qasm/ciderpress/reformat/DisasmTable.cpp

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2019-11-13 23:45:39 +00:00
/*
* CiderPress
* Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved.
* See the file LICENSE for distribution terms.
*/
/*
* Tables used in 65xxx disassembly.
*/
#include "StdAfx.h"
#include "Disasm.h"
/*
* These values make the table a little easier to read, and prevent some
* varieties of typographical error. As C++ consts they should not occupy
* any space in the object code.
*/
#define OPMODE(op, addr) (ReformatDisasm65xxx::op | ReformatDisasm65xxx::addr << 8)
const int kOpUnknown = OPMODE(kOpCodeUnknown, kAddrModeUnknown);
const int kOpADC_Imm = OPMODE(kOpADC, kAddrImm); // 0x69
const int kOpADC_Abs = OPMODE(kOpADC, kAddrAbs); // 0x6d
const int kOpADC_AbsLong = OPMODE(kOpADC, kAddrAbsLong); // 0x6f
const int kOpADC_DP = OPMODE(kOpADC, kAddrDP); // 0x65
const int kOpADC_DPInd = OPMODE(kOpADC, kAddrDPInd); // 0x72
const int kOpADC_DPIndLong = OPMODE(kOpADC, kAddrDPIndLong); // 0x67
const int kOpADC_AbsIndexX = OPMODE(kOpADC, kAddrAbsIndexX); // 0x7d
const int kOpADC_AbsIndexXLong = OPMODE(kOpADC, kAddrAbsIndexXLong); // 0x7f
const int kOpADC_AbsIndexY = OPMODE(kOpADC, kAddrAbsIndexY); // 0x79
const int kOpADC_DPIndexX = OPMODE(kOpADC, kAddrDPIndexX); // 0x75
const int kOpADC_DPIndexXInd = OPMODE(kOpADC, kAddrDPIndexXInd); // 0x61
const int kOpADC_DPIndIndexY = OPMODE(kOpADC, kAddrDPIndIndexY); // 0x71
const int kOpADC_DPIndIndexYLong = OPMODE(kOpADC, kAddrDPIndIndexYLong); // 0x77
const int kOpADC_StackRel = OPMODE(kOpADC, kAddrStackRel); // 0x63
const int kOpADC_StackRelIndexY = OPMODE(kOpADC, kAddrStackRelIndexY); // 0x73
const int kOpAND_Imm = OPMODE(kOpAND, kAddrImm); // 0x29
const int kOpAND_Abs = OPMODE(kOpAND, kAddrAbs); // 0x2d
const int kOpAND_AbsLong = OPMODE(kOpAND, kAddrAbsLong); // 0x2f
const int kOpAND_DP = OPMODE(kOpAND, kAddrDP); // 0x25
const int kOpAND_DPInd = OPMODE(kOpAND, kAddrDPInd); // 0x32
const int kOpAND_DPIndLong = OPMODE(kOpAND, kAddrDPIndLong); // 0x27
const int kOpAND_AbsIndexX = OPMODE(kOpAND, kAddrAbsIndexX); // 0x3d
const int kOpAND_AbsIndexXLong = OPMODE(kOpAND, kAddrAbsIndexXLong); // 0x3f
const int kOpAND_AbsIndexY = OPMODE(kOpAND, kAddrAbsIndexY); // 0x39
const int kOpAND_DPIndexX = OPMODE(kOpAND, kAddrDPIndexX); // 0x35
const int kOpAND_DPIndexXInd = OPMODE(kOpAND, kAddrDPIndexXInd); // 0x21
const int kOpAND_DPIndIndexY = OPMODE(kOpAND, kAddrDPIndIndexY); // 0x31
const int kOpAND_DPIndIndexYLong = OPMODE(kOpAND, kAddrDPIndIndexYLong); // 0x37
const int kOpAND_StackRel = OPMODE(kOpAND, kAddrStackRel); // 0x23
const int kOpAND_StackRelIndexY = OPMODE(kOpAND, kAddrStackRelIndexY); // 0x33
const int kOpASL_Acc = OPMODE(kOpASL, kAddrAcc); // 0x0a
const int kOpASL_Abs = OPMODE(kOpASL, kAddrAbs); // 0x0e
const int kOpASL_DP = OPMODE(kOpASL, kAddrDP); // 0x06
const int kOpASL_AbsIndexX = OPMODE(kOpASL, kAddrAbsIndexX); // 0x1e
const int kOpASL_DPIndexX = OPMODE(kOpASL, kAddrDPIndexX); // 0x16
const int kOpBCC_PCRel = OPMODE(kOpBCC, kAddrPCRel); // 0x90
const int kOpBCS_PCRel = OPMODE(kOpBCS, kAddrPCRel); // 0xb0
const int kOpBEQ_PCRel = OPMODE(kOpBEQ, kAddrPCRel); // 0xf0
const int kOpBIT_Imm = OPMODE(kOpBIT, kAddrImm); // 0x89
const int kOpBIT_Abs = OPMODE(kOpBIT, kAddrAbs); // 0x2c
const int kOpBIT_DP = OPMODE(kOpBIT, kAddrDP); // 0x24
const int kOpBIT_AbsIndexX = OPMODE(kOpBIT, kAddrAbsIndexX); // 0x3c
const int kOpBIT_DPIndexX = OPMODE(kOpBIT, kAddrDPIndexX); // 0x34
const int kOpBMI_PCRel = OPMODE(kOpBMI, kAddrPCRel); // 0x30
const int kOpBNE_PCRel = OPMODE(kOpBNE, kAddrPCRel); // 0xd0
const int kOpBPL_PCRel = OPMODE(kOpBPL, kAddrPCRel); // 0x10
const int kOpBRA_PCRel = OPMODE(kOpBRA, kAddrPCRel); // 0x80
const int kOpBRK_StackInt = OPMODE(kOpBRK, kAddrStackInt); // 0x00
const int kOpBRL_PCRelLong = OPMODE(kOpBRL, kAddrPCRelLong); // 0x82
const int kOpBVC_PCRel = OPMODE(kOpBVC, kAddrPCRel); // 0x50
const int kOpBVS_PCRel = OPMODE(kOpBVS, kAddrPCRel); // 0x70
const int kOpCLC_Implied = OPMODE(kOpCLC, kAddrImplied); // 0x18
const int kOpCLD_Implied = OPMODE(kOpCLD, kAddrImplied); // 0xd8
const int kOpCLI_Implied = OPMODE(kOpCLI, kAddrImplied); // 0x58
const int kOpCLV_Implied = OPMODE(kOpCLV, kAddrImplied); // 0xb8
const int kOpCMP_Imm = OPMODE(kOpCMP, kAddrImm); // 0xc9
const int kOpCMP_Abs = OPMODE(kOpCMP, kAddrAbs); // 0xcd
const int kOpCMP_AbsLong = OPMODE(kOpCMP, kAddrAbsLong); // 0xcf
const int kOpCMP_DP = OPMODE(kOpCMP, kAddrDP); // 0xc5
const int kOpCMP_DPInd = OPMODE(kOpCMP, kAddrDPInd); // 0xd2
const int kOpCMP_DPIndLong = OPMODE(kOpCMP, kAddrDPIndLong); // 0xc7
const int kOpCMP_AbsIndexX = OPMODE(kOpCMP, kAddrAbsIndexX); // 0xdd
const int kOpCMP_AbsIndexXLong = OPMODE(kOpCMP, kAddrAbsIndexXLong); // 0xdf
const int kOpCMP_AbsIndexY = OPMODE(kOpCMP, kAddrAbsIndexY); // 0xd9
const int kOpCMP_DPIndexX = OPMODE(kOpCMP, kAddrDPIndexX); // 0xd5
const int kOpCMP_DPIndexXInd = OPMODE(kOpCMP, kAddrDPIndexXInd); // 0xc1
const int kOpCMP_DPIndIndexY = OPMODE(kOpCMP, kAddrDPIndIndexY); // 0xd1
const int kOpCMP_DPIndIndexYLong = OPMODE(kOpCMP, kAddrDPIndIndexYLong); // 0xd7
const int kOpCMP_StackRel = OPMODE(kOpCMP, kAddrStackRel); // 0xc3
const int kOpCMP_StackRelIndexY = OPMODE(kOpCMP, kAddrStackRelIndexY); // 0xd3
const int kOpCOP_StackInt = OPMODE(kOpCOP, kAddrStackInt); // 0x02
const int kOpCPX_Imm = OPMODE(kOpCPX, kAddrImm); // 0xe0
const int kOpCPX_Abs = OPMODE(kOpCPX, kAddrAbs); // 0xec
const int kOpCPX_DP = OPMODE(kOpCPX, kAddrDP); // 0xe4
const int kOpCPY_Imm = OPMODE(kOpCPY, kAddrImm); // 0xc0
const int kOpCPY_Abs = OPMODE(kOpCPY, kAddrAbs); // 0xcc
const int kOpCPY_DP = OPMODE(kOpCPY, kAddrDP); // 0xc4
const int kOpDEC_Acc = OPMODE(kOpDEC, kAddrAcc); // 0x3a
const int kOpDEC_Abs = OPMODE(kOpDEC, kAddrAbs); // 0xce
const int kOpDEC_DP = OPMODE(kOpDEC, kAddrDP); // 0xc6
const int kOpDEC_AbsIndexX = OPMODE(kOpDEC, kAddrAbsIndexX); // 0xde
const int kOpDEC_DPIndexX = OPMODE(kOpDEC, kAddrDPIndexX); // 0xd6
const int kOpDEX_Implied = OPMODE(kOpDEX, kAddrImplied); // 0xca
const int kOpDEY_Implied = OPMODE(kOpDEY, kAddrImplied); // 0x88
const int kOpEOR_Imm = OPMODE(kOpEOR, kAddrImm); // 0x49
const int kOpEOR_Abs = OPMODE(kOpEOR, kAddrAbs); // 0x4d
const int kOpEOR_AbsLong = OPMODE(kOpEOR, kAddrAbsLong); // 0x4f
const int kOpEOR_DP = OPMODE(kOpEOR, kAddrDP); // 0x45
const int kOpEOR_DPInd = OPMODE(kOpEOR, kAddrDPInd); // 0x52
const int kOpEOR_DPIndLong = OPMODE(kOpEOR, kAddrDPIndLong); // 0x47
const int kOpEOR_AbsIndexX = OPMODE(kOpEOR, kAddrAbsIndexX); // 0x5d
const int kOpEOR_AbsIndexXLong = OPMODE(kOpEOR, kAddrAbsIndexXLong); // 0x5f
const int kOpEOR_AbsIndexY = OPMODE(kOpEOR, kAddrAbsIndexY); // 0x59
const int kOpEOR_DPIndexX = OPMODE(kOpEOR, kAddrDPIndexX); // 0x55
const int kOpEOR_DPIndexXInd = OPMODE(kOpEOR, kAddrDPIndexXInd); // 0x41
const int kOpEOR_DPIndIndexY = OPMODE(kOpEOR, kAddrDPIndIndexY); // 0x51
const int kOpEOR_DPIndIndexYLong = OPMODE(kOpEOR, kAddrDPIndIndexYLong); // 0x57
const int kOpEOR_StackRel = OPMODE(kOpEOR, kAddrStackRel); // 0x43
const int kOpEOR_StackRelIndexY = OPMODE(kOpEOR, kAddrStackRelIndexY); // 0x53
const int kOpINC_Acc = OPMODE(kOpINC, kAddrAcc); // 0x1a
const int kOpINC_Abs = OPMODE(kOpINC, kAddrAbs); // 0xee
const int kOpINC_DP = OPMODE(kOpINC, kAddrDP); // 0xe6
const int kOpINC_AbsIndexX = OPMODE(kOpINC, kAddrAbsIndexX); // 0xfe
const int kOpINC_DPIndexX = OPMODE(kOpINC, kAddrDPIndexX); // 0xf6
const int kOpINX_Implied = OPMODE(kOpINX, kAddrImplied); // 0xe8
const int kOpINY_Implied = OPMODE(kOpINY, kAddrImplied); // 0xc8
const int kOpJML_AbsIndLong = OPMODE(kOpJML, kAddrAbsIndLong); // 0xdc
const int kOpJMP_Abs = OPMODE(kOpJMP, kAddrAbs); // 0x4c
const int kOpJMP_AbsInd = OPMODE(kOpJMP, kAddrAbsInd); // 0x6c
const int kOpJMP_AbsIndexXInd = OPMODE(kOpJMP, kAddrAbsIndexXInd); // 0x7c
const int kOpJMP_AbsLong = OPMODE(kOpJMP, kAddrAbsLong); // 0x5c
const int kOpJSL_AbsLong = OPMODE(kOpJSL, kAddrAbsLong); // 0x22
const int kOpJSR_Abs = OPMODE(kOpJSR, kAddrAbs); // 0x20
const int kOpJSR_AbsIndexXInd = OPMODE(kOpJSR, kAddrAbsIndexXInd); // 0xfc
const int kOpLDA_Imm = OPMODE(kOpLDA, kAddrImm); // 0xa9
const int kOpLDA_Abs = OPMODE(kOpLDA, kAddrAbs); // 0xad
const int kOpLDA_AbsLong = OPMODE(kOpLDA, kAddrAbsLong); // 0xaf
const int kOpLDA_DP = OPMODE(kOpLDA, kAddrDP); // 0xa5
const int kOpLDA_DPInd = OPMODE(kOpLDA, kAddrDPInd); // 0xb2
const int kOpLDA_DPIndLong = OPMODE(kOpLDA, kAddrDPIndLong); // 0xa7
const int kOpLDA_AbsIndexX = OPMODE(kOpLDA, kAddrAbsIndexX); // 0xbd
const int kOpLDA_AbsIndexXLong = OPMODE(kOpLDA, kAddrAbsIndexXLong); // 0xbf
const int kOpLDA_AbsIndexY = OPMODE(kOpLDA, kAddrAbsIndexY); // 0xb9
const int kOpLDA_DPIndexX = OPMODE(kOpLDA, kAddrDPIndexX); // 0xb5
const int kOpLDA_DPIndexXInd = OPMODE(kOpLDA, kAddrDPIndexXInd); // 0xa1
const int kOpLDA_DPIndIndexY = OPMODE(kOpLDA, kAddrDPIndIndexY); // 0xb1
const int kOpLDA_DPIndIndexYLong = OPMODE(kOpLDA, kAddrDPIndIndexYLong); // 0xb7
const int kOpLDA_StackRel = OPMODE(kOpLDA, kAddrStackRel); // 0xa3
const int kOpLDA_StackRelIndexY = OPMODE(kOpLDA, kAddrStackRelIndexY); // 0xb3
const int kOpLDX_Imm = OPMODE(kOpLDX, kAddrImm); // 0xa2
const int kOpLDX_Abs = OPMODE(kOpLDX, kAddrAbs); // 0xae
const int kOpLDX_DP = OPMODE(kOpLDX, kAddrDP); // 0xa6
const int kOpLDX_AbsIndexY = OPMODE(kOpLDX, kAddrAbsIndexY); // 0xbe
const int kOpLDX_DPIndexY = OPMODE(kOpLDX, kAddrDPIndexY); // 0xb6
const int kOpLDY_Imm = OPMODE(kOpLDY, kAddrImm); // 0xa0
const int kOpLDY_Abs = OPMODE(kOpLDY, kAddrAbs); // 0xac
const int kOpLDY_DP = OPMODE(kOpLDY, kAddrDP); // 0xa4
const int kOpLDY_AbsIndexX = OPMODE(kOpLDY, kAddrAbsIndexX); // 0xbc
const int kOpLDY_DPIndexX = OPMODE(kOpLDY, kAddrDPIndexX); // 0xb4
const int kOpLSR_Acc = OPMODE(kOpLSR, kAddrAcc); // 0x4a
const int kOpLSR_Abs = OPMODE(kOpLSR, kAddrAbs); // 0x4e
const int kOpLSR_DP = OPMODE(kOpLSR, kAddrDP); // 0x46
const int kOpLSR_AbsIndexX = OPMODE(kOpLSR, kAddrAbsIndexX); // 0x5e
const int kOpLSR_DPIndexX = OPMODE(kOpLSR, kAddrDPIndexX); // 0x56
const int kOpMVN_BlockMove = OPMODE(kOpMVN, kAddrBlockMove); // 0x54
const int kOpMVP_BlockMove = OPMODE(kOpMVP, kAddrBlockMove); // 0x44
const int kOpNOP_Implied = OPMODE(kOpNOP, kAddrImplied); // 0xea
const int kOpORA_Imm = OPMODE(kOpORA, kAddrImm); // 0x09
const int kOpORA_Abs = OPMODE(kOpORA, kAddrAbs); // 0x0d
const int kOpORA_AbsLong = OPMODE(kOpORA, kAddrAbsLong); // 0x0f
const int kOpORA_DP = OPMODE(kOpORA, kAddrDP); // 0x05
const int kOpORA_DPInd = OPMODE(kOpORA, kAddrDPInd); // 0x12
const int kOpORA_DPIndLong = OPMODE(kOpORA, kAddrDPIndLong); // 0x07
const int kOpORA_AbsIndexX = OPMODE(kOpORA, kAddrAbsIndexX); // 0x1d
const int kOpORA_AbsIndexXLong = OPMODE(kOpORA, kAddrAbsIndexXLong); // 0x1f
const int kOpORA_AbsIndexY = OPMODE(kOpORA, kAddrAbsIndexY); // 0x19
const int kOpORA_DPIndexX = OPMODE(kOpORA, kAddrDPIndexX); // 0x15
const int kOpORA_DPIndexXInd = OPMODE(kOpORA, kAddrDPIndexXInd); // 0x01
const int kOpORA_DPIndIndexY = OPMODE(kOpORA, kAddrDPIndIndexY); // 0x11
const int kOpORA_DPIndIndexYLong = OPMODE(kOpORA, kAddrDPIndIndexYLong); // 0x17
const int kOpORA_StackRel = OPMODE(kOpORA, kAddrStackRel); // 0x03
const int kOpORA_StackRelIndexY = OPMODE(kOpORA, kAddrStackRelIndexY); // 0x13
const int kOpPEA_StackAbs = OPMODE(kOpPEA, kAddrStackAbs); // 0xf4
const int kOpPEI_StackDPInd = OPMODE(kOpPEI, kAddrStackDPInd); // 0xd4
const int kOpPER_StackPCRel = OPMODE(kOpPER, kAddrStackPCRel); // 0x62
const int kOpPHA_StackPush = OPMODE(kOpPHA, kAddrStackPush); // 0x48
const int kOpPHB_StackPush = OPMODE(kOpPHB, kAddrStackPush); // 0x8b
const int kOpPHD_StackPush = OPMODE(kOpPHD, kAddrStackPush); // 0x0b
const int kOpPHK_StackPush = OPMODE(kOpPHK, kAddrStackPush); // 0x4b
const int kOpPHP_StackPush = OPMODE(kOpPHP, kAddrStackPush); // 0x08
const int kOpPHX_StackPush = OPMODE(kOpPHX, kAddrStackPush); // 0xda
const int kOpPHY_StackPush = OPMODE(kOpPHY, kAddrStackPush); // 0x5a
const int kOpPLA_StackPull = OPMODE(kOpPLA, kAddrStackPull); // 0x68
const int kOpPLB_StackPull = OPMODE(kOpPLB, kAddrStackPull); // 0xab
const int kOpPLD_StackPull = OPMODE(kOpPLD, kAddrStackPull); // 0x2b
const int kOpPLP_StackPull = OPMODE(kOpPLP, kAddrStackPull); // 0x28
const int kOpPLX_StackPull = OPMODE(kOpPLX, kAddrStackPull); // 0xfa
const int kOpPLY_StackPull = OPMODE(kOpPLY, kAddrStackPull); // 0x7a
const int kOpREP_Imm = OPMODE(kOpREP, kAddrImm); // 0xc2
const int kOpROL_Acc = OPMODE(kOpROL, kAddrAcc); // 0x2a
const int kOpROL_Abs = OPMODE(kOpROL, kAddrAbs); // 0x2e
const int kOpROL_DP = OPMODE(kOpROL, kAddrDP); // 0x26
const int kOpROL_AbsIndexX = OPMODE(kOpROL, kAddrAbsIndexX); // 0x3e
const int kOpROL_DPIndexX = OPMODE(kOpROL, kAddrDPIndexX); // 0x36
const int kOpROR_Acc = OPMODE(kOpROR, kAddrAcc); // 0x6a
const int kOpROR_Abs = OPMODE(kOpROR, kAddrAbs); // 0x6e
const int kOpROR_DP = OPMODE(kOpROR, kAddrDP); // 0x66
const int kOpROR_AbsIndexX = OPMODE(kOpROR, kAddrAbsIndexX); // 0x7e
const int kOpROR_DPIndexX = OPMODE(kOpROR, kAddrDPIndexX); // 0x76
const int kOpRTI_StackRTI = OPMODE(kOpRTI, kAddrStackRTI); // 0x40
const int kOpRTL_StackRTL = OPMODE(kOpRTL, kAddrStackRTL); // 0x6b
const int kOpRTS_StackRTS = OPMODE(kOpRTS, kAddrStackRTS); // 0x60
const int kOpSBC_Imm = OPMODE(kOpSBC, kAddrImm); // 0xe9
const int kOpSBC_Abs = OPMODE(kOpSBC, kAddrAbs); // 0xed
const int kOpSBC_AbsLong = OPMODE(kOpSBC, kAddrAbsLong); // 0xef
const int kOpSBC_DP = OPMODE(kOpSBC, kAddrDP); // 0xe5
const int kOpSBC_DPInd = OPMODE(kOpSBC, kAddrDPInd); // 0xf2
const int kOpSBC_DPIndLong = OPMODE(kOpSBC, kAddrDPIndLong); // 0xe7
const int kOpSBC_AbsIndexX = OPMODE(kOpSBC, kAddrAbsIndexX); // 0xfd
const int kOpSBC_AbsIndexXLong = OPMODE(kOpSBC, kAddrAbsIndexXLong); // 0xff
const int kOpSBC_AbsIndexY = OPMODE(kOpSBC, kAddrAbsIndexY); // 0xf9
const int kOpSBC_DPIndexX = OPMODE(kOpSBC, kAddrDPIndexX); // 0xf5
const int kOpSBC_DPIndexXInd = OPMODE(kOpSBC, kAddrDPIndexXInd); // 0xe1
const int kOpSBC_DPIndIndexY = OPMODE(kOpSBC, kAddrDPIndIndexY); // 0xf1
const int kOpSBC_DPIndIndexYLong = OPMODE(kOpSBC, kAddrDPIndIndexYLong); // 0xf7
const int kOpSBC_StackRel = OPMODE(kOpSBC, kAddrStackRel); // 0xe3
const int kOpSBC_StackRelIndexY = OPMODE(kOpSBC, kAddrStackRelIndexY); // 0xf3
const int kOpSEC_Implied = OPMODE(kOpSEC, kAddrImplied); // 0x38
const int kOpSED_Implied = OPMODE(kOpSED, kAddrImplied); // 0xf8
const int kOpSEI_Implied = OPMODE(kOpSEI, kAddrImplied); // 0x78
const int kOpSEP_Imm = OPMODE(kOpSEP, kAddrImm); // 0xe2
const int kOpSTA_Abs = OPMODE(kOpSTA, kAddrAbs); // 0x8d
const int kOpSTA_AbsLong = OPMODE(kOpSTA, kAddrAbsLong); // 0x8f
const int kOpSTA_DP = OPMODE(kOpSTA, kAddrDP); // 0x85
const int kOpSTA_DPInd = OPMODE(kOpSTA, kAddrDPInd); // 0x92
const int kOpSTA_DPIndLong = OPMODE(kOpSTA, kAddrDPIndLong); // 0x87
const int kOpSTA_AbsIndexX = OPMODE(kOpSTA, kAddrAbsIndexX); // 0x9d
const int kOpSTA_AbsIndexXLong = OPMODE(kOpSTA, kAddrAbsIndexXLong); // 0x9f
const int kOpSTA_AbsIndexY = OPMODE(kOpSTA, kAddrAbsIndexY); // 0x99
const int kOpSTA_DPIndexX = OPMODE(kOpSTA, kAddrDPIndexX); // 0x95
const int kOpSTA_DPIndexXInd = OPMODE(kOpSTA, kAddrDPIndexXInd); // 0x81
const int kOpSTA_DPIndIndexY = OPMODE(kOpSTA, kAddrDPIndIndexY); // 0x91
const int kOpSTA_DPIndIndexYLong = OPMODE(kOpSTA, kAddrDPIndIndexYLong); // 0x97
const int kOpSTA_StackRel = OPMODE(kOpSTA, kAddrStackRel); // 0x83
const int kOpSTA_StackRelIndexY = OPMODE(kOpSTA, kAddrStackRelIndexY); // 0x93
const int kOpSTP_Implied = OPMODE(kOpSTP, kAddrImplied); // 0xdb
const int kOpSTX_Abs = OPMODE(kOpSTX, kAddrAbs); // 0x8e
const int kOpSTX_DP = OPMODE(kOpSTX, kAddrDP); // 0x86
const int kOpSTX_DPIndexY = OPMODE(kOpSTX, kAddrDPIndexY); // 0x96
const int kOpSTY_Abs = OPMODE(kOpSTY, kAddrAbs); // 0x8c
const int kOpSTY_DP = OPMODE(kOpSTY, kAddrDP); // 0x84
const int kOpSTY_DPIndexX = OPMODE(kOpSTY, kAddrDPIndexX); // 0x94
const int kOpSTZ_Abs = OPMODE(kOpSTZ, kAddrAbs); // 0x9c
const int kOpSTZ_DP = OPMODE(kOpSTZ, kAddrDP); // 0x64
const int kOpSTZ_AbsIndexX = OPMODE(kOpSTZ, kAddrAbsIndexX); // 0x9e
const int kOpSTZ_DPIndexX = OPMODE(kOpSTZ, kAddrDPIndexX); // 0x74
const int kOpTAX_Implied = OPMODE(kOpTAX, kAddrImplied); // 0xaa
const int kOpTAY_Implied = OPMODE(kOpTAY, kAddrImplied); // 0xa8
const int kOpTCD_Implied = OPMODE(kOpTCD, kAddrImplied); // 0x5b
const int kOpTCS_Implied = OPMODE(kOpTCS, kAddrImplied); // 0x1b
const int kOpTDC_Implied = OPMODE(kOpTDC, kAddrImplied); // 0x7b
const int kOpTRB_Abs = OPMODE(kOpTRB, kAddrAbs); // 0x1c
const int kOpTRB_DP = OPMODE(kOpTRB, kAddrDP); // 0x14
const int kOpTSB_Abs = OPMODE(kOpTSB, kAddrAbs); // 0x0c
const int kOpTSB_DP = OPMODE(kOpTSB, kAddrDP); // 0x04
const int kOpTSC_Implied = OPMODE(kOpTSC, kAddrImplied); // 0x3b
const int kOpTSX_Implied = OPMODE(kOpTSX, kAddrImplied); // 0xba
const int kOpTXA_Implied = OPMODE(kOpTXA, kAddrImplied); // 0x8a
const int kOpTXS_Implied = OPMODE(kOpTXS, kAddrImplied); // 0x9a
const int kOpTXY_Implied = OPMODE(kOpTXY, kAddrImplied); // 0x9b
const int kOpTYA_Implied = OPMODE(kOpTYA, kAddrImplied); // 0x98
const int kOpTYX_Implied = OPMODE(kOpTYX, kAddrImplied); // 0xbb
const int kOpWAI_Implied = OPMODE(kOpWAI, kAddrImplied); // 0xcb
const int kOpWDM_Implied = OPMODE(kOpWDM, kAddrWDM); // 0x42
const int kOpXBA_Implied = OPMODE(kOpXBA, kAddrImplied); // 0xeb
const int kOpXCE_Implied = OPMODE(kOpXCE, kAddrImplied); // 0xfb
/*
* Map opcode bytes to instructions on all four CPUs (6502 65C02 65802 65816).
*
* Each entry has an OpCode enum in the low byte and an AddrMode enum in the
* high byte.
*
* Instruction availability on 65802 and 65816 is generally identical. We
* give it its own column so that, if we need to model some 65802-specific
* quirks, we can do it by assigning a different instruction.
*/
/*static*/ const ReformatDisasm65xxx::OpMap ReformatDisasm65xxx::kOpMap[] = {
/*00*/{ kOpBRK_StackInt, kOpBRK_StackInt, kOpBRK_StackInt, kOpBRK_StackInt },
/*01*/{ kOpORA_DPIndexXInd, kOpORA_DPIndexXInd, kOpORA_DPIndexXInd, kOpORA_DPIndexXInd },
/*02*/{ kOpUnknown, kOpUnknown, kOpCOP_StackInt, kOpCOP_StackInt },
/*03*/{ kOpUnknown, kOpUnknown, kOpORA_StackRel, kOpORA_StackRel },
/*04*/{ kOpUnknown, kOpTSB_DP, kOpTSB_DP, kOpTSB_DP },
/*05*/{ kOpORA_DP, kOpORA_DP, kOpORA_DP, kOpORA_DP },
/*06*/{ kOpASL_DP, kOpASL_DP, kOpASL_DP, kOpASL_DP },
/*07*/{ kOpUnknown, kOpUnknown, kOpORA_DPIndLong, kOpORA_DPIndLong },
/*08*/{ kOpPHP_StackPush, kOpPHP_StackPush, kOpPHP_StackPush, kOpPHP_StackPush },
/*09*/{ kOpORA_Imm, kOpORA_Imm, kOpORA_Imm, kOpORA_Imm },
/*0a*/{ kOpASL_Acc, kOpASL_Acc, kOpASL_Acc, kOpASL_Acc },
/*0b*/{ kOpUnknown, kOpUnknown, kOpPHD_StackPush, kOpPHD_StackPush },
/*0c*/{ kOpUnknown, kOpTSB_Abs, kOpTSB_Abs, kOpTSB_Abs },
/*0d*/{ kOpORA_Abs, kOpORA_Abs, kOpORA_Abs, kOpORA_Abs },
/*0e*/{ kOpASL_Abs, kOpASL_Abs, kOpASL_Abs, kOpASL_Abs },
/*0f*/{ kOpUnknown, kOpUnknown, kOpORA_AbsLong, kOpORA_AbsLong },
/*10*/{ kOpBPL_PCRel, kOpBPL_PCRel, kOpBPL_PCRel, kOpBPL_PCRel },
/*11*/{ kOpORA_DPIndIndexY, kOpORA_DPIndIndexY, kOpORA_DPIndIndexY, kOpORA_DPIndIndexY },
/*12*/{ kOpUnknown, kOpORA_DPInd, kOpORA_DPInd, kOpORA_DPInd },
/*13*/{ kOpUnknown, kOpUnknown, kOpORA_StackRelIndexY, kOpORA_StackRelIndexY },
/*14*/{ kOpUnknown, kOpTRB_DP, kOpTRB_DP, kOpTRB_DP },
/*15*/{ kOpORA_DPIndexX, kOpORA_DPIndexX, kOpORA_DPIndexX, kOpORA_DPIndexX },
/*16*/{ kOpASL_DPIndexX, kOpASL_DPIndexX, kOpASL_DPIndexX, kOpASL_DPIndexX },
/*17*/{ kOpUnknown, kOpUnknown, kOpORA_DPIndIndexYLong, kOpORA_DPIndIndexYLong },
/*18*/{ kOpCLC_Implied, kOpCLC_Implied, kOpCLC_Implied, kOpCLC_Implied },
/*19*/{ kOpORA_AbsIndexY, kOpORA_AbsIndexY, kOpORA_AbsIndexY, kOpORA_AbsIndexY },
/*1a*/{ kOpUnknown, kOpINC_Acc, kOpINC_Acc, kOpINC_Acc },
/*1b*/{ kOpUnknown, kOpUnknown, kOpTCS_Implied, kOpTCS_Implied },
/*1c*/{ kOpUnknown, kOpTRB_Abs, kOpTRB_Abs, kOpTRB_Abs },
/*1d*/{ kOpORA_AbsIndexX, kOpORA_AbsIndexX, kOpORA_AbsIndexX, kOpORA_AbsIndexX },
/*1e*/{ kOpASL_AbsIndexX, kOpASL_AbsIndexX, kOpASL_AbsIndexX, kOpASL_AbsIndexX },
/*1f*/{ kOpUnknown, kOpUnknown, kOpORA_AbsIndexXLong, kOpORA_AbsIndexXLong },
/*20*/{ kOpJSR_Abs, kOpJSR_Abs, kOpJSR_Abs, kOpJSR_Abs },
/*21*/{ kOpAND_DPIndexXInd, kOpAND_DPIndexXInd, kOpAND_DPIndexXInd, kOpAND_DPIndexXInd },
/*22*/{ kOpUnknown, kOpUnknown, kOpJSL_AbsLong, kOpJSL_AbsLong },
/*23*/{ kOpUnknown, kOpUnknown, kOpAND_StackRel, kOpAND_StackRel },
/*24*/{ kOpBIT_DP, kOpBIT_DP, kOpBIT_DP, kOpBIT_DP },
/*25*/{ kOpAND_DP, kOpAND_DP, kOpAND_DP, kOpAND_DP },
/*26*/{ kOpROL_DP, kOpROL_DP, kOpROL_DP, kOpROL_DP },
/*27*/{ kOpUnknown, kOpUnknown, kOpAND_DPIndLong, kOpAND_DPIndLong },
/*28*/{ kOpPLP_StackPull, kOpPLP_StackPull, kOpPLP_StackPull, kOpPLP_StackPull },
/*29*/{ kOpAND_Imm, kOpAND_Imm, kOpAND_Imm, kOpAND_Imm },
/*2a*/{ kOpROL_Acc, kOpROL_Acc, kOpROL_Acc, kOpROL_Acc },
/*2b*/{ kOpUnknown, kOpUnknown, kOpPLD_StackPull, kOpPLD_StackPull },
/*2c*/{ kOpBIT_Abs, kOpBIT_Abs, kOpBIT_Abs, kOpBIT_Abs },
/*2d*/{ kOpAND_Abs, kOpAND_Abs, kOpAND_Abs, kOpAND_Abs },
/*2e*/{ kOpROL_Abs, kOpROL_Abs, kOpROL_Abs, kOpROL_Abs },
/*2f*/{ kOpUnknown, kOpUnknown, kOpAND_AbsLong, kOpAND_AbsLong },
/*30*/{ kOpBMI_PCRel, kOpBMI_PCRel, kOpBMI_PCRel, kOpBMI_PCRel },
/*31*/{ kOpAND_DPIndIndexY, kOpAND_DPIndIndexY, kOpAND_DPIndIndexY, kOpAND_DPIndIndexY },
/*32*/{ kOpUnknown, kOpAND_DPInd, kOpAND_DPInd, kOpAND_DPInd },
/*33*/{ kOpUnknown, kOpUnknown, kOpAND_StackRelIndexY, kOpAND_StackRelIndexY },
/*34*/{ kOpUnknown, kOpBIT_DPIndexX, kOpBIT_DPIndexX, kOpBIT_DPIndexX },
/*35*/{ kOpAND_DPIndexX, kOpAND_DPIndexX, kOpAND_DPIndexX, kOpAND_DPIndexX },
/*36*/{ kOpROL_DPIndexX, kOpROL_DPIndexX, kOpROL_DPIndexX, kOpROL_DPIndexX },
/*37*/{ kOpUnknown, kOpUnknown, kOpAND_DPIndIndexYLong, kOpAND_DPIndIndexYLong },
/*38*/{ kOpSEC_Implied, kOpSEC_Implied, kOpSEC_Implied, kOpSEC_Implied },
/*39*/{ kOpAND_AbsIndexY, kOpAND_AbsIndexY, kOpAND_AbsIndexY, kOpAND_AbsIndexY },
/*3a*/{ kOpUnknown, kOpDEC_Acc, kOpDEC_Acc, kOpDEC_Acc },
/*3b*/{ kOpUnknown, kOpUnknown, kOpTSC_Implied, kOpTSC_Implied },
/*3c*/{ kOpUnknown, kOpBIT_AbsIndexX, kOpBIT_AbsIndexX, kOpBIT_AbsIndexX },
/*3d*/{ kOpAND_AbsIndexX, kOpAND_AbsIndexX, kOpAND_AbsIndexX, kOpAND_AbsIndexX },
/*3e*/{ kOpROL_AbsIndexX, kOpROL_AbsIndexX, kOpROL_AbsIndexX, kOpROL_AbsIndexX },
/*3f*/{ kOpUnknown, kOpUnknown, kOpAND_AbsIndexXLong, kOpAND_AbsIndexXLong },
/*40*/{ kOpRTI_StackRTI, kOpRTI_StackRTI, kOpRTI_StackRTI, kOpRTI_StackRTI },
/*41*/{ kOpEOR_DPIndexXInd, kOpEOR_DPIndexXInd, kOpEOR_DPIndexXInd, kOpEOR_DPIndexXInd },
/*42*/{ kOpUnknown, kOpUnknown, kOpWDM_Implied, kOpWDM_Implied },
/*43*/{ kOpUnknown, kOpUnknown, kOpEOR_StackRel, kOpEOR_StackRel },
/*44*/{ kOpUnknown, kOpUnknown, kOpMVP_BlockMove, kOpMVP_BlockMove },
/*45*/{ kOpEOR_DP, kOpEOR_DP, kOpEOR_DP, kOpEOR_DP },
/*46*/{ kOpLSR_DP, kOpLSR_DP, kOpLSR_DP, kOpLSR_DP },
/*47*/{ kOpUnknown, kOpUnknown, kOpEOR_DPIndLong, kOpEOR_DPIndLong },
/*48*/{ kOpPHA_StackPush, kOpPHA_StackPush, kOpPHA_StackPush, kOpPHA_StackPush },
/*49*/{ kOpEOR_Imm, kOpEOR_Imm, kOpEOR_Imm, kOpEOR_Imm },
/*4a*/{ kOpLSR_Acc, kOpLSR_Acc, kOpLSR_Acc, kOpLSR_Acc },
/*4b*/{ kOpUnknown, kOpUnknown, kOpPHK_StackPush, kOpPHK_StackPush },
/*4c*/{ kOpJMP_Abs, kOpJMP_Abs, kOpJMP_Abs, kOpJMP_Abs },
/*4d*/{ kOpEOR_Abs, kOpEOR_Abs, kOpEOR_Abs, kOpEOR_Abs },
/*4e*/{ kOpLSR_Abs, kOpLSR_Abs, kOpLSR_Abs, kOpLSR_Abs },
/*4f*/{ kOpUnknown, kOpUnknown, kOpEOR_AbsLong, kOpEOR_AbsLong },
/*50*/{ kOpBVC_PCRel, kOpBVC_PCRel, kOpBVC_PCRel, kOpBVC_PCRel },
/*51*/{ kOpEOR_DPIndIndexY, kOpEOR_DPIndIndexY, kOpEOR_DPIndIndexY, kOpEOR_DPIndIndexY },
/*52*/{ kOpUnknown, kOpEOR_DPInd, kOpEOR_DPInd, kOpEOR_DPInd },
/*53*/{ kOpUnknown, kOpUnknown, kOpEOR_StackRelIndexY, kOpEOR_StackRelIndexY },
/*54*/{ kOpUnknown, kOpUnknown, kOpMVN_BlockMove, kOpMVN_BlockMove },
/*55*/{ kOpEOR_DPIndexX, kOpEOR_DPIndexX, kOpEOR_DPIndexX, kOpEOR_DPIndexX },
/*56*/{ kOpLSR_DPIndexX, kOpLSR_DPIndexX, kOpLSR_DPIndexX, kOpLSR_DPIndexX },
/*57*/{ kOpUnknown, kOpUnknown, kOpEOR_DPIndIndexYLong, kOpEOR_DPIndIndexYLong },
/*58*/{ kOpCLI_Implied, kOpCLI_Implied, kOpCLI_Implied, kOpCLI_Implied },
/*59*/{ kOpEOR_AbsIndexY, kOpEOR_AbsIndexY, kOpEOR_AbsIndexY, kOpEOR_AbsIndexY },
/*5a*/{ kOpUnknown, kOpPHY_StackPush, kOpPHY_StackPush, kOpPHY_StackPush },
/*5b*/{ kOpUnknown, kOpUnknown, kOpTCD_Implied, kOpTCD_Implied },
/*5c*/{ kOpUnknown, kOpUnknown, kOpJMP_AbsLong, kOpJMP_AbsLong },
/*5d*/{ kOpEOR_AbsIndexX, kOpEOR_AbsIndexX, kOpEOR_AbsIndexX, kOpEOR_AbsIndexX },
/*5e*/{ kOpLSR_AbsIndexX, kOpLSR_AbsIndexX, kOpLSR_AbsIndexX, kOpLSR_AbsIndexX },
/*5f*/{ kOpUnknown, kOpUnknown, kOpEOR_AbsIndexXLong, kOpEOR_AbsIndexXLong },
/*60*/{ kOpRTS_StackRTS, kOpRTS_StackRTS, kOpRTS_StackRTS, kOpRTS_StackRTS },
/*61*/{ kOpADC_DPIndexXInd, kOpADC_DPIndexXInd, kOpADC_DPIndexXInd, kOpADC_DPIndexXInd },
/*62*/{ kOpUnknown, kOpUnknown, kOpPER_StackPCRel, kOpPER_StackPCRel },
/*63*/{ kOpUnknown, kOpUnknown, kOpADC_StackRel, kOpADC_StackRel },
/*64*/{ kOpUnknown, kOpSTZ_DP, kOpSTZ_DP, kOpSTZ_DP },
/*65*/{ kOpADC_DP, kOpADC_DP, kOpADC_DP, kOpADC_DP },
/*66*/{ kOpROR_DP, kOpROR_DP, kOpROR_DP, kOpROR_DP },
/*67*/{ kOpUnknown, kOpUnknown, kOpADC_DPIndLong, kOpADC_DPIndLong },
/*68*/{ kOpPLA_StackPull, kOpPLA_StackPull, kOpPLA_StackPull, kOpPLA_StackPull },
/*69*/{ kOpADC_Imm, kOpADC_Imm, kOpADC_Imm, kOpADC_Imm },
/*6a*/{ kOpROR_Acc, kOpROR_Acc, kOpROR_Acc, kOpROR_Acc },
/*6b*/{ kOpUnknown, kOpUnknown, kOpRTL_StackRTL, kOpRTL_StackRTL },
/*6c*/{ kOpJMP_AbsInd, kOpJMP_AbsInd, kOpJMP_AbsInd, kOpJMP_AbsInd },
/*6d*/{ kOpADC_Abs, kOpADC_Abs, kOpADC_Abs, kOpADC_Abs },
/*6e*/{ kOpROR_Abs, kOpROR_Abs, kOpROR_Abs, kOpROR_Abs },
/*6f*/{ kOpUnknown, kOpUnknown, kOpADC_AbsLong, kOpADC_AbsLong },
/*70*/{ kOpBVS_PCRel, kOpBVS_PCRel, kOpBVS_PCRel, kOpBVS_PCRel },
/*71*/{ kOpADC_DPIndIndexY, kOpADC_DPIndIndexY, kOpADC_DPIndIndexY, kOpADC_DPIndIndexY },
/*72*/{ kOpUnknown, kOpADC_DPInd, kOpADC_DPInd, kOpADC_DPInd },
/*73*/{ kOpUnknown, kOpUnknown, kOpADC_StackRelIndexY, kOpADC_StackRelIndexY },
/*74*/{ kOpUnknown, kOpSTZ_DPIndexX, kOpSTZ_DPIndexX, kOpSTZ_DPIndexX },
/*75*/{ kOpADC_DPIndexX, kOpADC_DPIndexX, kOpADC_DPIndexX, kOpADC_DPIndexX },
/*76*/{ kOpROR_DPIndexX, kOpROR_DPIndexX, kOpROR_DPIndexX, kOpROR_DPIndexX },
/*77*/{ kOpUnknown, kOpUnknown, kOpADC_DPIndIndexYLong, kOpADC_DPIndIndexYLong },
/*78*/{ kOpSEI_Implied, kOpSEI_Implied, kOpSEI_Implied, kOpSEI_Implied },
/*79*/{ kOpADC_AbsIndexY, kOpADC_AbsIndexY, kOpADC_AbsIndexY, kOpADC_AbsIndexY },
/*7a*/{ kOpUnknown, kOpPLY_StackPull, kOpPLY_StackPull, kOpPLY_StackPull },
/*7b*/{ kOpUnknown, kOpUnknown, kOpTDC_Implied, kOpTDC_Implied },
/*7c*/{ kOpUnknown, kOpJMP_AbsIndexXInd, kOpJMP_AbsIndexXInd, kOpJMP_AbsIndexXInd },
/*7d*/{ kOpADC_AbsIndexX, kOpADC_AbsIndexX, kOpADC_AbsIndexX, kOpADC_AbsIndexX },
/*7e*/{ kOpROR_AbsIndexX, kOpROR_AbsIndexX, kOpROR_AbsIndexX, kOpROR_AbsIndexX },
/*7f*/{ kOpUnknown, kOpUnknown, kOpADC_AbsIndexXLong, kOpADC_AbsIndexXLong },
/*80*/{ kOpUnknown, kOpBRA_PCRel, kOpBRA_PCRel, kOpBRA_PCRel },
/*81*/{ kOpSTA_DPIndexXInd, kOpSTA_DPIndexXInd, kOpSTA_DPIndexXInd, kOpSTA_DPIndexXInd },
/*82*/{ kOpUnknown, kOpUnknown, kOpBRL_PCRelLong, kOpBRL_PCRelLong },
/*83*/{ kOpUnknown, kOpUnknown, kOpSTA_StackRel, kOpSTA_StackRel },
/*84*/{ kOpSTY_DP, kOpSTY_DP, kOpSTY_DP, kOpSTY_DP },
/*85*/{ kOpSTA_DP, kOpSTA_DP, kOpSTA_DP, kOpSTA_DP },
/*86*/{ kOpSTX_DP, kOpSTX_DP, kOpSTX_DP, kOpSTX_DP },
/*87*/{ kOpUnknown, kOpUnknown, kOpSTA_DPIndLong, kOpSTA_DPIndLong },
/*88*/{ kOpDEY_Implied, kOpDEY_Implied, kOpDEY_Implied, kOpDEY_Implied },
/*89*/{ kOpUnknown, kOpBIT_Imm, kOpBIT_Imm, kOpBIT_Imm },
/*8a*/{ kOpTXA_Implied, kOpTXA_Implied, kOpTXA_Implied, kOpTXA_Implied },
/*8b*/{ kOpUnknown, kOpUnknown, kOpPHB_StackPush, kOpPHB_StackPush },
/*8c*/{ kOpSTY_Abs, kOpSTY_Abs, kOpSTY_Abs, kOpSTY_Abs },
/*8d*/{ kOpSTA_Abs, kOpSTA_Abs, kOpSTA_Abs, kOpSTA_Abs },
/*8e*/{ kOpSTX_Abs, kOpSTX_Abs, kOpSTX_Abs, kOpSTX_Abs },
/*8f*/{ kOpUnknown, kOpUnknown, kOpSTA_AbsLong, kOpSTA_AbsLong },
/*90*/{ kOpBCC_PCRel, kOpBCC_PCRel, kOpBCC_PCRel, kOpBCC_PCRel },
/*91*/{ kOpSTA_DPIndIndexY, kOpSTA_DPIndIndexY, kOpSTA_DPIndIndexY, kOpSTA_DPIndIndexY },
/*92*/{ kOpUnknown, kOpSTA_DPInd, kOpSTA_DPInd, kOpSTA_DPInd },
/*93*/{ kOpUnknown, kOpUnknown, kOpSTA_StackRelIndexY, kOpSTA_StackRelIndexY },
/*94*/{ kOpSTY_DPIndexX, kOpSTY_DPIndexX, kOpSTY_DPIndexX, kOpSTY_DPIndexX },
/*95*/{ kOpSTA_DPIndexX, kOpSTA_DPIndexX, kOpSTA_DPIndexX, kOpSTA_DPIndexX },
/*96*/{ kOpSTX_DPIndexY, kOpSTX_DPIndexY, kOpSTX_DPIndexY, kOpSTX_DPIndexY },
/*97*/{ kOpUnknown, kOpUnknown, kOpSTA_DPIndIndexYLong, kOpSTA_DPIndIndexYLong },
/*98*/{ kOpTYA_Implied, kOpTYA_Implied, kOpTYA_Implied, kOpTYA_Implied },
/*99*/{ kOpSTA_AbsIndexY, kOpSTA_AbsIndexY, kOpSTA_AbsIndexY, kOpSTA_AbsIndexY },
/*9a*/{ kOpTXS_Implied, kOpTXS_Implied, kOpTXS_Implied, kOpTXS_Implied },
/*9b*/{ kOpUnknown, kOpUnknown, kOpTXY_Implied, kOpTXY_Implied },
/*9c*/{ kOpUnknown, kOpSTZ_Abs, kOpSTZ_Abs, kOpSTZ_Abs },
/*9d*/{ kOpSTA_AbsIndexX, kOpSTA_AbsIndexX, kOpSTA_AbsIndexX, kOpSTA_AbsIndexX },
/*9e*/{ kOpUnknown, kOpSTZ_AbsIndexX, kOpSTZ_AbsIndexX, kOpSTZ_AbsIndexX },
/*9f*/{ kOpUnknown, kOpUnknown, kOpSTA_AbsIndexXLong, kOpSTA_AbsIndexXLong },
/*a0*/{ kOpLDY_Imm, kOpLDY_Imm, kOpLDY_Imm, kOpLDY_Imm },
/*a1*/{ kOpLDA_DPIndexXInd, kOpLDA_DPIndexXInd, kOpLDA_DPIndexXInd, kOpLDA_DPIndexXInd },
/*a2*/{ kOpLDX_Imm, kOpLDX_Imm, kOpLDX_Imm, kOpLDX_Imm },
/*a3*/{ kOpUnknown, kOpUnknown, kOpLDA_StackRel, kOpLDA_StackRel },
/*a4*/{ kOpLDY_DP, kOpLDY_DP, kOpLDY_DP, kOpLDY_DP },
/*a5*/{ kOpLDA_DP, kOpLDA_DP, kOpLDA_DP, kOpLDA_DP },
/*a6*/{ kOpLDX_DP, kOpLDX_DP, kOpLDX_DP, kOpLDX_DP },
/*a7*/{ kOpUnknown, kOpUnknown, kOpLDA_DPIndLong, kOpLDA_DPIndLong },
/*a8*/{ kOpTAY_Implied, kOpTAY_Implied, kOpTAY_Implied, kOpTAY_Implied },
/*a9*/{ kOpLDA_Imm, kOpLDA_Imm, kOpLDA_Imm, kOpLDA_Imm },
/*aa*/{ kOpTAX_Implied, kOpTAX_Implied, kOpTAX_Implied, kOpTAX_Implied },
/*ab*/{ kOpUnknown, kOpUnknown, kOpPLB_StackPull, kOpPLB_StackPull },
/*ac*/{ kOpLDY_Abs, kOpLDY_Abs, kOpLDY_Abs, kOpLDY_Abs },
/*ad*/{ kOpLDA_Abs, kOpLDA_Abs, kOpLDA_Abs, kOpLDA_Abs },
/*ae*/{ kOpLDX_Abs, kOpLDX_Abs, kOpLDX_Abs, kOpLDX_Abs },
/*af*/{ kOpUnknown, kOpUnknown, kOpLDA_AbsLong, kOpLDA_AbsLong },
/*b0*/{ kOpBCS_PCRel, kOpBCS_PCRel, kOpBCS_PCRel, kOpBCS_PCRel },
/*b1*/{ kOpLDA_DPIndIndexY, kOpLDA_DPIndIndexY, kOpLDA_DPIndIndexY, kOpLDA_DPIndIndexY },
/*b2*/{ kOpUnknown, kOpLDA_DPInd, kOpLDA_DPInd, kOpLDA_DPInd },
/*b3*/{ kOpUnknown, kOpUnknown, kOpLDA_StackRelIndexY, kOpLDA_StackRelIndexY },
/*b4*/{ kOpLDY_DPIndexX, kOpLDY_DPIndexX, kOpLDY_DPIndexX, kOpLDY_DPIndexX },
/*b5*/{ kOpLDA_DPIndexX, kOpLDA_DPIndexX, kOpLDA_DPIndexX, kOpLDA_DPIndexX },
/*b6*/{ kOpLDX_DPIndexY, kOpLDX_DPIndexY, kOpLDX_DPIndexY, kOpLDX_DPIndexY },
/*b7*/{ kOpUnknown, kOpUnknown, kOpLDA_DPIndIndexYLong, kOpLDA_DPIndIndexYLong },
/*b8*/{ kOpCLV_Implied, kOpCLV_Implied, kOpCLV_Implied, kOpCLV_Implied },
/*b9*/{ kOpLDA_AbsIndexY, kOpLDA_AbsIndexY, kOpLDA_AbsIndexY, kOpLDA_AbsIndexY },
/*ba*/{ kOpTSX_Implied, kOpTSX_Implied, kOpTSX_Implied, kOpTSX_Implied },
/*bb*/{ kOpUnknown, kOpUnknown, kOpTYX_Implied, kOpTYX_Implied },
/*bc*/{ kOpLDY_AbsIndexX, kOpLDY_AbsIndexX, kOpLDY_AbsIndexX, kOpLDY_AbsIndexX },
/*bd*/{ kOpLDA_AbsIndexX, kOpLDA_AbsIndexX, kOpLDA_AbsIndexX, kOpLDA_AbsIndexX },
/*be*/{ kOpLDX_AbsIndexY, kOpLDX_AbsIndexY, kOpLDX_AbsIndexY, kOpLDX_AbsIndexY },
/*bf*/{ kOpUnknown, kOpUnknown, kOpLDA_AbsIndexXLong, kOpLDA_AbsIndexXLong },
/*c0*/{ kOpCPY_Imm, kOpCPY_Imm, kOpCPY_Imm, kOpCPY_Imm },
/*c1*/{ kOpCMP_DPIndexXInd, kOpCMP_DPIndexXInd, kOpCMP_DPIndexXInd, kOpCMP_DPIndexXInd },
/*c2*/{ kOpUnknown, kOpUnknown, kOpREP_Imm, kOpREP_Imm },
/*c3*/{ kOpUnknown, kOpUnknown, kOpCMP_StackRel, kOpCMP_StackRel },
/*c4*/{ kOpCPY_DP, kOpCPY_DP, kOpCPY_DP, kOpCPY_DP },
/*c5*/{ kOpCMP_DP, kOpCMP_DP, kOpCMP_DP, kOpCMP_DP },
/*c6*/{ kOpDEC_DP, kOpDEC_DP, kOpDEC_DP, kOpDEC_DP },
/*c7*/{ kOpUnknown, kOpUnknown, kOpCMP_DPIndLong, kOpCMP_DPIndLong },
/*c8*/{ kOpINY_Implied, kOpINY_Implied, kOpINY_Implied, kOpINY_Implied },
/*c9*/{ kOpCMP_Imm, kOpCMP_Imm, kOpCMP_Imm, kOpCMP_Imm },
/*ca*/{ kOpDEX_Implied, kOpDEX_Implied, kOpDEX_Implied, kOpDEX_Implied },
/*cb*/{ kOpUnknown, kOpUnknown, kOpWAI_Implied, kOpWAI_Implied },
/*cc*/{ kOpCPY_Abs, kOpCPY_Abs, kOpCPY_Abs, kOpCPY_Abs },
/*cd*/{ kOpCMP_Abs, kOpCMP_Abs, kOpCMP_Abs, kOpCMP_Abs },
/*ce*/{ kOpDEC_Abs, kOpDEC_Abs, kOpDEC_Abs, kOpDEC_Abs },
/*cf*/{ kOpUnknown, kOpUnknown, kOpCMP_AbsLong, kOpCMP_AbsLong },
/*d0*/{ kOpBNE_PCRel, kOpBNE_PCRel, kOpBNE_PCRel, kOpBNE_PCRel },
/*d1*/{ kOpCMP_DPIndIndexY, kOpCMP_DPIndIndexY, kOpCMP_DPIndIndexY, kOpCMP_DPIndIndexY },
/*d2*/{ kOpUnknown, kOpCMP_DPInd, kOpCMP_DPInd, kOpCMP_DPInd },
/*d3*/{ kOpUnknown, kOpUnknown, kOpCMP_StackRelIndexY, kOpCMP_StackRelIndexY },
/*d4*/{ kOpUnknown, kOpUnknown, kOpPEI_StackDPInd, kOpPEI_StackDPInd },
/*d5*/{ kOpCMP_DPIndexX, kOpCMP_DPIndexX, kOpCMP_DPIndexX, kOpCMP_DPIndexX },
/*d6*/{ kOpDEC_DPIndexX, kOpDEC_DPIndexX, kOpDEC_DPIndexX, kOpDEC_DPIndexX },
/*d7*/{ kOpUnknown, kOpUnknown, kOpCMP_DPIndIndexYLong, kOpCMP_DPIndIndexYLong },
/*d8*/{ kOpCLD_Implied, kOpCLD_Implied, kOpCLD_Implied, kOpCLD_Implied },
/*d9*/{ kOpCMP_AbsIndexY, kOpCMP_AbsIndexY, kOpCMP_AbsIndexY, kOpCMP_AbsIndexY },
/*da*/{ kOpUnknown, kOpPHX_StackPush, kOpPHX_StackPush, kOpPHX_StackPush },
/*db*/{ kOpUnknown, kOpUnknown, kOpSTP_Implied, kOpSTP_Implied },
/*dc*/{ kOpUnknown, kOpUnknown, kOpJML_AbsIndLong, kOpJML_AbsIndLong },
/*dd*/{ kOpCMP_AbsIndexX, kOpCMP_AbsIndexX, kOpCMP_AbsIndexX, kOpCMP_AbsIndexX },
/*de*/{ kOpDEC_AbsIndexX, kOpDEC_AbsIndexX, kOpDEC_AbsIndexX, kOpDEC_AbsIndexX },
/*df*/{ kOpUnknown, kOpUnknown, kOpCMP_AbsIndexXLong, kOpCMP_AbsIndexXLong },
/*e0*/{ kOpCPX_Imm, kOpCPX_Imm, kOpCPX_Imm, kOpCPX_Imm },
/*e1*/{ kOpSBC_DPIndexXInd, kOpSBC_DPIndexXInd, kOpSBC_DPIndexXInd, kOpSBC_DPIndexXInd },
/*e2*/{ kOpUnknown, kOpUnknown, kOpSEP_Imm, kOpSEP_Imm },
/*e3*/{ kOpUnknown, kOpUnknown, kOpSBC_StackRel, kOpSBC_StackRel },
/*e4*/{ kOpCPX_DP, kOpCPX_DP, kOpCPX_DP, kOpCPX_DP },
/*e5*/{ kOpSBC_DP, kOpSBC_DP, kOpSBC_DP, kOpSBC_DP },
/*e6*/{ kOpINC_DP, kOpINC_DP, kOpINC_DP, kOpINC_DP },
/*e7*/{ kOpUnknown, kOpUnknown, kOpSBC_DPIndLong, kOpSBC_DPIndLong },
/*e8*/{ kOpINX_Implied, kOpINX_Implied, kOpINX_Implied, kOpINX_Implied },
/*e9*/{ kOpSBC_Imm, kOpSBC_Imm, kOpSBC_Imm, kOpSBC_Imm },
/*ea*/{ kOpNOP_Implied, kOpNOP_Implied, kOpNOP_Implied, kOpNOP_Implied },
/*eb*/{ kOpUnknown, kOpUnknown, kOpXBA_Implied, kOpXBA_Implied },
/*ec*/{ kOpCPX_Abs, kOpCPX_Abs, kOpCPX_Abs, kOpCPX_Abs },
/*ed*/{ kOpSBC_Abs, kOpSBC_Abs, kOpSBC_Abs, kOpSBC_Abs },
/*ee*/{ kOpINC_Abs, kOpINC_Abs, kOpINC_Abs, kOpINC_Abs },
/*ef*/{ kOpUnknown, kOpUnknown, kOpSBC_AbsLong, kOpSBC_AbsLong },
/*f0*/{ kOpBEQ_PCRel, kOpBEQ_PCRel, kOpBEQ_PCRel, kOpBEQ_PCRel },
/*f1*/{ kOpSBC_DPIndIndexY, kOpSBC_DPIndIndexY, kOpSBC_DPIndIndexY, kOpSBC_DPIndIndexY },
/*f2*/{ kOpUnknown, kOpSBC_DPInd, kOpSBC_DPInd, kOpSBC_DPInd },
/*f3*/{ kOpUnknown, kOpUnknown, kOpSBC_StackRelIndexY, kOpSBC_StackRelIndexY },
/*f4*/{ kOpUnknown, kOpUnknown, kOpPEA_StackAbs, kOpPEA_StackAbs },
/*f5*/{ kOpSBC_DPIndexX, kOpSBC_DPIndexX, kOpSBC_DPIndexX, kOpSBC_DPIndexX },
/*f6*/{ kOpINC_DPIndexX, kOpINC_DPIndexX, kOpINC_DPIndexX, kOpINC_DPIndexX },
/*f7*/{ kOpUnknown, kOpUnknown, kOpSBC_DPIndIndexYLong, kOpSBC_DPIndIndexYLong },
/*f8*/{ kOpSED_Implied, kOpSED_Implied, kOpSED_Implied, kOpSED_Implied },
/*f9*/{ kOpSBC_AbsIndexY, kOpSBC_AbsIndexY, kOpSBC_AbsIndexY, kOpSBC_AbsIndexY },
/*fa*/{ kOpUnknown, kOpPLX_StackPull, kOpPLX_StackPull, kOpPLX_StackPull },
/*fb*/{ kOpUnknown, kOpUnknown, kOpXCE_Implied, kOpXCE_Implied },
/*fc*/{ kOpUnknown, kOpUnknown, kOpJSR_AbsIndexXInd, kOpJSR_AbsIndexXInd },
/*fd*/{ kOpSBC_AbsIndexX, kOpSBC_AbsIndexX, kOpSBC_AbsIndexX, kOpSBC_AbsIndexX },
/*fe*/{ kOpINC_AbsIndexX, kOpINC_AbsIndexX, kOpINC_AbsIndexX, kOpINC_AbsIndexX },
/*ff*/{ kOpUnknown, kOpUnknown, kOpSBC_AbsIndexXLong, kOpSBC_AbsIndexXLong },
};
/*
* Validate the contents of kOpMap.
*
* Returns "true" on success, "false" on failure.
*/
bool ReformatDisasm65xxx::ValidateOpMap(void)
{
if (NELEM(kOpMap) != 256) {
ASSERT(false);
return false;
}
#ifdef _DEBUG
/*
* Verify that all entries on one line have the same opcode and address
* mode. For "hidden" 6502 opcodes this won't hold, so we'll have to
* handle those separately.
*
* This assumes that later processors always include everything that the
* previous CPUs did. This turns out to be the case.
*/
int i, j;
for (i = 0; i < NELEM(kOpMap); i++) {
if ((kOpMap[i].opAndAddr[kCPU6502] != kOpUnknown &&
kOpMap[i].opAndAddr[kCPU6502] != kOpMap[i].opAndAddr[kCPU65C02]) ||
(kOpMap[i].opAndAddr[kCPU65C02] != kOpUnknown &&
kOpMap[i].opAndAddr[kCPU65C02] != kOpMap[i].opAndAddr[kCPU65802]) ||
(kOpMap[i].opAndAddr[kCPU65802] != kOpUnknown &&
kOpMap[i].opAndAddr[kCPU65802] != kOpMap[i].opAndAddr[kCPU65816]))
{
LOGI("OpMap GLITCH: inconsistent values for entry 0x%02x", i);
assert(false);
return false;
}
}
/* O(n^2) duplicate opcode check */
for (i = 0; i < NELEM(kOpMap)-1; i++) {
if (kOpMap[i].opAndAddr[kCPU65816] == kOpUnknown)
continue;
for (j = i+1; j < NELEM(kOpMap); j++) {
if (kOpMap[j].opAndAddr[kCPU65816] == kOpUnknown)
continue;
if (kOpMap[i].opAndAddr[kCPU65816] == kOpMap[j].opAndAddr[kCPU65816])
{
LOGI("OpMap GLITCH: entries 0x%02x and 0x%02x match", i, j);
assert(false);
return false;
}
}
}
#endif /*_DEBUG*/
return true;
}
/*
* OpCode details.
*/
/*static*/ const ReformatDisasm65xxx::OpCodeDetails ReformatDisasm65xxx::kOpCodeDetails[] = {
{ kOpCodeUnknown, "???" },
{ kOpADC, "ADC" },
{ kOpAND, "AND" },
{ kOpASL, "ASL" },
{ kOpBCC, "BCC" },
{ kOpBCS, "BCS" },
{ kOpBEQ, "BEQ" },
{ kOpBIT, "BIT" },
{ kOpBMI, "BMI" },
{ kOpBNE, "BNE" },
{ kOpBPL, "BPL" },
{ kOpBRA, "BRA" },
{ kOpBRK, "BRK" },
{ kOpBRL, "BRL" },
{ kOpBVC, "BVC" },
{ kOpBVS, "BVS" },
{ kOpCLC, "CLC" },
{ kOpCLD, "CLD" },
{ kOpCLI, "CLI" },
{ kOpCLV, "CLV" },
{ kOpCMP, "CMP" },
{ kOpCOP, "COP" },
{ kOpCPX, "CPX" },
{ kOpCPY, "CPY" },
{ kOpDEC, "DEC" },
{ kOpDEX, "DEX" },
{ kOpDEY, "DEY" },
{ kOpEOR, "EOR" },
{ kOpINC, "INC" },
{ kOpINX, "INX" },
{ kOpINY, "INY" },
{ kOpJML, "JML" },
{ kOpJMP, "JMP" },
{ kOpJSL, "JSL" },
{ kOpJSR, "JSR" },
{ kOpLDA, "LDA" },
{ kOpLDX, "LDX" },
{ kOpLDY, "LDY" },
{ kOpLSR, "LSR" },
{ kOpMVN, "MVN" },
{ kOpMVP, "MVP" },
{ kOpNOP, "NOP" },
{ kOpORA, "ORA" },
{ kOpPEA, "PEA" },
{ kOpPEI, "PEI" },
{ kOpPER, "PER" },
{ kOpPHA, "PHA" },
{ kOpPHB, "PHB" },
{ kOpPHD, "PHD" },
{ kOpPHK, "PHK" },
{ kOpPHP, "PHP" },
{ kOpPHX, "PHX" },
{ kOpPHY, "PHY" },
{ kOpPLA, "PLA" },
{ kOpPLB, "PLB" },
{ kOpPLD, "PLD" },
{ kOpPLP, "PLP" },
{ kOpPLX, "PLX" },
{ kOpPLY, "PLY" },
{ kOpREP, "REP" },
{ kOpROL, "ROL" },
{ kOpROR, "ROR" },
{ kOpRTI, "RTI" },
{ kOpRTL, "RTL" },
{ kOpRTS, "RTS" },
{ kOpSBC, "SBC" },
{ kOpSEC, "SEC" },
{ kOpSED, "SED" },
{ kOpSEI, "SEI" },
{ kOpSEP, "SEP" },
{ kOpSTA, "STA" },
{ kOpSTP, "STP" },
{ kOpSTX, "STX" },
{ kOpSTY, "STY" },
{ kOpSTZ, "STZ" },
{ kOpTAX, "TAX" },
{ kOpTAY, "TAY" },
{ kOpTCD, "TCD" },
{ kOpTCS, "TCS" },
{ kOpTDC, "TDC" },
{ kOpTRB, "TRB" },
{ kOpTSB, "TSB" },
{ kOpTSC, "TSC" },
{ kOpTSX, "TSX" },
{ kOpTXA, "TXA" },
{ kOpTXS, "TXS" },
{ kOpTXY, "TXY" },
{ kOpTYA, "TYA" },
{ kOpTYX, "TYX" },
{ kOpWAI, "WAI" },
{ kOpWDM, "WDM" },
{ kOpXBA, "XBA" },
{ kOpXCE, "XCE" },
};
/*
* Validate the contents of kOpCodeDetails.
*
* Returns "true" on success, "false" on failure.
*/
bool ReformatDisasm65xxx::ValidateOpCodeDetails(void)
{
if (NELEM(kOpCodeDetails) != kOpCodeMAX) {
LOGI("Found %d entries in details, max=%d",
NELEM(kOpCodeDetails), kOpCodeMAX);
assert(false);
return false;
}
#ifdef _DEBUG
/* O(n^2) duplicate string check */
for (int i = 0; i < NELEM(kOpCodeDetails)-1; i++) {
for (int j = i+1; j < NELEM(kOpCodeDetails); j++) {
if (stricmp(kOpCodeDetails[i].mnemonic,
kOpCodeDetails[j].mnemonic) == 0)
{
LOGI("OpCodeDetails GLITCH: entries %d and %d match (%hs)",
i, j, kOpCodeDetails[i].mnemonic);
assert(false);
return false;
}
}
}
#endif /*_DEBUG*/
return true;
}