// // Decoder.cpp // Clock Signal // // Created by Thomas Harte on 10/04/2022. // Copyright © 2022 Thomas Harte. All rights reserved. // #include "Decoder.hpp" #include using namespace InstructionSet::M68k; namespace { constexpr AddressingMode extended_modes[] = { AddressingMode::AbsoluteShort, // 1'000 AddressingMode::AbsoluteLong, // 1'001 AddressingMode::ProgramCounterIndirectWithDisplacement, // 1'010 AddressingMode::ProgramCounterIndirectWithIndex8bitDisplacement, // 1'011 AddressingMode::ImmediateData, // 1'100 AddressingMode::None, // [1'101] AddressingMode::None, // [1'110] AddressingMode::None, // [1'111] }; /// @returns The @c AddressingMode given the specified mode and reg, subject to potential /// aliasing on the '020+ as described above the @c AddressingMode enum. constexpr AddressingMode combined_mode(const int mode, const int reg) { assert(mode >= 0 && mode < 8); assert(reg >= 0 && reg < 8); // Look up mode, mapping invalid combinations to ::None, branchlessly. const int use_reg = ((mode + 1) >> 3) & 1; const AddressingMode modes[] = { AddressingMode(mode), extended_modes[reg] }; return modes[use_reg]; } template struct Mask { static constexpr uint32_t value = uint32_t(1 << int(F)); }; static constexpr uint32_t NoOperand = Mask::value; template struct TwoOperandMask { static constexpr uint32_t value = ((first << 16) & 0xffff0000) | (second & 0x0000ffff); }; template struct OneOperandMask { static constexpr uint32_t value = TwoOperandMask::value; }; struct NoOperandMask { static constexpr uint32_t value = OneOperandMask::value; }; uint32_t operand_mask(const AddressingMode mode1, const AddressingMode mode2) { return uint32_t((0x1'0000 << int(mode1)) | (0x0'0001 << int(mode2))); } } // MARK: - Instruction decoders. /// Maps from an ExtendedOperation to an Operation; in practice that means that anything /// that already is an Operation is passed through, and other things are mapped down into /// an operation that doesn't duplicate detail about the operands that can be held by a /// Preinstruction in other ways — for example, ANDI and AND are both represented by /// a Preinstruction with an operation of AND, the former just happens to specify an /// immediate operand. template constexpr Operation Predecoder::operation(const OpT op) { if(op <= OpMax) { return Operation(op); } switch(op) { case MOVEPtoRl: case MOVEPtoMl: return Operation::MOVEPl; case MOVEPtoRw: case MOVEPtoMw: return Operation::MOVEPw; case ADDQb: return Operation::ADDb; case ADDQw: return Operation::ADDw; case ADDQl: return Operation::ADDl; case ADDQAw: return Operation::ADDAw; case ADDQAl: return Operation::ADDAl; case SUBQb: return Operation::SUBb; case SUBQw: return Operation::SUBw; case SUBQl: return Operation::SUBl; case SUBQAw: return Operation::SUBAw; case SUBQAl: return Operation::SUBAl; case BTSTI: return Operation::BTST; case BCHGI: return Operation::BCHG; case BCLRI: return Operation::BCLR; case BSETI: return Operation::BSET; case CMPMb: return Operation::CMPb; case CMPMw: return Operation::CMPw; case CMPMl: return Operation::CMPl; #define ImmediateGroup(x) \ case x##Ib: return Operation::x##b; \ case x##Iw: return Operation::x##w; \ case x##Il: return Operation::x##l; ImmediateGroup(ADD) ImmediateGroup(SUB); ImmediateGroup(OR); ImmediateGroup(AND); ImmediateGroup(EOR); ImmediateGroup(CMP); #undef ImmediateGroup case ADDtoRb: case ADDtoMb: return Operation::ADDb; case ADDtoRw: case ADDtoMw: return Operation::ADDw; case ADDtoRl: case ADDtoMl: return Operation::ADDl; case SUBtoRb: case SUBtoMb: return Operation::SUBb; case SUBtoRw: case SUBtoMw: return Operation::SUBw; case SUBtoRl: case SUBtoMl: return Operation::SUBl; case ANDtoRb: case ANDtoMb: return Operation::ANDb; case ANDtoRw: case ANDtoMw: return Operation::ANDw; case ANDtoRl: case ANDtoMl: return Operation::ANDl; case ORtoRb: case ORtoMb: return Operation::ORb; case ORtoRw: case ORtoMw: return Operation::ORw; case ORtoRl: case ORtoMl: return Operation::ORl; case EXGRtoR: case EXGAtoA: case EXGRtoA: return Operation::EXG; case MOVEQ: return Operation::MOVEl; default: break; } return Operation::Undefined; } template template ::OpT op> constexpr uint32_t Predecoder::invalid_operands() { constexpr auto Dn = Mask< AddressingMode::DataRegisterDirect >::value; constexpr auto An = Mask< AddressingMode::AddressRegisterDirect >::value; constexpr auto Ind = Mask< AddressingMode::AddressRegisterIndirect >::value; constexpr auto PostInc = Mask< AddressingMode::AddressRegisterIndirectWithPostincrement >::value; constexpr auto PreDec = Mask< AddressingMode::AddressRegisterIndirectWithPredecrement >::value; constexpr auto d16An = Mask< AddressingMode::AddressRegisterIndirectWithDisplacement >::value; constexpr auto d8AnXn = Mask< AddressingMode::AddressRegisterIndirectWithIndex8bitDisplacement >::value; constexpr auto XXXw = Mask< AddressingMode::AbsoluteShort >::value; constexpr auto XXXl = Mask< AddressingMode::AbsoluteLong >::value; constexpr auto d16PC = Mask< AddressingMode::ProgramCounterIndirectWithDisplacement >::value; constexpr auto d8PCXn = Mask< AddressingMode::ProgramCounterIndirectWithIndex8bitDisplacement >::value; constexpr auto Imm = Mask< AddressingMode::ImmediateData >::value; constexpr auto Quick = Mask< AddressingMode::Quick >::value; constexpr auto Ext = Mask< AddressingMode::ExtensionWord >::value; // A few recurring combinations; terminology is directly from // the Programmers' Reference Manual. // // All modes: the complete set (other than Quick). // constexpr auto AllModes = Dn | An | Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl | Imm | d16PC | d8PCXn; constexpr auto AllModesNoAn = AllModes & ~An; // // Alterable addressing modes (with and without AddressRegisterDirect). // constexpr auto AlterableAddressingModes = Dn | An | Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl; constexpr auto AlterableAddressingModesNoAn = AlterableAddressingModes & ~An; // // Control [flow] addressing modes. // constexpr auto ControlAddressingModes = Ind | d16An | d8AnXn | XXXw | XXXl | d16PC | d8PCXn; // // An invalid response, used as the default case. // constexpr auto InvalidOperands = uint32_t(~0); switch(op) { default: break; case OpT(Operation::ABCD): case OpT(Operation::ADDXb): case OpT(Operation::ADDXw): case OpT(Operation::ADDXl): case OpT(Operation::SBCD): case OpT(Operation::SUBXb): case OpT(Operation::SUBXw): case OpT(Operation::SUBXl): return ~TwoOperandMask< Dn | PreDec, Dn | PreDec >::value; case ADDtoRb: case ANDtoRb: case ANDtoRw: case ANDtoRl: case OpT(Operation::CHKw): case OpT(Operation::CMPb): case OpT(Operation::DIVUw): case OpT(Operation::DIVSw): case ORtoRb: case ORtoRw: case ORtoRl: case OpT(Operation::MULUw): case OpT(Operation::MULSw): case SUBtoRb: return ~TwoOperandMask< AllModesNoAn, Dn >::value; case ADDtoRw: case ADDtoRl: case OpT(Operation::CMPw): case OpT(Operation::CMPl): case SUBtoRw: case SUBtoRl: return ~TwoOperandMask< AllModes, Dn >::value; case ADDtoMb: case ADDtoMw: case ADDtoMl: case ANDtoMb: case ANDtoMw: case ANDtoMl: case ORtoMb: case ORtoMw: case ORtoMl: case SUBtoMb: case SUBtoMw: case SUBtoMl: return ~TwoOperandMask< Dn, Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; case OpT(Operation::ADDAw): case OpT(Operation::ADDAl): case OpT(Operation::CMPAw): case OpT(Operation::CMPAl): case OpT(Operation::SUBAw): case OpT(Operation::SUBAl): case OpT(Operation::MOVEAw): case OpT(Operation::MOVEAl): return ~TwoOperandMask< AllModes, An >::value; case ADDIb: case ADDIl: case ADDIw: case ANDIb: case ANDIl: case ANDIw: case BCHGI: case BCLRI: case BSETI: case EORIb: case EORIw: case EORIl: case ORIb: case ORIw: case ORIl: case SUBIb: case SUBIl: case SUBIw: return ~TwoOperandMask< Imm, AlterableAddressingModesNoAn >::value; case ADDQb: case SUBQb: return ~TwoOperandMask< Quick, AlterableAddressingModesNoAn >::value; case MOVEQ: return ~TwoOperandMask< Quick, Dn >::value; case ADDQw: case ADDQl: case SUBQw: case SUBQl: return ~TwoOperandMask< Quick, AlterableAddressingModesNoAn >::value; case ADDQAw: case ADDQAl: case SUBQAw: case SUBQAl: return ~TwoOperandMask< Quick, An >::value; case OpT(Operation::MOVEb): return ~TwoOperandMask< AllModesNoAn, AlterableAddressingModesNoAn >::value; case OpT(Operation::MOVEw): case OpT(Operation::MOVEl): return ~TwoOperandMask< AllModes, AlterableAddressingModesNoAn >::value; case OpT(Operation::ANDItoCCR): case OpT(Operation::ANDItoSR): case OpT(Operation::Bccw): case OpT(Operation::BSRw): case OpT(Operation::EORItoCCR): case OpT(Operation::EORItoSR): case OpT(Operation::ORItoCCR): case OpT(Operation::ORItoSR): case OpT(Operation::STOP): return ~OneOperandMask< Imm >::value; case OpT(Operation::ASLb): case OpT(Operation::ASLw): case OpT(Operation::ASLl): case OpT(Operation::ASRb): case OpT(Operation::ASRw): case OpT(Operation::ASRl): case OpT(Operation::LSLb): case OpT(Operation::LSLw): case OpT(Operation::LSLl): case OpT(Operation::LSRb): case OpT(Operation::LSRw): case OpT(Operation::LSRl): case OpT(Operation::ROLb): case OpT(Operation::ROLw): case OpT(Operation::ROLl): case OpT(Operation::RORb): case OpT(Operation::RORw): case OpT(Operation::RORl): case OpT(Operation::ROXLb): case OpT(Operation::ROXLw): case OpT(Operation::ROXLl): case OpT(Operation::ROXRb): case OpT(Operation::ROXRw): case OpT(Operation::ROXRl): return ~TwoOperandMask< Quick | Dn, Dn >::value; case OpT(Operation::ASLm): case OpT(Operation::ASRm): case OpT(Operation::LSLm): case OpT(Operation::LSRm): case OpT(Operation::ROLm): case OpT(Operation::RORm): case OpT(Operation::ROXLm): case OpT(Operation::ROXRm): return ~OneOperandMask< Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; case OpT(Operation::Bccb): case OpT(Operation::BSRb): case OpT(Operation::TRAP): return ~OneOperandMask< Quick >::value; case OpT(Operation::BCHG): case OpT(Operation::BCLR): case OpT(Operation::BSET): case OpT(Operation::EORb): case OpT(Operation::EORw): case OpT(Operation::EORl): return ~TwoOperandMask< Dn, AlterableAddressingModesNoAn >::value; case OpT(Operation::BTST): return ~TwoOperandMask< Dn, AllModesNoAn >::value; case CMPIb: case CMPIl: case CMPIw: if constexpr (model == Model::M68000) { return ~TwoOperandMask< Imm, Dn | Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; } [[fallthrough]]; case BTSTI: return ~TwoOperandMask< Imm, Dn | Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl | d16PC | d8PCXn >::value; case OpT(Operation::CLRb): case OpT(Operation::CLRw): case OpT(Operation::CLRl): case OpT(Operation::NBCD): case OpT(Operation::MOVEfromSR): case OpT(Operation::NEGXb): case OpT(Operation::NEGXw): case OpT(Operation::NEGXl): case OpT(Operation::NEGb): case OpT(Operation::NEGw): case OpT(Operation::NEGl): case OpT(Operation::NOTb): case OpT(Operation::NOTw): case OpT(Operation::NOTl): case OpT(Operation::Scc): case OpT(Operation::TAS): return ~OneOperandMask< AlterableAddressingModesNoAn >::value; case OpT(Operation::TSTb): if constexpr (model < Model::M68020) { return ~OneOperandMask< AlterableAddressingModesNoAn >::value; } [[fallthrough]]; case OpT(Operation::MOVEtoCCR): case OpT(Operation::MOVEtoSR): return ~OneOperandMask< AllModesNoAn >::value; case OpT(Operation::TSTw): case OpT(Operation::TSTl): if constexpr (model < Model::M68020) { return ~OneOperandMask< AlterableAddressingModesNoAn >::value; } else { return ~OneOperandMask< AllModes >::value; } case CMPMb: case CMPMw: case CMPMl: return ~TwoOperandMask< PostInc, PostInc >::value; case OpT(Operation::DBcc): return ~TwoOperandMask< Dn, Imm >::value; case EXGRtoR: return ~TwoOperandMask< Dn, Dn >::value; case EXGAtoA: return ~TwoOperandMask< An, An >::value; case EXGRtoA: return ~TwoOperandMask< Dn, An >::value; case OpT(Operation::EXTbtow): case OpT(Operation::EXTwtol): case OpT(Operation::SWAP): return ~OneOperandMask< Dn >::value; case OpT(Operation::JMP): case OpT(Operation::JSR): case OpT(Operation::PEA): return ~OneOperandMask< ControlAddressingModes >::value; case OpT(Operation::LEA): return ~TwoOperandMask< ControlAddressingModes, An >::value; case OpT(Operation::LINKw): return ~TwoOperandMask< An, Imm >::value; case OpT(Operation::NOP): case OpT(Operation::RTE): case OpT(Operation::RTS): case OpT(Operation::TRAPV): case OpT(Operation::RTR): case OpT(Operation::RESET): return ~NoOperandMask::value; case OpT(Operation::UNLINK): case OpT(Operation::MOVEtoUSP): case OpT(Operation::MOVEfromUSP): return ~OneOperandMask< An >::value; case OpT(Operation::MOVEMtoMw): case OpT(Operation::MOVEMtoMl): return ~TwoOperandMask< Ext, Ind | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; case OpT(Operation::MOVEMtoRw): case OpT(Operation::MOVEMtoRl): return ~TwoOperandMask< Ext, Ind | PostInc | d16An | d8AnXn | XXXw | XXXl | d16PC | d8PCXn >::value; case MOVEPtoRl: case MOVEPtoRw: return ~TwoOperandMask< d16An, Dn >::value; case MOVEPtoMl: case MOVEPtoMw: return ~TwoOperandMask< Dn, d16An >::value; } // // 68010 additions. // if constexpr (model < Model::M68010) { return InvalidOperands; } switch(op) { default: break; case OpT(Operation::BKPT): return ~OneOperandMask< Quick >::value; case OpT(Operation::RTD): return ~OneOperandMask< Imm >::value; case OpT(Operation::MOVEfromCCR): return ~OneOperandMask< AlterableAddressingModesNoAn >::value; case OpT(Operation::MOVEfromC): case OpT(Operation::MOVEtoC): return ~OneOperandMask< Ext >::value; case OpT(Operation::MOVESb): case OpT(Operation::MOVESw): case OpT(Operation::MOVESl): return ~TwoOperandMask< Ext, Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; } // // 68020 additions. // if constexpr (model < Model::M68020) { return InvalidOperands; } switch(op) { default: break; case OpT(Operation::TRAPcc): return ~TwoOperandMask< Ext | NoOperand, Ext | NoOperand >::value; case OpT(Operation::Bccl): case OpT(Operation::BSRl): return ~OneOperandMask< Imm >::value; case OpT(Operation::RTM): return ~OneOperandMask< An | Dn >::value; case OpT(Operation::CALLM): return ~OneOperandMask< ControlAddressingModes >::value; case OpT(Operation::BFCHG): case OpT(Operation::BFCLR): case OpT(Operation::BFSET): case OpT(Operation::BFINS): return ~TwoOperandMask< Ext, Dn | Ind | d16An | d8AnXn | XXXw | XXXl >::value; case OpT(Operation::BFTST): case OpT(Operation::BFFFO): case OpT(Operation::BFEXTU): case OpT(Operation::BFEXTS): return ~TwoOperandMask< Ext, Dn | Ind | d16An | d8AnXn | XXXw | XXXl | d16PC | d8PCXn >::value; case OpT(Operation::PACK): case OpT(Operation::UNPK): return ~TwoOperandMask< Dn | PreDec, Dn | PreDec >::value; case OpT(Operation::CASb): case OpT(Operation::CASw): case OpT(Operation::CASl): return ~TwoOperandMask< Ext, Ind | PostInc | PreDec | d16An | d8AnXn | XXXw | XXXl >::value; case OpT(Operation::CAS2w): case OpT(Operation::CAS2l): return ~TwoOperandMask< Ext, Ext >::value; case OpT(Operation::CHKorCMP2b): case OpT(Operation::CHKorCMP2w): case OpT(Operation::CHKorCMP2l): return ~TwoOperandMask< Ext, ControlAddressingModes >::value; case OpT(Operation::LINKl): return ~TwoOperandMask< An, Imm >::value; case OpT(Operation::CHKl): return ~TwoOperandMask< AllModesNoAn, Dn >::value; case OpT(Operation::EXTbtol): return ~OneOperandMask< Dn >::value; case OpT(Operation::DIVSorDIVUl): case OpT(Operation::MULSorMULUl): return ~TwoOperandMask< Ext, AllModesNoAn >::value; } return InvalidOperands; } /// Provides a post-decoding validation step — primarily ensures that the prima facie addressing modes are supported by the operation. template template ::OpT op, bool validate> constexpr Preinstruction Predecoder::validated( const AddressingMode op1_mode, const int op1_reg, const AddressingMode op2_mode, const int op2_reg, const Condition condition, const int additional_extension_words ) { constexpr auto operation = Predecoder::operation(op); if constexpr (!validate) { return Preinstruction( operation, op1_mode, op1_reg, op2_mode, op2_reg, requires_supervisor(operation), additional_extension_words, operand_size(operation), condition); } const auto invalid = invalid_operands(); const auto observed = operand_mask(op1_mode, op2_mode); return (observed & invalid) ? Preinstruction() : Preinstruction( operation, op1_mode, op1_reg, op2_mode, op2_reg, requires_supervisor(operation), additional_extension_words, operand_size(operation), condition); } /// Decodes the fields within an instruction and constructs a `Preinstruction`, given that the operation has already been /// decoded. Optionally applies validation template template ::OpT op, bool validate> constexpr Preinstruction Predecoder::decode( const uint16_t instruction ) { // Fields used pervasively below. // // Underlying assumption: the compiler will discard whatever of these // isn't actually used. const auto ea_register = instruction & 7; const auto ea_mode = (instruction >> 3) & 7; const auto opmode = (instruction >> 6) & 7; const auto data_register = (instruction >> 9) & 7; // // Operations common to all processors. // switch(op) { default: break; // // MARK: ABCD, SBCD, ADDX. // // b9–b11: Rx (destination) // b0–b2: Ry (source) // b3: 1 => operation is memory-to-memory; 0 => register-to-register. // case OpT(Operation::ABCD): case OpT(Operation::SBCD): case OpT(Operation::ADDXb): case OpT(Operation::ADDXw): case OpT(Operation::ADDXl): case OpT(Operation::SUBXb): case OpT(Operation::SUBXw): case OpT(Operation::SUBXl): { const auto addressing_mode = (instruction & 8) ? AddressingMode::AddressRegisterIndirectWithPredecrement : AddressingMode::DataRegisterDirect; return validated( addressing_mode, ea_register, addressing_mode, data_register); } // // MARK: AND, OR, EOR. // // b9–b11: a register; // b0–b2 and b3–b5: an effective address; // b6–b8: an opmode, i.e. source + direction. // case ADDtoRb: case ADDtoRw: case ADDtoRl: case SUBtoRb: case SUBtoRw: case SUBtoRl: case ANDtoRb: case ANDtoRw: case ANDtoRl: case ORtoRb: case ORtoRw: case ORtoRl: case OpT(Operation::CMPb): case OpT(Operation::CMPw): case OpT(Operation::CMPl): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::DataRegisterDirect, data_register); case ADDtoMb: case ADDtoMw: case ADDtoMl: case SUBtoMb: case SUBtoMw: case SUBtoMl: case ANDtoMb: case ANDtoMw: case ANDtoMl: case ORtoMb: case ORtoMw: case ORtoMl: case OpT(Operation::EORb): case OpT(Operation::EORw): case OpT(Operation::EORl): return validated( AddressingMode::DataRegisterDirect, data_register, combined_mode(ea_mode, ea_register), ea_register); case OpT(Operation::ADDAw): case OpT(Operation::ADDAl): case OpT(Operation::SUBAw): case OpT(Operation::SUBAl): case OpT(Operation::CMPAw): case OpT(Operation::CMPAl): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::AddressRegisterDirect, data_register); // // MARK: EORI, ORI, ANDI, SUBI, ADDI, CMPI, B[TST/CHG/CLR/SET]I // // Implicitly: source is an immediate value; // b0–b2 and b3–b5: destination effective address. // case EORIb: case EORIl: case EORIw: case ORIb: case ORIl: case ORIw: case ANDIb: case ANDIl: case ANDIw: case SUBIb: case SUBIl: case SUBIw: case ADDIb: case ADDIl: case ADDIw: case CMPIb: case CMPIl: case CMPIw: case BTSTI: case BCHGI: case BCLRI: case BSETI: return validated( AddressingMode::ImmediateData, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: BTST, BCLR, BCHG, BSET // // b0–b2 and b3–b5: destination effective address; // b9–b11: source data register. // case OpT(Operation::BTST): case OpT(Operation::BCLR): case OpT(Operation::BCHG): case OpT(Operation::BSET): return validated( AddressingMode::DataRegisterDirect, data_register, combined_mode(ea_mode, ea_register), ea_register); // // MARK: STOP, ANDItoCCR, ANDItoSR, EORItoCCR, EORItoSR, ORItoCCR, ORItoSR, BSRw // // Operand is an immedate; destination/source (if any) is implied by the operation, // e.g. ORItoSR has a destination of SR. // case OpT(Operation::STOP): case OpT(Operation::BSRw): case OpT(Operation::ORItoSR): case OpT(Operation::ORItoCCR): case OpT(Operation::ANDItoSR): case OpT(Operation::ANDItoCCR): case OpT(Operation::EORItoSR): case OpT(Operation::EORItoCCR): return validated(AddressingMode::ImmediateData); // // MARK: Bccw // // Operand is an immedate; b8–b11 are a condition code. // case OpT(Operation::Bccw): return validated( AddressingMode::ImmediateData, 0, AddressingMode::None, 0, Condition((instruction >> 8) & 0xf)); // // MARK: CHKw // // Implicitly: destination is a register; // b0–b2 and b3–b5: source effective address. // case OpT(Operation::CHKw): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::DataRegisterDirect, data_register); // // MARK: EXG // // b0–b2: register Ry (data or address, address if exchange is address <-> data); // b9–b11: register Rx (data or address, data if exchange is address <-> data); // b3–b7: an opmode, indicating address/data registers. // case EXGRtoR: return validated( AddressingMode::DataRegisterDirect, data_register, AddressingMode::DataRegisterDirect, ea_register); case EXGAtoA: return validated( AddressingMode::AddressRegisterDirect, data_register, AddressingMode::AddressRegisterDirect, ea_register); case EXGRtoA: return validated( AddressingMode::DataRegisterDirect, data_register, AddressingMode::AddressRegisterDirect, ea_register); // // MARK: MULU, MULS, DIVU, DIVS. // // b9–b11: destination data register; // b0–b2 and b3–b5: source effective address. // case OpT(Operation::DIVUw): case OpT(Operation::DIVSw): case OpT(Operation::MULUw): case OpT(Operation::MULSw): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::DataRegisterDirect, data_register); // // MARK: LEA // // b9–b11: destination address register; // b0–b2 and b3–b5: source effective address. // case OpT(Operation::LEA): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::AddressRegisterDirect, data_register); // // MARK: MOVEPtoRw, MOVEPtoRl // // b0–b2: an address register; // b9–b11: a data register. // [already decoded: b6–b8: an opmode, indicating size and direction] // case OpT(MOVEPtoRw): case OpT(MOVEPtoRl): return validated( AddressingMode::AddressRegisterIndirectWithDisplacement, ea_register, AddressingMode::DataRegisterDirect, data_register); case OpT(MOVEPtoMw): case OpT(MOVEPtoMl): return validated( AddressingMode::DataRegisterDirect, data_register, AddressingMode::AddressRegisterIndirectWithDisplacement, ea_register); // // MARK: MOVE // // b0–b2 and b3–b5: source effective address; // b6–b8 and b9–b11: destination effective address; // [already decoded: b12–b13: size] // case OpT(Operation::MOVEb): case OpT(Operation::MOVEl): case OpT(Operation::MOVEw): case OpT(Operation::MOVEAl): case OpT(Operation::MOVEAw): return validated( combined_mode(ea_mode, ea_register), ea_register, combined_mode(opmode, data_register), data_register); // // MARK: RESET, NOP RTE, RTS, TRAPV, RTR // // No additional fields. // case OpT(Operation::RESET): case OpT(Operation::NOP): case OpT(Operation::RTE): case OpT(Operation::RTS): case OpT(Operation::TRAPV): case OpT(Operation::RTR): return validated(); // // MARK: NEGX, CLR, NEG, MOVEtoCCR, MOVEtoSR, NOT, NBCD, PEA, TST // // b0–b2 and b3–b5: effective address. // case OpT(Operation::CLRb): case OpT(Operation::CLRw): case OpT(Operation::CLRl): case OpT(Operation::JMP): case OpT(Operation::JSR): case OpT(Operation::MOVEtoSR): case OpT(Operation::MOVEfromSR): case OpT(Operation::MOVEtoCCR): case OpT(Operation::NBCD): case OpT(Operation::NEGb): case OpT(Operation::NEGw): case OpT(Operation::NEGl): case OpT(Operation::NEGXb): case OpT(Operation::NEGXw): case OpT(Operation::NEGXl): case OpT(Operation::NOTb): case OpT(Operation::NOTw): case OpT(Operation::NOTl): case OpT(Operation::PEA): case OpT(Operation::TAS): case OpT(Operation::TSTb): case OpT(Operation::TSTw): case OpT(Operation::TSTl): return validated(combined_mode(ea_mode, ea_register), ea_register); // // MARK: Scc // // b0–b2 and b3–b5: effective address; // b8–b11: a condition. // case OpT(Operation::Scc): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::None, 0, Condition((instruction >> 8) & 0xf)); // // MARK: UNLINK, MOVEtoUSP, MOVEfromUSP // // b0–b2: an address register. // case OpT(Operation::UNLINK): case OpT(Operation::MOVEfromUSP): case OpT(Operation::MOVEtoUSP): return validated(AddressingMode::AddressRegisterDirect, ea_register); // // MARK: DBcc // // b0–b2: a data register; // b8–b11: a condition. // Followed by an immediate value. // case OpT(Operation::DBcc): return validated( AddressingMode::DataRegisterDirect, ea_register, AddressingMode::ImmediateData, 0, Condition((instruction >> 8) & 0xf)); // // MARK: SWAP, EXTbtow, EXTwtol // // b0–b2: a data register. // case OpT(Operation::SWAP): case OpT(Operation::EXTbtow): case OpT(Operation::EXTwtol): return validated(AddressingMode::DataRegisterDirect, ea_register); // // MARK: MOVEMtoMw, MOVEMtoMl, MOVEMtoRw, MOVEMtoRl // // b0–b2 and b3–b5: effective address. // [already decoded: b10: direction] // case OpT(Operation::MOVEMtoMl): case OpT(Operation::MOVEMtoMw): case OpT(Operation::MOVEMtoRl): case OpT(Operation::MOVEMtoRw): return validated( AddressingMode::ExtensionWord, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: TRAP, BCCb, BSRb // // No further operands decoded, but one is somewhere in the opcode. // case OpT(Operation::TRAP): case OpT(Operation::BSRb): return validated(AddressingMode::Quick); case OpT(Operation::Bccb): return validated( AddressingMode::Quick, 0, AddressingMode::None, 0, Condition((instruction >> 8) & 0xf)); // // MARK: LINKw // // b0–b2: 'source' address register; // Implicitly: 'destination' is an immediate. // case OpT(Operation::LINKw): return validated( AddressingMode::AddressRegisterDirect, ea_register, AddressingMode::ImmediateData, 0); // // MARK: ADDQ, SUBQ // // b0–b2 and b3–5: a destination effective address; // b9–b11: an immediate value, embedded in the opcode. // case ADDQb: case ADDQw: case ADDQl: case ADDQAw: case ADDQAl: case SUBQb: case SUBQw: case SUBQl: case SUBQAw: case SUBQAl: return validated( AddressingMode::Quick, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: MOVEq // // b9–b11: a destination register; // b0–b7: a 'quick' value. // case MOVEQ: return validated( AddressingMode::Quick, 0, AddressingMode::DataRegisterDirect, data_register); // // MARK: ASR, LSR, ROXR, ROR, ASL, LSL, ROXL, ROL // // b0–b2: a register to shift (the source here, for consistency with the memory operations); // b8: 0 => b9–b11 are a direct count of bits to shift; // 1 => b9–b11 identify register containing the shift count; // b9–b11: either a quick value or a register. // case OpT(Operation::ASRb): case OpT(Operation::ASRw): case OpT(Operation::ASRl): case OpT(Operation::LSRb): case OpT(Operation::LSRw): case OpT(Operation::LSRl): case OpT(Operation::ROXRb): case OpT(Operation::ROXRw): case OpT(Operation::ROXRl): case OpT(Operation::RORb): case OpT(Operation::RORw): case OpT(Operation::RORl): case OpT(Operation::ASLb): case OpT(Operation::ASLw): case OpT(Operation::ASLl): case OpT(Operation::LSLb): case OpT(Operation::LSLw): case OpT(Operation::LSLl): case OpT(Operation::ROXLb): case OpT(Operation::ROXLw): case OpT(Operation::ROXLl): case OpT(Operation::ROLb): case OpT(Operation::ROLw): case OpT(Operation::ROLl): return validated( (instruction & 0x20) ? AddressingMode::DataRegisterDirect : AddressingMode::Quick, data_register, AddressingMode::DataRegisterDirect, ea_register); // // MARK: ASRm, LSRm, ROXRm, RORm, ASLm, LSLm, ROXLm, ROLm // // b0–b2 and b3–5: an effective address. // case OpT(Operation::ASRm): case OpT(Operation::ASLm): case OpT(Operation::LSRm): case OpT(Operation::LSLm): case OpT(Operation::ROXRm): case OpT(Operation::ROXLm): case OpT(Operation::RORm): case OpT(Operation::ROLm): return validated(combined_mode(ea_mode, ea_register), ea_register); case CMPMb: case CMPMw: case CMPMl: return validated( AddressingMode::AddressRegisterIndirectWithPostincrement, ea_register, AddressingMode::AddressRegisterIndirectWithPostincrement, data_register); } // // 68010 additions. // if constexpr (model < Model::M68010) { assert(false); } switch(op) { default: break; // // MARK: BKPT // // No further operands decoded, but one is somewhere in the opcode. // case OpT(Operation::BKPT): return validated(AddressingMode::Quick); // // MARK: RTD // case OpT(Operation::RTD): return validated(AddressingMode::ImmediateData); // // MARK: MOVE from CCR. // case OpT(Operation::MOVEfromCCR): return validated(combined_mode(ea_mode, ea_register), ea_register); // // MARK: MOVE to/from C. // // No further information in the instruction, but an extension word is required. // case OpT(Operation::MOVEfromC): case OpT(Operation::MOVEtoC): return validated(AddressingMode::ExtensionWord); // // MARK: MOVES // // b0–b2 and b3–b5: effective address; // also an extension word is present to dictate a further register and a direction of transfer. // case OpT(Operation::MOVESb): case OpT(Operation::MOVESw): case OpT(Operation::MOVESl): return validated( AddressingMode::ExtensionWord, 0, combined_mode(ea_mode, ea_register), ea_register); } // // 68020 additions. // if constexpr (model < Model::M68020) { assert(false); } switch(op) { default: break; // // MARK: BSRl // // Operand is an immedate. // case OpT(Operation::BSRl): return validated(AddressingMode::ImmediateData); // // MARK: Bccl // // Operand is an immedate; b8–b11 are a condition code. // case OpT(Operation::Bccl): return validated( AddressingMode::ImmediateData, 0, AddressingMode::None, 0, Condition((instruction >> 8) & 0xf)); // // MARK: DIVSl. // // b0–b2 and b3–b5: source effective address. // Plus an immediate word operand // case OpT(Operation::DIVSorDIVUl): case OpT(Operation::MULSorMULUl): return validated( AddressingMode::ExtensionWord, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: BFCHG, BFTST, BFFFO, BFEXTU, BFEXTS, BFCLR, BFSET, BFINS // // b0–b2 and b3–b5: an effective address. // There is also an immedate operand describing an offset and width. // case OpT(Operation::BFCHG): case OpT(Operation::BFTST): case OpT(Operation::BFFFO): case OpT(Operation::BFEXTU): case OpT(Operation::BFEXTS): case OpT(Operation::BFCLR): case OpT(Operation::BFSET): case OpT(Operation::BFINS): return validated( AddressingMode::ExtensionWord, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: CALLM // // b0–b2 and b3–b5: an effective address. // There is also an immedate operand providing argument count. // case OpT(Operation::CALLM): return validated( AddressingMode::ImmediateData, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: RTM // // b0–b2: a register number; // b3: address/data register selection. // case OpT(Operation::RTM): { const auto addressing_mode = (instruction & 8) ? AddressingMode::AddressRegisterDirect : AddressingMode::DataRegisterDirect; return validated(addressing_mode, ea_register); } // // MARK: TRAPcc // // Has 0, 1 or 2 following words, neither of which contributes to operation. // case OpT(Operation::TRAPcc): { switch(instruction & 7) { default: return Preinstruction(); // No extension. case 4: return validated(); // Word-sized extension. case 2: return validated(AddressingMode::ExtensionWord); // DWord-sized extension (which is encoded as two extension operands). case 3: return validated( AddressingMode::ExtensionWord, 0, AddressingMode::ExtensionWord, 0); } } // // MARK: PACK, UNPK // // b9–b11: Rx (destination) // b0–b2: Ry (source) // b3: 1 => operation is memory-to-memory; 0 => register-to-register. // This instruction is also followed by a 16-bit adjustment extension. // case OpT(Operation::PACK): case OpT(Operation::UNPK): { const auto addressing_mode = (instruction & 8) ? AddressingMode::AddressRegisterIndirectWithPredecrement : AddressingMode::DataRegisterDirect; return validated( addressing_mode, ea_register, addressing_mode, data_register, Condition::True, 1); } // // MARK: CAS // // b0–b2 and b3–b5: an effective address. // There is also an immedate operand describing relevant registers. // case OpT(Operation::CASb): case OpT(Operation::CASw): case OpT(Operation::CASl): case OpT(Operation::CHKorCMP2b): case OpT(Operation::CHKorCMP2w): case OpT(Operation::CHKorCMP2l): return validated( AddressingMode::ExtensionWord, 0, combined_mode(ea_mode, ea_register), ea_register); // // MARK: CAS2 // // b0–b2 and b3–b5: an effective address. // There is also an immedate operand describing relevant registers. // case OpT(Operation::CAS2w): case OpT(Operation::CAS2l): return validated( AddressingMode::ExtensionWord, 0, AddressingMode::ExtensionWord, 0); // // MARK: LINKl // // b0–b2: 'source' address register; // Implicitly: 'destination' is an immediate. // case OpT(Operation::LINKl): return validated( AddressingMode::AddressRegisterDirect, ea_register, AddressingMode::ImmediateData, 0); // // MARK: CHKl // // Implicitly: destination is a register; // b0–b2 and b3–b5: source effective address. // case OpT(Operation::CHKl): return validated( combined_mode(ea_mode, ea_register), ea_register, AddressingMode::DataRegisterDirect, data_register); // // MARK: EXTbtol // // b0–b2: a data register. // case OpT(Operation::EXTbtol): return validated(AddressingMode::DataRegisterDirect, ea_register); // // MARK: DIVl // // // TODO. } // Should be unreachable. assert(false); return Preinstruction(); // To appease GCC during development. } // MARK: - Page decoders. #define Decode(y) return decode(instruction) #define DecodeReq(x, y) if constexpr (x) Decode(y); break; template constexpr Preinstruction Predecoder::decode0(const uint16_t instruction) { using Op = Operation; switch(instruction & 0xfff) { case 0x03c: Decode(Op::ORItoCCR); // 4-155 (p259) case 0x07c: Decode(Op::ORItoSR); // 6-27 (p481) case 0x23c: Decode(Op::ANDItoCCR); // 4-20 (p124) case 0x27c: Decode(Op::ANDItoSR); // 6-2 (p456) case 0xa3c: Decode(Op::EORItoCCR); // 4-104 (p208) case 0xa7c: Decode(Op::EORItoSR); // 6-10 (p464) // 4-68 (p172) case 0xcfc: DecodeReq(model >= Model::M68020, Op::CAS2w); case 0xefc: DecodeReq(model >= Model::M68020, Op::CAS2l); default: break; } switch(instruction & 0xff0) { case 0x6c0: DecodeReq(model == Model::M68020, Op::RTM); // 4-167 (p271) default: break; } switch(instruction & 0xfc0) { // 4-153 (p257) case 0x000: Decode(ORIb); case 0x040: Decode(ORIw); case 0x080: Decode(ORIl); // 4-18 (p122) case 0x200: Decode(ANDIb); case 0x240: Decode(ANDIw); case 0x280: Decode(ANDIl); // 4-179 (p283) case 0x400: Decode(SUBIb); case 0x440: Decode(SUBIw); case 0x480: Decode(SUBIl); // 4-9 (p113) case 0x600: Decode(ADDIb); case 0x640: Decode(ADDIw); case 0x680: Decode(ADDIl); // 4-63 (p167) case 0x800: Decode(BTSTI); // 4-29 (p133) case 0x840: Decode(BCHGI); // 4-32 (p136) case 0x880: Decode(BCLRI); // 4-58 (p162) case 0x8c0: Decode(BSETI); // 4-102 (p206) case 0xa00: Decode(EORIb); case 0xa40: Decode(EORIw); case 0xa80: Decode(EORIl); // 4-79 (p183) case 0xc00: Decode(CMPIb); case 0xc40: Decode(CMPIw); case 0xc80: Decode(CMPIl); // 4-64 (p168) case 0x6c0: DecodeReq(model == Model::M68020, Op::CALLM); // 4-67 (p171) case 0xac0: DecodeReq(model >= Model::M68020, Op::CASb); case 0xcc0: DecodeReq(model >= Model::M68020, Op::CASw); case 0xec0: DecodeReq(model >= Model::M68020, Op::CASl); // 4-83 (p187) [CMP2] and 4-72 (p176) [CHK2]; // the two are distinguished by a bit in the extension word. case 0x0c0: DecodeReq(model >= Model::M68020, Op::CHKorCMP2b); case 0x2c0: DecodeReq(model >= Model::M68020, Op::CHKorCMP2b); case 0x4c0: DecodeReq(model >= Model::M68020, Op::CHKorCMP2b); // 6-24 (p478) case 0xe00: DecodeReq(model >= Model::M68010, Op::MOVESb); case 0xe40: DecodeReq(model >= Model::M68010, Op::MOVESw); case 0xe80: DecodeReq(model >= Model::M68010, Op::MOVESl); default: break; } switch(instruction & 0x1f8) { // 4-133 (p237) case 0x108: Decode(MOVEPtoRw); case 0x148: Decode(MOVEPtoRl); case 0x188: Decode(MOVEPtoMw); case 0x1c8: Decode(MOVEPtoMl); default: break; } switch(instruction & 0x1c0) { case 0x100: Decode(Op::BTST); // 4-62 (p166) case 0x180: Decode(Op::BCLR); // 4-31 (p135) case 0x140: Decode(Op::BCHG); // 4-28 (p132) case 0x1c0: Decode(Op::BSET); // 4-57 (p161) default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decode1(const uint16_t instruction) { using Op = Operation; // 4-116 (p220) Decode(Op::MOVEb); } template constexpr Preinstruction Predecoder::decode2(const uint16_t instruction) { using Op = Operation; // 4-116 (p220) switch(instruction & 0x1c0) { case 0x040: Decode(Op::MOVEAl); default: Decode(Op::MOVEl); } } template constexpr Preinstruction Predecoder::decode3(const uint16_t instruction) { using Op = Operation; // 4-116 (p220) switch(instruction & 0x1c0) { case 0x040: Decode(Op::MOVEAw); default: Decode(Op::MOVEw); } } template constexpr Preinstruction Predecoder::decode4(const uint16_t instruction) { using Op = Operation; switch(instruction & 0xfff) { case 0xe70: Decode(Op::RESET); // 6-83 (p537) case 0xe71: Decode(Op::NOP); // 4-147 (p251) case 0xe72: Decode(Op::STOP); // 6-85 (p539) case 0xe73: Decode(Op::RTE); // 6-84 (p538) case 0xe74: DecodeReq(model >= Model::M68010, Op::RTD); // 4-166 (p270) case 0xe75: Decode(Op::RTS); // 4-169 (p273) case 0xe76: Decode(Op::TRAPV); // 4-191 (p295) case 0xe77: Decode(Op::RTR); // 4-168 (p272) case 0xe7a: DecodeReq(model >= Model::M68010, Op::MOVEtoC); // 6-22 (p476) case 0xe7b: DecodeReq(model >= Model::M68010, Op::MOVEfromC); // 6-22 (p476) default: break; } switch(instruction & 0xff8) { case 0x840: Decode(Op::SWAP); // 4-185 (p289) case 0x848: DecodeReq(model >= Model::M68010, Op::BKPT); // 4-54 (p158) case 0xe58: Decode(Op::UNLINK); // 4-194 (p298) case 0xe60: Decode(Op::MOVEtoUSP); // 6-21 (p475) case 0xe68: Decode(Op::MOVEfromUSP); // 6-21 (p475) // 4-106 (p210) case 0x880: Decode(Op::EXTbtow); case 0x8c0: Decode(Op::EXTwtol); case 0x9c0: DecodeReq(model >= Model::M68020, Op::EXTbtol); // 4-111 (p215) case 0x808: DecodeReq(model >= Model::M68020, Op::LINKl); case 0xe50: Decode(Op::LINKw); default: break; } switch(instruction & 0xff0) { case 0xe40: Decode(Op::TRAP); // 4-188 (p292) default: break; } switch(instruction & 0xfc0) { // 4-146 (p250) case 0x000: Decode(Op::NEGXb); case 0x040: Decode(Op::NEGXw); case 0x080: Decode(Op::NEGXl); // 6-17 (p471) case 0x0c0: Decode(Op::MOVEfromSR); // 4-73 (p177) case 0x200: Decode(Op::CLRb); case 0x240: Decode(Op::CLRw); case 0x280: Decode(Op::CLRl); // 4-144 (p247) case 0x400: Decode(Op::NEGb); case 0x440: Decode(Op::NEGw); case 0x480: Decode(Op::NEGl); // 4-123 (p227) case 0x4c0: Decode(Op::MOVEtoCCR); // 4-148 (p252) case 0x600: Decode(Op::NOTb); case 0x640: Decode(Op::NOTw); case 0x680: Decode(Op::NOTl); // 4-123 (p227) case 0x6c0: Decode(Op::MOVEtoSR); // 4-142 (p246) case 0x800: Decode(Op::NBCD); // 4-159 (p263) case 0x840: Decode(Op::PEA); // 4-128 (p232) case 0x880: Decode(Op::MOVEMtoMw); case 0x8c0: Decode(Op::MOVEMtoMl); case 0xc80: Decode(Op::MOVEMtoRw); case 0xcc0: Decode(Op::MOVEMtoRl); // 4-192 (p296) case 0xa00: Decode(Op::TSTb); case 0xa40: Decode(Op::TSTw); case 0xa80: Decode(Op::TSTl); // 4-186 (p290) case 0xac0: Decode(Op::TAS); // 4-109 (p213) case 0xe80: Decode(Op::JSR); // 4-108 (p212) case 0xec0: Decode(Op::JMP); // 4-94 (p198) [DIVS.l]; 4-98 (p202) [DIVU.l] case 0xc40: DecodeReq(model >= Model::M68020, Op::DIVSorDIVUl); // 4-137 (p241) [MULS.l]; 4-140 (p244) [MULU.l] case 0xc00: DecodeReq(model >= Model::M68020, Op::MULSorMULUl); // 4-121 (p225) case 0x2c0: DecodeReq(model >= Model::M68010, Op::MOVEfromCCR); default: break; } switch(instruction & 0x1c0) { case 0x1c0: Decode(Op::LEA); // 4-110 (p214) // 4-69 (p173) case 0x180: Decode(Op::CHKw); case 0x100: DecodeReq(model >= Model::M68020, Op::CHKl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decode5(const uint16_t instruction) { using Op = Operation; switch(instruction & 0x1f8) { // 4-11 (p115) case 0x000: case 0x010: case 0x018: case 0x020: case 0x028: case 0x030: case 0x038: Decode(ADDQb); case 0x040: case 0x050: case 0x058: case 0x060: case 0x068: case 0x070: case 0x078: Decode(ADDQw); case 0x080: case 0x090: case 0x098: case 0x0a0: case 0x0a8: case 0x0b0: case 0x0b8: Decode(ADDQl); case 0x048: Decode(ADDQAw); case 0x088: Decode(ADDQAl); // 4-181 (p285) case 0x100: case 0x110: case 0x118: case 0x120: case 0x128: case 0x130: case 0x138: Decode(SUBQb); case 0x140: case 0x150: case 0x158: case 0x160: case 0x168: case 0x170: case 0x178: Decode(SUBQw); case 0x180: case 0x190: case 0x198: case 0x1a0: case 0x1a8: case 0x1b0: case 0x1b8: Decode(SUBQl); case 0x148: Decode(SUBQAw); case 0x188: Decode(SUBQAl); default: break; } switch(instruction & 0x0ff) { // 4-173 (p276) case 0x0f8: case 0x0f9: Decode(Op::Scc); // 4-189 (p294) case 0x0fa: case 0x0fb: case 0x0fc: DecodeReq(model >= Model::M68020, Op::TRAPcc); default: break; } switch(instruction & 0x0f8) { // 4-173 (p276) case 0x0c0: case 0x0d0: case 0x0d8: case 0x0e0: case 0x0e8: case 0x0f0: Decode(Op::Scc); // 4-91 (p195) case 0x0c8: Decode(Op::DBcc); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decode6(const uint16_t instruction) { using Op = Operation; switch(instruction & 0xf00) { // 4-59 (p163) case 0x100: switch(instruction & 0xff) { case 0x00: Decode(Op::BSRw); case 0xff: if constexpr (model >= Model::M68020) { Decode(Op::BSRl); } [[fallthrough]]; default: Decode(Op::BSRb); } // 4-25 (p129) Bcc // 4-55 (p159) BRA (i.e. Bcc with cc = always) default: switch(instruction & 0xff) { case 0x00: Decode(Op::Bccw); case 0xff: if constexpr (model >= Model::M68020) { Decode(Op::Bccl); } [[fallthrough]]; default: Decode(Op::Bccb); } } } template constexpr Preinstruction Predecoder::decode7(const uint16_t instruction) { // 4-134 (p238) if(!(instruction & 0x100)) { Decode(MOVEQ); } else { return Preinstruction(); } } template constexpr Preinstruction Predecoder::decode8(const uint16_t instruction) { using Op = Operation; switch(instruction & 0x1f0) { case 0x100: Decode(Op::SBCD); // 4-171 (p275) case 0x140: DecodeReq(model >= Model::M68020, Op::PACK); // 4-157 (p261) case 0x180: DecodeReq(model >= Model::M68020, Op::UNPK); // 4-196 (p300) default: break; } switch(instruction & 0x1c0) { case 0x0c0: Decode(Op::DIVUw); // 4-97 (p201) case 0x1c0: Decode(Op::DIVSw); // 4-93 (p197) // 4-150 (p254) case 0x000: Decode(ORtoRb); case 0x040: Decode(ORtoRw); case 0x080: Decode(ORtoRl); case 0x100: Decode(ORtoMb); case 0x140: Decode(ORtoMw); case 0x180: Decode(ORtoMl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decode9(const uint16_t instruction) { using Op = Operation; switch(instruction & 0x1f0) { // 4-184 (p288) case 0x100: Decode(Op::SUBXb); case 0x140: Decode(Op::SUBXw); case 0x180: Decode(Op::SUBXl); default: break; } switch(instruction & 0x1c0) { // 4-177 (p281) case 0x0c0: Decode(Op::SUBAw); case 0x1c0: Decode(Op::SUBAl); // 4-174 (p278) case 0x000: Decode(SUBtoRb); case 0x040: Decode(SUBtoRw); case 0x080: Decode(SUBtoRl); case 0x100: Decode(SUBtoMb); case 0x140: Decode(SUBtoMw); case 0x180: Decode(SUBtoMl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeA(const uint16_t) { return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeB(const uint16_t instruction) { using Op = Operation; switch(instruction & 0x1f8) { // 4-81 (p185) case 0x108: Decode(CMPMb); case 0x148: Decode(CMPMw); case 0x188: Decode(CMPMl); default: break; } switch(instruction & 0x1c0) { // 4-75 (p179) case 0x000: Decode(Op::CMPb); case 0x040: Decode(Op::CMPw); case 0x080: Decode(Op::CMPl); // 4-77 (p181) case 0x0c0: Decode(Op::CMPAw); case 0x1c0: Decode(Op::CMPAl); // 4-100 (p204) case 0x100: Decode(Op::EORb); case 0x140: Decode(Op::EORw); case 0x180: Decode(Op::EORl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeC(const uint16_t instruction) { using Op = Operation; // 4-105 (p209) switch(instruction & 0x1f8) { case 0x140: Decode(EXGRtoR); case 0x148: Decode(EXGAtoA); case 0x188: Decode(EXGRtoA); default: break; } switch(instruction & 0x1f0) { case 0x100: Decode(Op::ABCD); // 4-3 (p107) default: break; } switch(instruction & 0x1c0) { case 0x0c0: Decode(Op::MULUw); // 4-139 (p243) case 0x1c0: Decode(Op::MULSw); // 4-136 (p240) // 4-15 (p119) case 0x000: Decode(ANDtoRb); case 0x040: Decode(ANDtoRw); case 0x080: Decode(ANDtoRl); case 0x100: Decode(ANDtoMb); case 0x140: Decode(ANDtoMw); case 0x180: Decode(ANDtoMl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeD(const uint16_t instruction) { using Op = Operation; switch(instruction & 0x1f0) { // 4-14 (p118) case 0x100: Decode(Op::ADDXb); case 0x140: Decode(Op::ADDXw); case 0x180: Decode(Op::ADDXl); default: break; } switch(instruction & 0x1c0) { // 4-7 (p111) case 0x0c0: Decode(Op::ADDAw); case 0x1c0: Decode(Op::ADDAl); // 4-4 (p108) case 0x000: Decode(ADDtoRb); case 0x040: Decode(ADDtoRw); case 0x080: Decode(ADDtoRl); case 0x100: Decode(ADDtoMb); case 0x140: Decode(ADDtoMw); case 0x180: Decode(ADDtoMl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeE(const uint16_t instruction) { using Op = Operation; switch(instruction & 0xfc0) { case 0x0c0: Decode(Op::ASRm); // 4-22 (p126) case 0x1c0: Decode(Op::ASLm); // 4-22 (p126) case 0x2c0: Decode(Op::LSRm); // 4-113 (p217) case 0x3c0: Decode(Op::LSLm); // 4-113 (p217) case 0x4c0: Decode(Op::ROXRm); // 4-163 (p267) case 0x5c0: Decode(Op::ROXLm); // 4-163 (p267) case 0x6c0: Decode(Op::RORm); // 4-160 (p264) case 0x7c0: Decode(Op::ROLm); // 4-160 (p264) case 0x8c0: DecodeReq(model >= Model::M68020, Op::BFTST); // 4-51 (p155) case 0x9c0: DecodeReq(model >= Model::M68020, Op::BFEXTU); // 4-40 (p144) case 0xac0: DecodeReq(model >= Model::M68020, Op::BFCHG); // 4-33 (p137) case 0xbc0: DecodeReq(model >= Model::M68020, Op::BFEXTS); // 4-37 (p141) case 0xcc0: DecodeReq(model >= Model::M68020, Op::BFCLR); // 4-35 (p139) case 0xdc0: DecodeReq(model >= Model::M68020, Op::BFFFO); // 4-43 (p147)* case 0xec0: DecodeReq(model >= Model::M68020, Op::BFSET); // 4-49 (p153) case 0xfc0: DecodeReq(model >= Model::M68020, Op::BFINS); // 4-46 (p150) // * [though the given opcode is wrong; listed same as BFEXTU] default: break; } switch(instruction & 0x1d8) { // 4-22 (p126) case 0x000: Decode(Op::ASRb); case 0x040: Decode(Op::ASRw); case 0x080: Decode(Op::ASRl); // 4-113 (p217) case 0x008: Decode(Op::LSRb); case 0x048: Decode(Op::LSRw); case 0x088: Decode(Op::LSRl); // 4-163 (p267) case 0x010: Decode(Op::ROXRb); case 0x050: Decode(Op::ROXRw); case 0x090: Decode(Op::ROXRl); // 4-160 (p264) case 0x018: Decode(Op::RORb); case 0x058: Decode(Op::RORw); case 0x098: Decode(Op::RORl); // 4-22 (p126) case 0x100: Decode(Op::ASLb); case 0x140: Decode(Op::ASLw); case 0x180: Decode(Op::ASLl); // 4-113 (p217) case 0x108: Decode(Op::LSLb); case 0x148: Decode(Op::LSLw); case 0x188: Decode(Op::LSLl); // 4-163 (p267) case 0x110: Decode(Op::ROXLb); case 0x150: Decode(Op::ROXLw); case 0x190: Decode(Op::ROXLl); // 4-160 (p264) case 0x118: Decode(Op::ROLb); case 0x158: Decode(Op::ROLw); case 0x198: Decode(Op::ROLl); default: break; } return Preinstruction(); } template constexpr Preinstruction Predecoder::decodeF(const uint16_t) { return Preinstruction(); } #undef Decode #undef DecodeRef // MARK: - Main decoder. template Preinstruction Predecoder::decode(const uint16_t instruction) { // Divide first based on line. switch(instruction & 0xf000) { case 0x0000: return decode0(instruction); case 0x1000: return decode1(instruction); case 0x2000: return decode2(instruction); case 0x3000: return decode3(instruction); case 0x4000: return decode4(instruction); case 0x5000: return decode5(instruction); case 0x6000: return decode6(instruction); case 0x7000: return decode7(instruction); case 0x8000: return decode8(instruction); case 0x9000: return decode9(instruction); case 0xa000: return decodeA(instruction); case 0xb000: return decodeB(instruction); case 0xc000: return decodeC(instruction); case 0xd000: return decodeD(instruction); case 0xe000: return decodeE(instruction); case 0xf000: return decodeF(instruction); default: break; } return Preinstruction(); } template class InstructionSet::M68k::Predecoder; template class InstructionSet::M68k::Predecoder; template class InstructionSet::M68k::Predecoder; template class InstructionSet::M68k::Predecoder; template class InstructionSet::M68k::Predecoder;