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CLK/InstructionSets/M50740/Instruction.hpp

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//
// Instruction.hpp
// Clock Signal
//
// Created by Thomas Harte on 15/01/21.
// Copyright © 2021 Thomas Harte. All rights reserved.
//
#ifndef InstructionSets_M50740_Instruction_h
#define InstructionSets_M50740_Instruction_h
#include <cstdint>
#include <iomanip>
#include <string>
#include <sstream>
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#include "../AccessType.hpp"
namespace InstructionSet {
namespace M50740 {
enum class AddressingMode {
Implied, Accumulator, Immediate,
Absolute, AbsoluteX, AbsoluteY,
ZeroPage, ZeroPageX, ZeroPageY,
XIndirect, IndirectY,
Relative,
AbsoluteIndirect, ZeroPageIndirect,
SpecialPage,
ImmediateZeroPage,
AccumulatorRelative, ZeroPageRelative
};
static constexpr auto MaxAddressingMode = int(AddressingMode::ZeroPageRelative);
static constexpr auto MinAddressingMode = int(AddressingMode::Implied);
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constexpr int size(AddressingMode mode) {
// This is coupled to the AddressingMode list above; be careful!
constexpr int sizes[] = {
0, 0, 1,
2, 2, 2,
1, 1, 1,
1, 1,
1,
2, 1,
1,
2,
1, 2
};
static_assert(sizeof(sizes)/sizeof(*sizes) == int(MaxAddressingMode) + 1);
return sizes[int(mode)];
}
enum class Operation: uint8_t {
Invalid,
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// Operations that don't access memory.
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BBC0, BBC1, BBC2, BBC3, BBC4, BBC5, BBC6, BBC7,
BBS0, BBS1, BBS2, BBS3, BBS4, BBS5, BBS6, BBS7,
BCC, BCS,
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BEQ, BMI, BNE, BPL,
BVC, BVS, BRA, BRK,
JMP, JSR,
RTI, RTS,
CLC, CLD, CLI, CLT, CLV,
SEC, SED, SEI, SET,
INX, INY, DEX, DEY,
FST, SLW,
NOP,
PHA, PHP, PLA, PLP,
STP,
TAX, TAY, TSX, TXA,
TXS, TYA,
// Read operations.
ADC, SBC,
AND, ORA, EOR, BIT,
CMP, CPX, CPY,
LDA, LDX, LDY,
TST,
// Read-modify-write operations.
ASL, LSR,
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CLB0, CLB1, CLB2, CLB3, CLB4, CLB5, CLB6, CLB7,
SEB0, SEB1, SEB2, SEB3, SEB4, SEB5, SEB6, SEB7,
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COM,
DEC, INC,
ROL, ROR, RRF,
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// Write operations.
LDM,
STA, STX, STY,
};
static constexpr auto MaxOperation = int(Operation::STY);
static constexpr auto MinOperation = int(Operation::BBC0);
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constexpr AccessType access_type(Operation operation) {
if(operation < Operation::ADC) return AccessType::None;
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if(operation < Operation::ASL) return AccessType::Read;
if(operation < Operation::LDM) return AccessType::ReadModifyWrite;
return AccessType::Write;
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}
constexpr bool uses_index_mode(Operation operation) {
return
operation == Operation::ADC || operation == Operation::AND ||
operation == Operation::CMP || operation == Operation::EOR ||
operation == Operation::LDA || operation == Operation::ORA ||
operation == Operation::SBC;
}
/*!
@returns The name of @c operation.
*/
inline constexpr const char *operation_name(Operation operation) {
#define MAP(x) case Operation::x: return #x;
switch(operation) {
default: break;
MAP(BBC0); MAP(BBC1); MAP(BBC2); MAP(BBC3); MAP(BBC4); MAP(BBC5); MAP(BBC6); MAP(BBC7);
MAP(BBS0); MAP(BBS1); MAP(BBS2); MAP(BBS3); MAP(BBS4); MAP(BBS5); MAP(BBS6); MAP(BBS7);
MAP(BCC); MAP(BCS); MAP(BEQ); MAP(BMI); MAP(BNE); MAP(BPL); MAP(BVC); MAP(BVS);
MAP(BRA); MAP(BRK); MAP(JMP); MAP(JSR); MAP(RTI); MAP(RTS); MAP(CLC); MAP(CLD);
MAP(CLI); MAP(CLT); MAP(CLV); MAP(SEC); MAP(SED); MAP(SEI); MAP(SET); MAP(INX);
MAP(INY); MAP(DEX); MAP(DEY); MAP(FST); MAP(SLW); MAP(NOP); MAP(PHA); MAP(PHP);
MAP(PLA); MAP(PLP); MAP(STP); MAP(TAX); MAP(TAY); MAP(TSX); MAP(TXA); MAP(TXS);
MAP(TYA); MAP(ADC); MAP(SBC); MAP(AND); MAP(ORA); MAP(EOR); MAP(BIT); MAP(CMP);
MAP(CPX); MAP(CPY); MAP(LDA); MAP(LDX); MAP(LDY); MAP(TST); MAP(ASL); MAP(LSR);
MAP(CLB0); MAP(CLB1); MAP(CLB2); MAP(CLB3); MAP(CLB4); MAP(CLB5); MAP(CLB6); MAP(CLB7);
MAP(SEB0); MAP(SEB1); MAP(SEB2); MAP(SEB3); MAP(SEB4); MAP(SEB5); MAP(SEB6); MAP(SEB7);
MAP(COM); MAP(DEC); MAP(INC); MAP(ROL); MAP(ROR); MAP(RRF); MAP(LDM); MAP(STA);
MAP(STX); MAP(STY);
}
#undef MAP
return "???";
}
inline std::ostream &operator <<(std::ostream &stream, Operation operation) {
stream << operation_name(operation);
return stream;
}
/*!
@returns The name of @c addressing_mode.
*/
inline constexpr const char *addressing_mode_name(AddressingMode addressing_mode) {
switch(addressing_mode) {
default: break;
case AddressingMode::Implied: return "";
case AddressingMode::Accumulator: return "A";
case AddressingMode::Immediate: return "#";
case AddressingMode::Absolute: return "abs";
case AddressingMode::AbsoluteX: return "abs, x";
case AddressingMode::AbsoluteY: return "abs, y";
case AddressingMode::ZeroPage: return "zp";
case AddressingMode::ZeroPageX: return "zp, x";
case AddressingMode::ZeroPageY: return "zp, y";
case AddressingMode::XIndirect: return "((zp, x))";
case AddressingMode::IndirectY: return "((zp), y)";
case AddressingMode::Relative: return "rel";
case AddressingMode::AbsoluteIndirect: return "(abs)";
case AddressingMode::ZeroPageIndirect: return "(zp)";
case AddressingMode::SpecialPage: return "\\sp";
case AddressingMode::ImmediateZeroPage: return "#, zp";
case AddressingMode::AccumulatorRelative: return "A, rel";
case AddressingMode::ZeroPageRelative: return "zp, rel";
}
return "???";
}
inline std::ostream &operator <<(std::ostream &stream, AddressingMode mode) {
stream << addressing_mode_name(mode);
return stream;
}
/*!
@returns The way that the address for an operation with @c addressing_mode and encoded starting from @c operation
would appear in an assembler. E.g. '$5a' for that zero page address, or '$5a, x' for zero-page indexed from $5a. This function
may access up to three bytes from @c operation onwards.
*/
inline std::string address(AddressingMode addressing_mode, const uint8_t *operation, uint16_t program_counter) {
std::stringstream output;
output << std::hex;
#define NUM(x) std::setfill('0') << std::setw(2) << int(x)
#define NUM4(x) std::setfill('0') << std::setw(4) << int(x)
switch(addressing_mode) {
default: return "???";
case AddressingMode::Implied: return "";
case AddressingMode::Accumulator: return "A ";
case AddressingMode::Immediate: output << "#$" << NUM(operation[1]); break;
case AddressingMode::Absolute: output << "$" << NUM(operation[2]) << NUM(operation[1]); break;
case AddressingMode::AbsoluteX: output << "$" << NUM(operation[2]) << NUM(operation[1]) << ", x"; break;
case AddressingMode::AbsoluteY: output << "$" << NUM(operation[2]) << NUM(operation[1]) << ", y"; break;
case AddressingMode::ZeroPage: output << "$" << NUM(operation[1]); break;
case AddressingMode::ZeroPageX: output << "$" << NUM(operation[1]) << ", x"; break;
case AddressingMode::ZeroPageY: output << "$" << NUM(operation[1]) << ", y"; break;
case AddressingMode::XIndirect: output << "(($" << NUM(operation[1]) << ", x))"; break;
case AddressingMode::IndirectY: output << "(($" << NUM(operation[1]) << "), y)"; break;
case AddressingMode::Relative: output << "#$" << NUM4(2 + program_counter + int8_t(operation[1])); break;
case AddressingMode::AbsoluteIndirect: output << "($" << NUM(operation[2]) << NUM(operation[1]) << ") "; break;
case AddressingMode::ZeroPageIndirect: output << "($" << NUM(operation[1]) << ")"; break;
case AddressingMode::SpecialPage: output << "$1f" << NUM(operation[1]); break;
case AddressingMode::ImmediateZeroPage: output << "#$" << NUM(operation[1]) << ", $" << NUM(operation[2]); break;
case AddressingMode::AccumulatorRelative: output << "A, $" << NUM4(2 + program_counter + int8_t(operation[1])); break;
case AddressingMode::ZeroPageRelative:
output << "$" << NUM(operation[1]) << ", $" << NUM4(3 + program_counter + int8_t(operation[2]));
break;
}
#undef NUM4
#undef NUM
return output.str();
}
/*!
Models a complete M50740-style instruction, including its operation, addressing mode and opcode.
*/
struct Instruction {
Operation operation = Operation::Invalid;
AddressingMode addressing_mode = AddressingMode::Implied;
uint8_t opcode = 0;
Instruction(Operation operation, AddressingMode addressing_mode, uint8_t opcode) : operation(operation), addressing_mode(addressing_mode), opcode(opcode) {}
Instruction(uint8_t opcode) : opcode(opcode) {}
Instruction() {}
};
/*!
Outputs a description of @c instruction to @c stream.
*/
inline std::ostream &operator <<(std::ostream &stream, const Instruction &instruction) {
stream << operation_name(instruction.operation) << " " << addressing_mode_name(instruction.addressing_mode);
return stream;
}
}
}
#endif /* InstructionSets_M50740_Instruction_h */