CLK/InstructionSets/M50740/Instruction.hpp

//
//  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>
#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);

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,

	// Operations that don't access memory.
	BBC0,	BBC1,	BBC2,	BBC3,	BBC4,	BBC5,	BBC6,	BBC7,
	BBS0,	BBS1,	BBS2,	BBS3,	BBS4,	BBS5,	BBS6,	BBS7,
	BCC,	BCS,
	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,
	CLB0,	CLB1,	CLB2,	CLB3,	CLB4,	CLB5,	CLB6,	CLB7,
	SEB0,	SEB1,	SEB2,	SEB3,	SEB4,	SEB5,	SEB6,	SEB7,
	COM,
	DEC,	INC,
	ROL,	ROR,	RRF,

	// Write operations.
	LDM,
	STA,	STX,	STY,
};

static constexpr auto MaxOperation = int(Operation::STY);
static constexpr auto MinOperation = int(Operation::BBC0);

constexpr AccessType access_type(Operation operation) {
	if(operation < Operation::ADC)	return AccessType::None;
	if(operation < Operation::ASL)	return AccessType::Read;
	if(operation < Operation::LDM)	return AccessType::ReadModifyWrite;
	return AccessType::Write;
}

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 */
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`//`
			`// Instruction.hpp`
			`// Clock Signal`
			`//`
Switches all American-style dates. I'd failed to configure my new computer appropriately, it seems. 2021-01-17 03:09:19 +00:00			`// Created by Thomas Harte on 15/01/21.`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`// Copyright © 2021 Thomas Harte. All rights reserved.`
			`//`

			`#ifndef InstructionSets_M50740_Instruction_h`
			`#define InstructionSets_M50740_Instruction_h`

			`#include <cstdint>`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`#include <iomanip>`
			`#include <string>`
			`#include <sstream>`
Adds access type declaration. 2021-01-17 01:04:01 +00:00			`#include "../AccessType.hpp"`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00
			`namespace InstructionSet {`
			`namespace M50740 {`

			`enum class AddressingMode {`
Corrects immediate instruction length, muddles through to having to parse a second program segment. Albeit with JSR not yet properly implemented. 2021-01-20 03:12:18 +00:00			`Implied, Accumulator, Immediate,`
			`Absolute, AbsoluteX, AbsoluteY,`
			`ZeroPage, ZeroPageX, ZeroPageY,`
			`XIndirect, IndirectY,`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`Relative,`
Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`AbsoluteIndirect, ZeroPageIndirect,`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`SpecialPage,`
Decides to shove bit number into `AddressingMode`. 2021-01-16 02:50:05 +00:00			`ImmediateZeroPage,`
Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`AccumulatorRelative, ZeroPageRelative`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`};`

Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`static constexpr auto MaxAddressingMode = int(AddressingMode::ZeroPageRelative);`
Muddles along to generating functions. Albeit right now without a body. 2021-01-17 02:45:44 +00:00			`static constexpr auto MinAddressingMode = int(AddressingMode::Implied);`

Adds access type declaration. 2021-01-17 01:04:01 +00:00			`constexpr int size(AddressingMode mode) {`
Completes the M50740 decoder. Completely untested. 2021-01-16 03:47:52 +00:00			`// This is coupled to the AddressingMode list above; be careful!`
			`constexpr int sizes[] = {`
Corrects immediate instruction length, muddles through to having to parse a second program segment. Albeit with JSR not yet properly implemented. 2021-01-20 03:12:18 +00:00			`0, 0, 1,`
Completes the M50740 decoder. Completely untested. 2021-01-16 03:47:52 +00:00			`2, 2, 2,`
			`1, 1, 1,`
			`1, 1,`
			`1,`
			`2, 1,`
			`1,`
			`2,`
Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`1, 2`
Completes the M50740 decoder. Completely untested. 2021-01-16 03:47:52 +00:00			`};`
Muddles along to generating functions. Albeit right now without a body. 2021-01-17 02:45:44 +00:00			`static_assert(sizeof(sizes)/sizeof(*sizes) == int(MaxAddressingMode) + 1);`
Completes the M50740 decoder. Completely untested. 2021-01-16 03:47:52 +00:00			`return sizes[int(mode)];`
			`}`

Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`enum class Operation: uint8_t {`
Decides to shove bit number into `AddressingMode`. 2021-01-16 02:50:05 +00:00			`Invalid,`

Starts on the next piece: parsers. 2021-01-17 00:54:40 +00:00			`// Operations that don't access memory.`
Corrects bit-selection shifts. 2021-01-22 04:13:00 +00:00			`BBC0, BBC1, BBC2, BBC3, BBC4, BBC5, BBC6, BBC7,`
			`BBS0, BBS1, BBS2, BBS3, BBS4, BBS5, BBS6, BBS7,`
Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`BCC, BCS,`
Starts on the next piece: parsers. 2021-01-17 00:54:40 +00:00			`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,`
Corrects bit-selection shifts. 2021-01-22 04:13:00 +00:00			`CLB0, CLB1, CLB2, CLB3, CLB4, CLB5, CLB6, CLB7,`
			`SEB0, SEB1, SEB2, SEB3, SEB4, SEB5, SEB6, SEB7,`
Starts on the next piece: parsers. 2021-01-17 00:54:40 +00:00			`COM,`
			`DEC, INC,`
			`ROL, ROR, RRF,`
Adds access type declaration. 2021-01-17 01:04:01 +00:00
			`// Write operations.`
			`LDM,`
			`STA, STX, STY,`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`};`

Muddles along to generating functions. Albeit right now without a body. 2021-01-17 02:45:44 +00:00			`static constexpr auto MaxOperation = int(Operation::STY);`
Stops trying to force bit ID into the addressing mode. 2021-01-20 02:51:01 +00:00			`static constexpr auto MinOperation = int(Operation::BBC0);`
Muddles along to generating functions. Albeit right now without a body. 2021-01-17 02:45:44 +00:00
Adds access type declaration. 2021-01-17 01:04:01 +00:00			`constexpr AccessType access_type(Operation operation) {`
			`if(operation < Operation::ADC) return AccessType::None;`
Corrects AccessType::Read. 2021-01-17 01:04:48 +00:00			`if(operation < Operation::ASL) return AccessType::Read;`
Corrects performer storage, RMW/W confusion, implicit casts, port readback. 2021-01-25 03:30:42 +00:00			`if(operation < Operation::LDM) return AccessType::ReadModifyWrite;`
			`return AccessType::Write;`
Adds access type declaration. 2021-01-17 01:04:01 +00:00			`}`

Seemingly advances to the first indefinite loop. 2021-01-21 02:18:52 +00:00			`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;`
			`}`

Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`/*!`
			`@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 "???";`
			`}`

Tidies up, allows Operations and AddressingModes to be posted directly to ostreams. 2021-02-11 02:46:56 +00:00			`inline std::ostream &operator <<(std::ostream &stream, Operation operation) {`
			`stream << operation_name(operation);`
			`return stream;`
			`}`

Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`/*!`
			`@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 "???";`
			`}`

Tidies up, allows Operations and AddressingModes to be posted directly to ostreams. 2021-02-11 02:46:56 +00:00			`inline std::ostream &operator <<(std::ostream &stream, AddressingMode mode) {`
			`stream << addressing_mode_name(mode);`
			`return stream;`
			`}`

Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`/*!`
			`@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 $5a. This function`
			`may access up to three bytes from @c operation onwards.`
			`*/`
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`inline std::string address(AddressingMode addressing_mode, const uint8_t *operation, uint16_t program_counter) {`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`std::stringstream output;`
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`output << std::hex;`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`#define NUM(x) std::setfill('0') << std::setw(2) << int(x)`
			`#define NUM4(x) std::setfill('0') << std::setw(4) << int(x)`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`switch(addressing_mode) {`
			`default: return "???";`
			`case AddressingMode::Implied: return "";`
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`case AddressingMode::Accumulator: return "A ";`
			`case AddressingMode::Immediate: output << "#$" << 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, $" << NUM4(2 + program_counter + int8_t(operation[1])); break;`
			`case AddressingMode::ZeroPageRelative:`
Corrects printed target address for `ZeroPageRelative`. 2021-02-05 01:54:31 +00:00			`output << "$" << NUM(operation[1]) << ", $" << NUM4(3 + program_counter + int8_t(operation[2]));`
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`break;`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`}`
Improves M50470 entry-point detection, adds test output. 2021-01-27 02:29:17 +00:00			`#undef NUM4`
			`#undef NUM`
Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00
			`return output.str();`
			`}`

			`/*!`
			`Models a complete M50740-style instruction, including its operation, addressing mode and opcode.`
			`*/`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`struct Instruction {`
Decides to shove bit number into `AddressingMode`. 2021-01-16 02:50:05 +00:00			`Operation operation = Operation::Invalid;`
			`AddressingMode addressing_mode = AddressingMode::Implied;`
Bends to using 8-bit lookups for M50740 instructions. 2021-01-18 01:03:36 +00:00			`uint8_t opcode = 0;`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00
Bends to using 8-bit lookups for M50740 instructions. 2021-01-18 01:03:36 +00:00			`Instruction(Operation operation, AddressingMode addressing_mode, uint8_t opcode) : operation(operation), addressing_mode(addressing_mode), opcode(opcode) {}`
			`Instruction(uint8_t opcode) : opcode(opcode) {}`
Decides to shove bit number into `AddressingMode`. 2021-01-16 02:50:05 +00:00			`Instruction() {}`
Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`};`

Starts to provide just a touch of reflection. 2021-01-27 00:22:00 +00:00			`/*!`
			`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;`
			`}`

Adds files for the M50740 and corrects namespace errors elsewhere. 2021-01-16 02:30:30 +00:00			`}`
			`}`


			`#endif /* InstructionSets_M50740_Instruction_h */`