, name, {IMM, OR16 | SRC_IN_DST, E}, {op1, op2, op3+5, OR16 | SRC_IN_DST, E, 0, 0, 0, 0}, 0, 0, 0, 0}, \ { O(code,SL), 0, 2, name, {IMM, OR32 | SRC_IN_DST, E}, {op1, op2, op3+7, OR32 | SRC_IN_DST|B30 , E, 0, 0, 0, 0}, 0, 0, 0, 0} #define IMM32LIST IMM32,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define IMM24LIST IMM24,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define IMM16LIST IMM16,IGNORE,IGNORE,IGNORE #define A16LIST L_16,IGNORE,IGNORE,IGNORE #define DISP24LIST DISP|L_24,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define DISP32LIST DISP|L_32,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define ABS24LIST ABS|L_24,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define ABS32LIST ABS|L_32,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define A24LIST L_24,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define A32LIST L_32,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE #define PREFIX32 0x0,0x1,0x0,0x0 #define PREFIXLDC 0x0,0x1,0x4,0x0 #define O(op, size) (op*4+size) #define O_RECOMPILE 0 #define O_ADD 1 #define O_ADDX 2 #define O_AND 3 #define O_BAND 4 #define O_BRA 5 #define O_BRN 6 #define O_BHI 7 #define O_BLS 8 #define O_BCC 9 #define O_BCS 10 #define O_BNE 11 #define O_BVC 12 #define O_BVS 13 #define O_BPL 14 #define O_BMI 15 #define O_BGE 16 #define O_BLT 17 #define O_BGT 18 #define O_BLE 19 #define O_ANDC 20 #define O_BEQ 21 #define O_BCLR 22 #define O_BIAND 23 #define O_BILD 24 #define O_BIOR 25 #define O_BIXOR 26 #define O_BIST 27 #define O_BLD 28 #define O_BNOT 29 #define O_BSET 30 #define O_BSR 31 #define O_BXOR 32 #define O_CMP 33 #define O_DAA 34 #define O_DAS 35 #define O_DEC 36 #define O_DIVU 37 #define O_DIVS 38 #define O_INC 39 #define O_LDC 40 #define O_MOV_TO_MEM 41 #define O_OR 42 #define O_ROTL 43 #define O_ROTR 44 #define O_ROTXL 45 #define O_ROTXR 46 #define O_BPT 47 #define O_SHAL 48 #define O_SHAR 49 #define O_SHLL 50 #define O_SHLR 51 #define O_SUB 52 #define O_SUBS 53 #define O_TRAPA 54 #define O_XOR 55 #define O_XORC 56 #define O_BOR 57 #define O_BST 58 #define O_BTST 59 #define O_EEPMOV 60 #define O_EXTS 61 #define O_EXTU 62 #define O_JMP 63 #define O_JSR 64 #define O_MULU 65 #define O_MULS 66 #define O_NOP 67 #define O_NOT 68 #define O_ORC 69 #define O_RTE 70 #define O_STC 71 #define O_SUBX 72 #define O_NEG 73 #define O_RTS 74 #define O_SLEEP 75 #define O_ILL 76 #define O_ADDS 77 #define O_SYSCALL 78 #define O_MOV_TO_REG 79 #define O_TAS 80 #define O_CLRMAC 82 #define O_LDMAC 83 #define O_MAC 84 #define O_LDM 85 #define O_STM 86 #define O_LAST 87 #define SB 0 #define SW 1 #define SL 2 /* FIXME: Lots of insns have "E, 0, 0, 0, 0" in the nibble code sequences. Methinks the zeroes aren't necessary. Once confirmed, nuke 'em. */ struct h8_opcode h8_opcodes[] = { TWOOP(O(O_ADD,SB),"add.b", 0x8, 0x0,0x8), NEW_SOP(O(O_ADD,SW),1,2,"add.w"),{RS16,RD16,E },{0x0,0x9,RS16,RD16,E} EOP, NEW_SOP(O(O_ADD,SW),0,4,"add.w"),{IMM16,RD16,E },{0x7,0x9,0x1,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_ADD,SL),0,2,"add.l"),{RS32,RD32,E }, {0x0,0xA,B31|RS32,B30|RD32,E} EOP, NEW_SOP(O(O_ADD,SL),0,6,"add.l"),{IMM32,RD32,E },{0x7,0xA,0x1,B30|RD32,IMM32LIST,E} EOP, NEW_SOP(O(O_ADDS,SL),1,2,"adds"), {KBIT,RDP,E}, {0x0,0xB,KBIT,RDP,E,0,0,0,0} EOP, TWOOP(O(O_ADDX,SB),"addx",0x9,0x0,0xE), TWOOP(O(O_AND,SB), "and.b",0xE,0x1,0x6), NEW_SOP(O(O_AND,SW),0,2,"and.w"),{RS16,RD16,E },{0x6,0x6,RS16,RD16,E} EOP, NEW_SOP(O(O_AND,SW),0,4,"and.w"),{IMM16,RD16,E },{0x7,0x9,0x6,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_AND,SL),0,6,"and.l"),{IMM32,RD32,E },{0x7,0xA,0x6,B30|RD32,IMM32LIST,E} EOP, NEW_SOP(O(O_AND,SL),0,2,"and.l") ,{RS32,RD32,E },{0x0,0x1,0xF,0x0,0x6,0x6,B30|RS32,B30|RD32,E} EOP, NEW_SOP(O(O_ANDC,SB),1,2,"andc"), {IMM8,CCR,E},{ 0x0,0x6,IMM8,IGNORE,E,0,0,0,0} EOP, NEW_SOP(O(O_ANDC,SB),1,2,"andc"), {IMM8,EXR,E},{ 0x0,0x1,0x4,0x1,0x0,0x6,IMM8,IGNORE,E,0,0,0,0} EOP, BITOP(O(O_BAND,SB), IMM3,"band",0x7,0x6,0x7,0xC,0x7,0xE,0x0), BRANCH(O(O_BRA,SB),"bra",0x0), BRANCH(O(O_BRA,SB),"bt",0x0), BRANCH(O(O_BRN,SB),"brn",0x1), BRANCH(O(O_BRN,SB),"bf",0x1), BRANCH(O(O_BHI,SB),"bhi",0x2), BRANCH(O(O_BLS,SB),"bls",0x3), BRANCH(O(O_BCC,SB),"bcc",0x4), BRANCH(O(O_BCC,SB),"bhs",0x4), BRANCH(O(O_BCS,SB),"bcs",0x5), BRANCH(O(O_BCS,SB),"blo",0x5), BRANCH(O(O_BNE,SB),"bne",0x6), BRANCH(O(O_BEQ,SB),"beq",0x7), BRANCH(O(O_BVC,SB),"bvc",0x8), BRANCH(O(O_BVS,SB),"bvs",0x9), BRANCH(O(O_BPL,SB),"bpl",0xA), BRANCH(O(O_BMI,SB),"bmi",0xB), BRANCH(O(O_BGE,SB),"bge",0xC), BRANCH(O(O_BLT,SB),"blt",0xD), BRANCH(O(O_BGT,SB),"bgt",0xE), BRANCH(O(O_BLE,SB),"ble",0xF), EBITOP(O(O_BCLR,SB),IMM3,"bclr", 0x6,0x2,0x7,0xD,0x7,0xF,0x8), BITOP(O(O_BIAND,SB),IMM3|B31,"biand",0x7,0x6,0x7,0xC,0x7,0xE,0x0), BITOP(O(O_BILD,SB), IMM3|B31,"bild", 0x7,0x7,0x7,0xC,0x7,0xE,0x0), BITOP(O(O_BIOR,SB), IMM3|B31,"bior", 0x7,0x4,0x7,0xC,0x7,0xE,0x0), BITOP(O(O_BIST,SB), IMM3|B31,"bist", 0x6,0x7,0x7,0xD,0x7,0xF,0x8), BITOP(O(O_BIXOR,SB),IMM3|B31,"bixor",0x7,0x5,0x7,0xC,0x7,0xE,0x0), BITOP(O(O_BLD,SB), IMM3|B30,"bld", 0x7,0x7,0x7,0xC,0x7,0xE,0x0), EBITOP(O(O_BNOT,SB),IMM3|B30,"bnot", 0x6,0x1,0x7,0xD,0x7,0xF,0x8), BITOP(O(O_BOR,SB), IMM3|B30,"bor", 0x7,0x4,0x7,0xC,0x7,0xE,0x0), EBITOP(O(O_BSET,SB),IMM3|B30,"bset", 0x6,0x0,0x7,0xD,0x7,0xF,0x8), SOP(O(O_BSR,SB),6,"bsr"),{DISP8,E,0},{ 0x5,0x5,DISP8,IGNORE,E,0,0,0,0} EOP, SOP(O(O_BSR,SB),6,"bsr"),{DISP16,E,0},{ 0x5,0xC,0x0,0x0,DISP16,IGNORE,IGNORE,IGNORE,E,0,0,0,0} EOP, BITOP(O(O_BST,SB), IMM3|B30,"bst",0x6,0x7,0x7,0xD,0x7,0xF,0x8), EBITOP(O(O_BTST,SB), IMM3|B30,"btst",0x6,0x3,0x7,0xC,0x7,0xE,0x0), BITOP(O(O_BXOR,SB), IMM3|B30,"bxor",0x7,0x5,0x7,0xC,0x7,0xE,0x0), TWOOP(O(O_CMP,SB), "cmp.b",0xA,0x1,0xC), WTWOP(O(O_CMP,SW), "cmp.w",0x1,0xD), NEW_SOP(O(O_CMP,SW),1,2,"cmp.w"),{RS16,RD16,E },{0x1,0xD,RS16,RD16,E} EOP, NEW_SOP(O(O_CMP,SW),0,4,"cmp.w"),{IMM16,RD16,E },{0x7,0x9,0x2,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_CMP,SL),0,6,"cmp.l"),{IMM32,RD32,E },{0x7,0xA,0x2,B30|RD32,IMM32LIST,E} EOP, NEW_SOP(O(O_CMP,SL),0,2,"cmp.l") ,{RS32,RD32,E },{0x1,0xF,B31|RS32,B30|RD32,E} EOP, UNOP(O(O_DAA,SB), "daa",0x0,0xF), UNOP(O(O_DAS,SB), "das",0x1,0xF), UNOP(O(O_DEC,SB), "dec.b",0x1,0xA), NEW_SOP(O(O_DEC, SW),0,2,"dec.w") ,{DBIT,RD16,E },{0x1,0xB,0x5|DBIT,RD16,E} EOP, NEW_SOP(O(O_DEC, SL),0,2,"dec.l") ,{DBIT,RD32,E },{0x1,0xB,0x7|DBIT,RD32|B30,E} EOP, NEW_SOP(O(O_DIVU,SB),1,6,"divxu.b"), {RS8,RD16,E}, {0x5,0x1,RS8,RD16,E,0,0,0,0}EOP, NEW_SOP(O(O_DIVU,SW),0,20,"divxu.w"),{RS16,RD32,E},{0x5,0x3,RS16,B30|RD32,E}EOP, NEW_SOP(O(O_DIVS,SB),0,20,"divxs.b") ,{RS8,RD16,E },{0x0,0x1,0xD,0x0,0x5,0x1,RS8,RD16,E} EOP, NEW_SOP(O(O_DIVS,SW),0,02,"divxs.w") ,{RS16,RD32,E },{0x0,0x1,0xD,0x0,0x5,0x3,RS16,B30|RD32,E} EOP, NEW_SOP(O(O_EEPMOV,SB),1,50,"eepmov"),{ E,0,0},{0x7,0xB,0x5,0xC,0x5,0x9,0x8,0xF,E}EOP, NEW_SOP(O(O_EEPMOV,SW),0,50,"eepmov.w"),{E,0,0},{0x7,0xB,0xD,0x4,0x5,0x9,0x8,0xF,E} EOP, NEW_SOP(O(O_EXTS,SW),0,2,"exts.w"),{OR16,E,0},{0x1,0x7,0xD,OR16,E }EOP, NEW_SOP(O(O_EXTS,SL),0,2,"exts.l"),{OR32,E,0},{0x1,0x7,0xF,OR32|B30,E }EOP, NEW_SOP(O(O_EXTU,SW),0,2,"extu.w"),{OR16,E,0},{0x1,0x7,0x5,OR16,E }EOP, NEW_SOP(O(O_EXTU,SL),0,2,"extu.l"),{OR32,E,0},{0x1,0x7,0x7,OR32|B30,E }EOP, UNOP(O(O_INC,SB), "inc",0x0,0xA), NEW_SOP(O(O_INC,SW),0,2,"inc.w") ,{DBIT,RD16,E },{0x0,0xB,0x5|DBIT,RD16,E} EOP, NEW_SOP(O(O_INC,SL),0,2,"inc.l") ,{DBIT,RD32,E },{0x0,0xB,0x7|DBIT,RD32|B30,E} EOP, SOP(O(O_JMP,SB),4,"jmp"),{RSIND,E,0},{0x5,0x9,B30|RSIND,0x0,E,0,0,0,0}EOP, SOP(O(O_JMP,SB),6,"jmp"),{SRC|ABSJMP,E,0},{0x5,0xA,SRC|ABSJMP,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_JMP,SB),8,"jmp"),{SRC|MEMIND,E,0},{0x5,0xB,SRC|MEMIND,IGNORE,E,0,0,0,0}EOP, SOP(O(O_JSR,SB),6,"jsr"),{SRC|RSIND,E,0}, {0x5,0xD,B30|RSIND,0x0,E,0,0,0,0}EOP, SOP(O(O_JSR,SB),8,"jsr"),{SRC|ABSJMP,E,0},{0x5,0xE,SRC|ABSJMP,IGNORE,IGNORE,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_JSR,SB),8,"jsr"),{SRC|MEMIND,E,0},{0x5,0xF,SRC|MEMIND,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_LDC,SB),1,2,"ldc"),{IMM8,CCR,E}, { 0x0,0x7,IMM8,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_LDC,SB),1,2,"ldc"),{OR8,CCR,E}, { 0x0,0x3,0x0,OR8,E,0,0,0,0}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{ABS16SRC,CCR,E}, {PREFIXLDC,0x6,0xB,0x0,0x0,ABS16SRC,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{ABS32SRC,CCR,E}, {PREFIXLDC,0x6,0xB,0x2,0x0,SRC|ABS32LIST,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{DISP|SRC|L_16,CCR,E},{PREFIXLDC,0x6,0xF,B30|DISPREG,0,DISP|L_16,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{DISP|SRC|L_32,CCR,E},{PREFIXLDC,0x7,0x8,B30|DISPREG,0,0x6,0xB,0x2,0x0,SRC|DISP32LIST,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{RSINC,CCR,E}, {PREFIXLDC,0x6,0xD,B30|RSINC,0x0,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{RSIND,CCR,E}, {PREFIXLDC,0x6,0x9,B30|RDIND,0x0,E} EOP, NEW_SOP(O(O_LDC,SB),1,2,"ldc"),{IMM8,EXR,E}, { 0x0,0x1,0x4,0x1,0x0,0x7,IMM8,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_LDC,SB),1,2,"ldc"),{OR8,EXR,E}, { 0x0,0x3,0x1,OR8,E,0,0,0,0}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{ABS16SRC,EXR,E}, { 0x0,0x1,0x4,0x1,0x6,0xb,0x0,0x0,ABS16SRC,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{ABS32SRC,EXR,E}, { 0x0,0x1,0x4,0x1,0x6,0xb,0x2,0x0,SRC|ABS32LIST,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{DISP|SRC|L_16,EXR,E},{ 0x0,0x1,0x4,0x1,0x6,0xf,B30|DISPREG,0,DISP|L_16,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{DISP|SRC|L_32,EXR,E},{ 0x0,0x1,0x4,0x1,0x7,0x8,B30|DISPREG,0,0x6,0xB,0x2,0x0,SRC|DISP32LIST,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{RSINC,EXR,E}, { 0x0,0x1,0x4,0x1,0x6,0xd,B30|RSINC,0x0,E}EOP, NEW_SOP(O(O_LDC,SB),0,2,"ldc"),{RSIND,EXR,E}, { 0x0,0x1,0x4,0x1,0x6,0x9,B30|RDIND,0x0,E} EOP, SOP(O(O_MOV_TO_REG,SB),4,"mov.b"),{ABS|SRC|L_16|MEMRELAX,RD8,E}, { 0x6,0xA,0x0,RD8,SRC|ABS|MEMRELAX|A16LIST,E}EOP, SOP(O(O_MOV_TO_REG,SB),6,"mov.b"),{ABS|SRC|L_32|MEMRELAX,RD8,E }, { 0x6,0xA,0x2,RD8,SRC|ABS|MEMRELAX|A32LIST,E }EOP, SOP(O(O_MOV_TO_MEM,SB),4,"mov.b"),{RS8,ABS|L_16|MEMRELAX|DST,E}, { 0x6,0xA,0x8,RS8,DST|ABS|MEMRELAX|A16LIST,E}EOP, SOP(O(O_MOV_TO_MEM,SB),6,"mov.b"),{RS8,ABS|DST|L_32|MEMRELAX,E }, { 0x6,0xA,0xA,RS8,DST|ABS|MEMRELAX|A32LIST,E }EOP, SOP(O(O_MOV_TO_REG,SB),6,"mov.b"),{DISP|L_32|SRC,RD8,E}, { 0x7,0x8,B30|DISPREG,0x0,0x6,0xA,0x2,RD8,SRC|DISP32LIST,E}EOP, SOP(O(O_MOV_TO_MEM,SB),6,"mov.b"),{RS8,DISP|L_32|DST,E}, { 0x7,0x8,B30|DISPREG,0x0,0x6,0xA,0xA,RS8,DST|DISP32LIST,E}EOP, SOP(O(O_MOV_TO_REG,SB),2,"mov.b"),{RS8,RD8,E}, { 0x0,0xC,RS8,RD8,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SB),2,"mov.b"),{IMM8,RD8,E}, { 0xF,RD8,IMM8,IGNORE,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SB),4,"mov.b"),{RSIND,RD8,E}, { 0x6,0x8,B30|RSIND,RD8,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SB),6,"mov.b"),{DISP16SRC,RD8,E}, { 0x6,0xE,B30|DISPREG,RD8,DISP16SRC,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_REG,SB),6,"mov.b"),{RSINC,RD8,E}, { 0x6,0xC,B30|RSINC,RD8,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SB),4,"mov.b"),{ABS8SRC,RD8,E}, { 0x2,RD8,ABS8SRC,IGNORE,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_MEM,SB),4,"mov.b"),{RS8,RDIND,E}, { 0x6,0x8,RDIND|B31,RS8,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_MEM,SB),6,"mov.b"),{RS8,DISP16DST,E}, { 0x6,0xE,DISPREG|B31,RS8,DISP16DST,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_MEM,SB),6,"mov.b"),{RS8,RDDEC|B31,E}, { 0x6,0xC,RDDEC|B31,RS8,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_MEM,SB),4,"mov.b"),{RS8,ABS8DST,E}, { 0x3,RS8,ABS8DST,IGNORE,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,RDIND,E}, { 0x6,0x9,RDIND|B31,RS16,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SW),6,"mov.w"),{DISP|L_32|SRC,RD16,E},{ 0x7,0x8,B30|DISPREG,0x0,0x6,0xB,0x2,RD16,SRC|DISP32LIST,E}EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,DISP|L_32|DST,E},{ 0x7,0x8,B30|DISPREG,0x0,0x6,0xB,0xA,RS16,DST|DISP32LIST,E}EOP, SOP(O(O_MOV_TO_REG,SW),6,"mov.w"),{ABS|L_32|MEMRELAX|SRC,RD16,E },{ 0x6,0xB,0x2,RD16,SRC|MEMRELAX|ABS32LIST,E }EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,ABS|L_32|MEMRELAX|DST,E },{ 0x6,0xB,0xA,RS16,DST|MEMRELAX|ABS32LIST,E }EOP, SOP(O(O_MOV_TO_REG,SW),2,"mov.w"),{RS16,RD16,E}, { 0x0,0xD,RS16, RD16,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SW),4,"mov.w"),{IMM16,RD16,E}, { 0x7,0x9,0x0,RD16,IMM16,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_REG,SW),4,"mov.w"),{RSIND,RD16,E}, { 0x6,0x9,B30|RSIND,RD16,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SW),6,"mov.w"),{DISP16SRC,RD16,E}, { 0x6,0xF,B30|DISPREG,RD16,DISP16SRC,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_REG,SW),6,"mov.w"),{RSINC,RD16,E}, { 0x6,0xD,B30|RSINC,RD16,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SW),6,"mov.w"),{ABS16SRC,RD16,E}, { 0x6,0xB,0x0,RD16,ABS16SRC,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,DISP16DST,E}, { 0x6,0xF,DISPREG|B31,RS16,DISP16DST,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,RDDEC,E}, { 0x6,0xD,RDDEC|B31,RS16,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_MEM,SW),6,"mov.w"),{RS16,ABS16DST,E}, { 0x6,0xB,0x8,RS16,ABS16DST,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_REG,SL),4,"mov.l"),{IMM32,RD32,E}, { 0x7,0xA,0x0,B30|RD32,IMM32LIST,E}EOP, SOP(O(O_MOV_TO_REG,SL),2,"mov.l"),{RS32,RD32,E}, { 0x0,0xF,B31|RS32,B30|RD32,E,0,0,0,0}EOP, SOP(O(O_MOV_TO_REG,SL),4,"mov.l"),{RSIND,RD32,E}, { PREFIX32,0x6,0x9,RSIND|B30,B30|RD32,E,0,0,0,0 }EOP, SOP(O(O_MOV_TO_REG,SL),6,"mov.l"),{DISP16SRC,RD32,E}, { PREFIX32,0x6,0xF,DISPREG|B30,B30|RD32,DISP16SRC,IGNORE,IGNORE,IGNORE,E }EOP, SOP(O(O_MOV_TO_REG,SL),6,"mov.l"),{DISP|L_32|SRC,RD32,E},{ PREFIX32,0x7,0x8,B30|DISPREG,0x0,0x6,0xB,0x2,B30|RD32,SRC|DISP32LIST,E }EOP, SOP(O(O_MOV_TO_REG,SL),6,"mov.l"),{RSINC,RD32,E}, { PREFIX32,0x6,0xD,B30|RSINC,B30|RD32,E,0,0,0,0 }EOP, SOP(O(O_MOV_TO_REG,SL),6,"mov.l"),{ABS16SRC,RD32,E}, { PREFIX32,0x6,0xB,0x0,B30|RD32,ABS16SRC,IGNORE,IGNORE,IGNORE,E }EOP, SOP(O(O_MOV_TO_REG,SL),6,"mov.l"),{ABS32SRC|MEMRELAX,RD32,E }, { PREFIX32,0x6,0xB,0x2,B30|RD32,SRC|MEMRELAX|ABS32LIST,E }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,RDIND,E}, { PREFIX32,0x6,0x9,RDIND|B31,B30|RS32,E,0,0,0,0 }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,DISP16DST,E}, { PREFIX32,0x6,0xF,DISPREG|B31,B30|RS32,DISP16DST,IGNORE,IGNORE,IGNORE,E }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,DISP|L_32|DST,E},{ PREFIX32,0x7,0x8,B31|DISPREG,0x0,0x6,0xB,0xA,B30|RS32,DST|DISP32LIST,E }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,RDDEC,E}, { PREFIX32,0x6,0xD,RDDEC|B31,B30|RS32,E,0,0,0,0 }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,ABS16DST,E}, { PREFIX32,0x6,0xB,0x8,B30|RS32,ABS16DST,IGNORE,IGNORE,IGNORE,E }EOP, SOP(O(O_MOV_TO_MEM,SL),6,"mov.l"),{RS32,ABS32DST|MEMRELAX,E }, { PREFIX32,0x6,0xB,0xA,B30|RS32,DST|MEMRELAX|ABS32LIST,E }EOP, SOP(O(O_MOV_TO_REG,SB),10,"movfpe"),{ABS16SRC,RD8,E},{ 0x6,0xA,0x4,RD8,ABS16SRC,IGNORE,IGNORE,IGNORE,E}EOP, SOP(O(O_MOV_TO_MEM,SB),10,"movtpe"),{RS8,ABS16DST,E},{ 0x6,0xA,0xC,RS8,ABS16DST,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_MULU,SB),1,14,"mulxu.b"),{RS8,RD16,E}, { 0x5,0x0,RS8,RD16,E,0,0,0,0}EOP, NEW_SOP(O(O_MULU,SW),0,14,"mulxu.w"),{RS16,RD32,E},{ 0x5,0x2,RS16,B30|RD32,E,0,0,0,0}EOP, NEW_SOP(O(O_MULS,SB),0,20,"mulxs.b"),{RS8,RD16,E}, { 0x0,0x1,0xc,0x0,0x5,0x0,RS8,RD16,E}EOP, NEW_SOP(O(O_MULS,SW),0,20,"mulxs.w"),{RS16,RD32,E},{ 0x0,0x1,0xc,0x0,0x5,0x2,RS16,B30|RD32,E}EOP, /* ??? This can use UNOP3. */ NEW_SOP(O(O_NEG,SB),1,2,"neg.b"),{ OR8,E, 0},{ 0x1,0x7,0x8,OR8,E,0,0,0,0}EOP, NEW_SOP(O(O_NEG,SW),0,2,"neg.w"),{ OR16,E,0},{ 0x1,0x7,0x9,OR16,E}EOP, NEW_SOP(O(O_NEG,SL),0,2,"neg.l"),{ OR32,E,0},{ 0x1,0x7,0xB,B30|OR32,E}EOP, NEW_SOP(O(O_NOP,SB),1,2,"nop"),{E,0,0},{ 0x0,0x0,0x0,0x0,E,0,0,0,0}EOP, /* ??? This can use UNOP3. */ NEW_SOP(O(O_NOT,SB),1,2,"not.b"),{ OR8,E, 0},{ 0x1,0x7,0x0,OR8,E,0,0,0,0}EOP, NEW_SOP(O(O_NOT,SW),0,2,"not.w"),{ OR16,E,0},{ 0x1,0x7,0x1,OR16,E}EOP, NEW_SOP(O(O_NOT,SL),0,2,"not.l"),{ OR32,E,0},{ 0x1,0x7,0x3,B30|OR32,E}EOP, TWOOP(O(O_OR, SB),"or.b",0xC,0x1,0x4), NEW_SOP(O(O_OR,SW),0,4,"or.w"),{IMM16,RD16,E },{0x7,0x9,0x4,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_OR,SW),0,2,"or.w"),{RS16,RD16,E },{0x6,0x4,RS16,RD16,E} EOP, NEW_SOP(O(O_OR,SL),0,6,"or.l"),{IMM32,RD32,E },{0x7,0xA,0x4,B30|RD32,IMM32LIST,E} EOP, NEW_SOP(O(O_OR,SL),0,2,"or.l"),{RS32,RD32,E },{0x0,0x1,0xF,0x0,0x6,0x4,B30|RS32,B30|RD32,E} EOP, NEW_SOP(O(O_ORC,SB),1,2,"orc"),{IMM8,CCR,E},{ 0x0,0x4,IMM8,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_ORC,SB),1,2,"orc"),{IMM8,EXR,E},{ 0x0,0x1,0x4,0x1,0x0,0x4,IMM8,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_MOV_TO_REG,SW),1,6,"pop.w"),{OR16,E,0},{ 0x6,0xD,0x7,OR16,E,0,0,0,0}EOP, NEW_SOP(O(O_MOV_TO_REG,SL),0,6,"pop.l"),{OR32,E,0},{ PREFIX32,0x6,0xD,0x7,OR32|B30,E,0,0,0,0}EOP, NEW_SOP(O(O_MOV_TO_MEM,SW),1,6,"push.w"),{OR16,E,0},{ 0x6,0xD,0xF,OR16,E,0,0,0,0}EOP, NEW_SOP(O(O_MOV_TO_MEM,SL),0,6,"push.l"),{OR32,E,0},{ PREFIX32,0x6,0xD,0xF,OR32|B30,E,0,0,0,0}EOP, UNOP3(O_ROTL, "rotl", 0x1,0x2,0x8), UNOP3(O_ROTR, "rotr", 0x1,0x3,0x8), UNOP3(O_ROTXL, "rotxl",0x1,0x2,0x0), UNOP3(O_ROTXR, "rotxr",0x1,0x3,0x0), SOP(O(O_BPT,SB), 10,"bpt"),{E,0,0},{ 0x7,0xA,0xF,0xF,E,0,0,0,0}EOP, SOP(O(O_RTE,SB), 10,"rte"),{E,0,0},{ 0x5,0x6,0x7,0x0,E,0,0,0,0}EOP, SOP(O(O_RTS,SB), 8,"rts"),{E,0,0},{ 0x5,0x4,0x7,0x0,E,0,0,0,0}EOP, UNOP3(O_SHAL, "shal",0x1,0x0,0x8), UNOP3(O_SHAR, "shar",0x1,0x1,0x8), UNOP3(O_SHLL, "shll",0x1,0x0,0x0), UNOP3(O_SHLR, "shlr",0x1,0x1,0x0), SOP(O(O_SLEEP,SB),2,"sleep"),{E,0,0},{ 0x0,0x1,0x8,0x0,E,0,0,0,0} EOP, NEW_SOP(O(O_STC,SB), 1,2,"stc"),{CCR,RD8,E},{ 0x0,0x2,0x0,RD8,E,0,0,0,0} EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,RSIND,E}, {PREFIXLDC,0x6,0x9,B31|RDIND,0x0,E} EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,DISP|DST|L_16,E},{PREFIXLDC,0x6,0xF,B31|DISPREG,0,DST|DISP|L_16,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,DISP|DST|L_32,E},{PREFIXLDC,0x7,0x8,B30|DISPREG,0,0x6,0xB,0xA,0x0,DST|DISP32LIST,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,RDDEC,E}, {PREFIXLDC,0x6,0xD,B31|RDDEC,0x0,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,ABS16SRC,E}, {PREFIXLDC,0x6,0xB,0x8,0x0,ABS16DST,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{CCR,ABS32SRC,E}, {PREFIXLDC,0x6,0xB,0xA,0x0,DST|ABS32LIST,E}EOP, NEW_SOP(O(O_STC,SB), 1,2,"stc"),{EXR,RD8,E},{ 0x0,0x2,0x1,RD8,E,0,0,0,0} EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,RSIND,E}, {0x0,0x1,0x4,0x1,0x6,0x9,B31|RDIND,0x0,E} EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,DISP|DST|L_16,E},{0x0,0x1,0x4,0x1,0x6,0xF,B31|DISPREG,0,DST|DISP|L_16,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,DISP|DST|L_32,E},{0x0,0x1,0x4,0x1,0x7,0x8,B30|DISPREG,0,0x6,0xB,0xA,0x0,DST|DISP32LIST,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,RDDEC,E}, {0x0,0x1,0x4,0x1,0x6,0xD,B31|RDDEC,0x0,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,ABS16SRC,E}, {0x0,0x1,0x4,0x1,0x6,0xB,0x8,0x0,ABS16DST,IGNORE,IGNORE,IGNORE,E}EOP, NEW_SOP(O(O_STC,SB),0,2,"stc"),{EXR,ABS32SRC,E}, {0x0,0x1,0x4,0x1,0x6,0xB,0xA,0x0,DST|ABS32LIST,E}EOP, SOP(O(O_SUB,SB),2,"sub.b"),{RS8,RD8,E},{ 0x1,0x8,RS8,RD8,E,0,0,0,0}EOP, NEW_SOP(O(O_SUB,SW),1,2,"sub.w"),{RS16,RD16,E }, {0x1,0x9,RS16,RD16,E} EOP, NEW_SOP(O(O_SUB,SW),0,4,"sub.w"),{IMM16,RD16,E }, {0x7,0x9,0x3,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_SUB,SL),0,2,"sub.l") ,{RS32,RD32,E }, {0x1,0xA,B31|RS32,B30|RD32,E} EOP, NEW_SOP(O(O_SUB,SL),0,6,"sub.l"), {IMM32,RD32,E },{0x7,0xA,0x3,B30|RD32,IMM32LIST,E} EOP, SOP(O(O_SUBS,SL),2,"subs"),{KBIT,RDP,E},{ 0x1,0xB,KBIT,RDP,E,0,0,0,0}EOP, TWOOP(O(O_SUBX,SB),"subx",0xB,0x1,0xE), NEW_SOP(O(O_TRAPA,SB),0,2,"trapa"),{ IMM2,E}, {0x5,0x7,IMM2,IGNORE,E }EOP, NEW_SOP(O(O_TAS,SB),0,2,"tas"),{RSIND,E}, {0x0,0x1,0xe,0x0,0x7,0xb,B30|RSIND,0xc,E }EOP, TWOOP(O(O_XOR, SB),"xor",0xD,0x1,0x5), NEW_SOP(O(O_XOR,SW),0,4,"xor.w"),{IMM16,RD16,E },{0x7,0x9,0x5,RD16,IMM16,IGNORE,IGNORE,IGNORE,E} EOP, NEW_SOP(O(O_XOR,SW),0,2,"xor.w"),{RS16,RD16,E },{0x6,0x5,RS16,RD16,E} EOP, NEW_SOP(O(O_XOR,SL),0,6,"xor.l"),{IMM32,RD32,E },{0x7,0xA,0x5,B30|RD32,IMM32LIST,E} EOP, NEW_SOP(O(O_XOR,SL),0,2,"xor.l") ,{RS32,RD32,E },{0x0,0x1,0xF,0x0,0x6,0x5,B30|RS32,B30|RD32,E} EOP, SOP(O(O_XORC,SB),2,"xorc"),{IMM8,CCR,E},{ 0x0,0x5,IMM8,IGNORE,E,0,0,0,0}EOP, SOP(O(O_XORC,SB),2,"xorc"),{IMM8,EXR,E},{ 0x0,0x1,0x4,0x1,0x0,0x5,IMM8,IGNORE,E,0,0,0,0}EOP, NEW_SOP(O(O_CLRMAC,SL),1,2,"clrmac"),{E, 0, 0},{0x0,0x1,0xa,0x0,E} EOP, NEW_SOP(O(O_MAC,SL),1,2,"mac"),{RSINC,RDINC,E},{0x0,0x1,0x6,0x0,0x6,0xd,B30|RSINC,B30|RDINC,E} EOP, NEW_SOP(O(O_LDMAC,SL),1,2,"ldmac"),{RS32,MACREG,E},{0x0,0x3,MACREG,RS32,E} EOP, NEW_SOP(O(O_LDM,SL),0,6,"ldm.l"),{RSINC, RS32, E},{ 0x0,0x1,IGNORE,0x0,0x6,0xD,0x7,IGNORE,E}EOP, NEW_SOP(O(O_STM,SL),0,6,"stm.l"),{RS32, RDDEC, E},{0x0,0x1,IGNORE,0x0,0x6,0xD,0xF,IGNORE,E}EOP, 0 }; #else extern struct h8_opcode h8_opcodes[] ; #endif