// // Instruction.hpp // Clock Signal // // Created by Thomas Harte on 10/04/2022. // Copyright © 2022 Thomas Harte. All rights reserved. // #ifndef InstructionSets_68k_Instruction_hpp #define InstructionSets_68k_Instruction_hpp #include #include "Model.hpp" namespace InstructionSet { namespace M68k { enum class Operation: uint8_t { Undefined, NOP, ABCD, SBCD, NBCD, ADDb, ADDw, ADDl, ADDAw, ADDAl, ADDXb, ADDXw, ADDXl, SUBb, SUBw, SUBl, SUBAw, SUBAl, SUBXb, SUBXw, SUBXl, MOVEb, MOVEw, MOVEl, MOVEAw, MOVEAl, MOVEq, PEA, MOVEtoSR, MOVEfromSR, MOVEtoCCR, MOVEtoUSP, MOVEfromUSP, ORItoSR, ORItoCCR, ANDItoSR, ANDItoCCR, EORItoSR, EORItoCCR, BTST, BCLR, BCHG, BSET, CMPb, CMPw, CMPl, CMPAw, CMPAl, TSTb, TSTw, TSTl, JMP, JSR, RTS, BRA, Bcc, DBcc, Scc, CLRb, CLRw, CLRl, NEGXb, NEGXw, NEGXl, NEGb, NEGw, NEGl, ASLb, ASLw, ASLl, ASLm, ASRb, ASRw, ASRl, ASRm, LSLb, LSLw, LSLl, LSLm, LSRb, LSRw, LSRl, LSRm, ROLb, ROLw, ROLl, ROLm, RORb, RORw, RORl, RORm, ROXLb, ROXLw, ROXLl, ROXLm, ROXRb, ROXRw, ROXRl, ROXRm, MOVEMl, MOVEMw, MOVEPl, MOVEPw, ANDb, ANDw, ANDl, EORb, EORw, EORl, NOTb, NOTw, NOTl, ORb, ORw, ORl, MULU, MULS, DIVU, DIVS, RTE, RTR, TRAP, TRAPV, CHK, EXG, SWAP, TAS, EXTbtow, EXTwtol, LINKw, UNLINK, STOP, RESET, Max = RESET }; template constexpr bool requires_supervisor(Operation op) { switch(op) { case Operation::ORItoSR: case Operation::ANDItoSR: case Operation::EORItoSR: return true; default: return false; } // TODO: plenty more. } constexpr int size(Operation operation) { // TODO: most of this table, once I've settled on what stays in // the Operation table and what doesn't. switch(operation) { case Operation::ADDb: case Operation::ADDXb: case Operation::SUBb: case Operation::SUBXb: case Operation::ORItoCCR: case Operation::ANDItoCCR: case Operation::EORItoCCR: return 1; case Operation::ORItoSR: case Operation::ANDItoSR: case Operation::EORItoSR: return 2; case Operation::EXG: return 4; default: return 0; } } /// Indicates the addressing mode applicable to an operand. /// /// Implementation notes: /// /// Those entries starting 0b00 or 0b01 are mapped as per the 68000's native encoding; /// those starting 0b00 are those which are indicated directly by a mode field and those starting /// 0b01 are those which are indicated by a register field given a mode of 0b111. The only minor /// exception is AddressRegisterDirect, which exists on a 68000 but isn't specifiable by a /// mode and register, it's contextual based on the instruction. /// /// Those modes starting in 0b10 are the various extended addressing modes introduced as /// of the 68020, which can be detected only after interpreting an extension word. At the /// Preinstruction stage: /// /// * AddressRegisterIndirectWithIndexBaseDisplacement, MemoryIndirectPostindexed /// and MemoryIndirectPreindexed will have been partially decoded as /// AddressRegisterIndirectWithIndex8bitDisplacement; and /// * ProgramCounterIndirectWithIndexBaseDisplacement, /// ProgramCounterMemoryIndirectPostindexed and /// ProgramCounterMemoryIndirectPreindexed will have been partially decoded /// as ProgramCounterIndirectWithIndex8bitDisplacement. enum class AddressingMode: uint8_t { /// No adddressing mode; this operand doesn't exist. None = 0b11'111, /// Dn DataRegisterDirect = 0b00'000, /// An AddressRegisterDirect = 0b00'001, /// (An) AddressRegisterIndirect = 0b00'010, /// (An)+ AddressRegisterIndirectWithPostincrement = 0b00'011, /// -(An) AddressRegisterIndirectWithPredecrement = 0b00'100, /// (d16, An) AddressRegisterIndirectWithDisplacement = 0b00'101, /// (d8, An, Xn) AddressRegisterIndirectWithIndex8bitDisplacement = 0b00'110, /// (bd, An, Xn) AddressRegisterIndirectWithIndexBaseDisplacement = 0b10'000, /// ([bd, An, Xn], od) MemoryIndirectPostindexed = 0b10'001, /// ([bd, An], Xn, od) MemoryIndirectPreindexed = 0b10'010, /// (d16, PC) ProgramCounterIndirectWithDisplacement = 0b01'010, /// (d8, PC, Xn) ProgramCounterIndirectWithIndex8bitDisplacement = 0b01'011, /// (bd, PC, Xn) ProgramCounterIndirectWithIndexBaseDisplacement = 0b10'011, /// ([bd, PC, Xn], od) ProgramCounterMemoryIndirectPostindexed = 0b10'100, /// ([bc, PC], Xn, od) ProgramCounterMemoryIndirectPreindexed = 0b10'101, /// (xxx).W AbsoluteShort = 0b01'000, /// (xxx).L AbsoluteLong = 0b01'001, /// # ImmediateData = 0b01'100, /// .q; value is provided as the corresponding 'reg'. Quick = 0b11'110, }; /*! A preinstruction is as much of an instruction as can be decoded with only the first instruction word — i.e. an operation, and: * on the 68000 and 68010, the complete addressing modes; * on subsequent, a decent proportion of the addressing mode. See the notes on @c AddressingMode for potential aliasing. */ class Preinstruction { public: Operation operation = Operation::Undefined; // Instructions come with 0, 1 or 2 operands; // the getters below act to provide a list of operands // that is terminated by an AddressingMode::None. // // For two-operand instructions, argument 0 is a source // and argument 1 is a destination. // // For one-operand instructions, only argument 0 will // be provided, and will be a source and/or destination as // per the semantics of the operation. template AddressingMode mode() { if constexpr (index > 1) { return AddressingMode::None; } return AddressingMode(operands_[index] & 0x1f); } template int reg() { if constexpr (index > 1) { return 0; } return operands_[index] >> 5; } private: uint8_t operands_[2] = { uint8_t(AddressingMode::None), uint8_t(AddressingMode::None)}; public: Preinstruction( Operation operation, AddressingMode op1_mode, int op1_reg, AddressingMode op2_mode, int op2_reg, [[maybe_unused]] bool is_supervisor = false) : operation(operation) { operands_[0] = uint8_t(op1_mode) | uint8_t(op1_reg << 5); operands_[1] = uint8_t(op2_mode) | uint8_t(op2_reg << 5); } Preinstruction(Operation operation, [[maybe_unused]] bool is_supervisor = false) : operation(operation) {} Preinstruction(Operation operation, AddressingMode op1_mode, int op1_reg, [[maybe_unused]] bool is_supervisor = false) : operation(operation) { operands_[0] = uint8_t(op1_mode) | uint8_t(op1_reg << 5); } // TODO: record is_supervisor. Preinstruction() {} }; } } #endif /* InstructionSets_68k_Instruction_hpp */