CLK/InstructionSets/x86/Status.hpp

//
//  Status.hpp
//  Clock Signal
//
//  Created by Thomas Harte on 05/10/2023.
//  Copyright © 2023 Thomas Harte. All rights reserved.
//

#ifndef InstructionSets_x86_Status_hpp
#define InstructionSets_x86_Status_hpp

#include "../../Numeric/Carry.hpp"

namespace InstructionSet::x86 {

namespace ConditionCode {

//
// Standard flags.
//

static constexpr uint32_t Carry				= 1 << 0;
static constexpr uint32_t Parity			= 1 << 2;
static constexpr uint32_t AuxiliaryCarry	= 1 << 4;
static constexpr uint32_t Zero				= 1 << 6;
static constexpr uint32_t Sign				= 1 << 7;
static constexpr uint32_t Trap				= 1 << 8;
static constexpr uint32_t Interrupt			= 1 << 9;
static constexpr uint32_t Direction			= 1 << 10;
static constexpr uint32_t Overflow			= 1 << 11;

//
// 80286+ additions.
//

static constexpr uint32_t IOPrivilege		= (1 << 12) | (1 << 13);
static constexpr uint32_t NestedTask		= 1 << 14;

//
// 16-bit protected mode flags.
//

static constexpr uint32_t ProtectionEnable				= 1 << 16;
static constexpr uint32_t MonitorProcessorExtension		= 1 << 17;
static constexpr uint32_t ProcessorExtensionExtension	= 1 << 18;
static constexpr uint32_t TaskSwitch					= 1 << 19;

//
// 32-bit protected mode flags.
//

static constexpr uint32_t Resume			= 1 << 16;
static constexpr uint32_t VirtualMode		= 1 << 17;

}

enum class Flag {
	Carry,
	AuxiliaryCarry,
	Sign,
	Overflow,
	Trap,
	Interrupt,
	Direction,
	Zero,
	ParityOdd
};

enum class Condition {
	Overflow,
	Below,
	Zero,
	BelowOrEqual,
	Sign,
	ParityOdd,
	Less,
	LessOrEqual
};

class Status {
	public:
		using FlagT = uint32_t;

		// Flag getters.
		template <Flag flag> bool flag() const {
			switch(flag) {
				case Flag::Carry:			return carry;
				case Flag::AuxiliaryCarry:	return auxiliary_carry;
				case Flag::Sign:			return sign;
				case Flag::Overflow:		return overflow;
				case Flag::Trap:			return trap;
				case Flag::Interrupt:		return interrupt;
				case Flag::Direction:		return direction;
				case Flag::Zero:			return !zero;
				case Flag::ParityOdd:		return not_parity_bit();
			}
		}

		// Condition evaluation.
		template <Condition test> bool condition() const {
			switch(test) {
				case Condition::Overflow:		return flag<Flag::Overflow>();
				case Condition::Below:			return flag<Flag::Carry>();
				case Condition::Zero:			return flag<Flag::Zero>();
				case Condition::BelowOrEqual:	return flag<Flag::Zero>() || flag<Flag::Carry>();
				case Condition::Sign:			return flag<Flag::Sign>();
				case Condition::ParityOdd:		return flag<Flag::ParityOdd>();
				case Condition::Less:			return flag<Flag::Sign>() != flag<Flag::Overflow>();
				case Condition::LessOrEqual:	return flag<Flag::Zero>() || flag<Flag::Sign>() != flag<Flag::Overflow>();
			}
		}

		// Convenience setters.

		/// Sets all of @c flags as a function of @c value:
		/// • Flag::Zero: sets the zero flag if @c value is zero;
		/// • Flag::Sign: sets the sign flag if the top bit of @c value is one;
		/// • Flag::ParityOdd: sets parity based on the low 8 bits of @c value;
		/// • Flag::Carry: sets carry if @c value is non-zero;
		/// • Flag::AuxiliaryCarry: sets auxiliary carry if @c value is non-zero;
		/// • Flag::Overflow: sets overflow if @c value is non-zero;
		/// • Flag::Interrupt: sets interrupt if @c value is non-zero;
		/// • Flag::Trap: sets interrupt if @c value is non-zero;
		/// • Flag::Direction: sets direction if @c value is non-zero.
		template <typename IntT, Flag... flags> void set_from(IntT value) {
			for(const auto flag: {flags...}) {
				switch(flag) {
					default: break;
					case Flag::Zero:			zero = value;								break;
					case Flag::Sign:			sign = value & Numeric::top_bit<IntT>();	break;
					case Flag::ParityOdd:		parity = value;								break;
					case Flag::Carry:			carry = value;								break;
					case Flag::AuxiliaryCarry:	auxiliary_carry = value;					break;
					case Flag::Overflow:		overflow = value;							break;
					case Flag::Interrupt:		interrupt = value;							break;
					case Flag::Trap:			trap = value;								break;
					case Flag::Direction:		direction = value;							break;
				}
			}
		}
		template <Flag... flags> void set_from(FlagT value) {
			set_from<FlagT, flags...>(value);
		}

		template <typename IntT> IntT carry_bit() const { return carry ? 1 : 0; }
		bool not_parity_bit() const {
			// x86 parity always considers the lowest 8-bits only.
			auto result = static_cast<uint8_t>(parity);
			result ^= result >> 4;
			result ^= result >> 2;
			result ^= result >> 1;
			return result & 1;
		}

		// Complete value get and set.
		void set(uint16_t value) {
			carry = value & ConditionCode::Carry;
			auxiliary_carry = value & ConditionCode::AuxiliaryCarry;
			sign = value & ConditionCode::Sign;
			overflow = value & ConditionCode::Overflow;
			trap = value & ConditionCode::Trap;
			interrupt = value & ConditionCode::Interrupt;
			direction = value & ConditionCode::Direction;

			zero = (~value) & ConditionCode::Zero;

			parity = (~value) & ConditionCode::Parity;
		}

		uint16_t get() const {
			return
				0xf002 |

				(carry ? ConditionCode::Carry : 0) |
				(auxiliary_carry ? ConditionCode::AuxiliaryCarry : 0) |
				(sign ? ConditionCode::Sign : 0) |
				(overflow ? ConditionCode::Overflow : 0) |
				(trap ? ConditionCode::Trap : 0) |
				(interrupt ? ConditionCode::Interrupt : 0) |
				(direction ? ConditionCode::Direction : 0) |

				(zero ? 0 : ConditionCode::Zero) |

				(not_parity_bit() ? 0 : ConditionCode::Parity);
		}

		std::string to_string() const {
			std::string result;

			if(overflow) result += "O"; else result += "-";
			if(direction) result += "D"; else result += "-";
			if(interrupt) result += "I"; else result += "-";
			if(trap) result += "T"; else result += "-";
			if(sign) result += "S"; else result += "-";
			if(!zero) result += "S"; else result += "-";
			result += "-";
			if(auxiliary_carry) result += "A"; else result += "-";
			result += "-";
			if(!not_parity_bit()) result += "P"; else result += "-";
			result += "-";
			if(carry) result += "C"; else result += "-";

			return result;
		}

		bool operator ==(const Status &rhs) const {
			return get() == rhs.get();
		}

	private:
		// Non-zero => set; zero => unset.
		uint32_t carry;
		uint32_t auxiliary_carry;
		uint32_t sign;
		uint32_t overflow;
		uint32_t trap;
		uint32_t interrupt;
		uint32_t direction;

		// Zero => set; non-zero => unset.
		uint32_t zero;

		// Odd number of bits => set; even => unset.
		uint32_t parity;
};

}

#endif /* InstructionSets_x86_Status_hpp */
Define the available flags. 2023-10-05 14:51:55 +00:00			`//`
			`// Status.hpp`
			`// Clock Signal`
			`//`
			`// Created by Thomas Harte on 05/10/2023.`
			`// Copyright © 2023 Thomas Harte. All rights reserved.`
			`//`

			`#ifndef InstructionSets_x86_Status_hpp`
			`#define InstructionSets_x86_Status_hpp`

Standardise repetitive sign/zero/parity sets. 2023-10-11 15:15:59 +00:00			`#include "../../Numeric/Carry.hpp"`
Define the available flags. 2023-10-05 14:51:55 +00:00
			`namespace InstructionSet::x86 {`

			`namespace ConditionCode {`

			`//`
			`// Standard flags.`
			`//`

			`static constexpr uint32_t Carry = 1 << 0;`
			`static constexpr uint32_t Parity = 1 << 2;`
			`static constexpr uint32_t AuxiliaryCarry = 1 << 4;`
			`static constexpr uint32_t Zero = 1 << 6;`
			`static constexpr uint32_t Sign = 1 << 7;`
			`static constexpr uint32_t Trap = 1 << 8;`
			`static constexpr uint32_t Interrupt = 1 << 9;`
			`static constexpr uint32_t Direction = 1 << 10;`
			`static constexpr uint32_t Overflow = 1 << 11;`

			`//`
			`// 80286+ additions.`
			`//`

			`static constexpr uint32_t IOPrivilege = (1 << 12) \| (1 << 13);`
			`static constexpr uint32_t NestedTask = 1 << 14;`

			`//`
			`// 16-bit protected mode flags.`
			`//`

			`static constexpr uint32_t ProtectionEnable = 1 << 16;`
			`static constexpr uint32_t MonitorProcessorExtension = 1 << 17;`
			`static constexpr uint32_t ProcessorExtensionExtension = 1 << 18;`
			`static constexpr uint32_t TaskSwitch = 1 << 19;`

			`//`
			`// 32-bit protected mode flags.`
			`//`

			`static constexpr uint32_t Resume = 1 << 16;`
			`static constexpr uint32_t VirtualMode = 1 << 17;`

			`}`

Standardise repetitive sign/zero/parity sets. 2023-10-11 15:15:59 +00:00			`enum class Flag {`
			`Carry,`
			`AuxiliaryCarry,`
			`Sign,`
			`Overflow,`
			`Trap,`
			`Interrupt,`
			`Direction,`
			`Zero,`
			`ParityOdd`
			`};`

			`enum class Condition {`
			`Overflow,`
			`Below,`
			`Zero,`
			`BelowOrEqual,`
			`Sign,`
			`ParityOdd,`
			`Less,`
			`LessOrEqual`
			`};`

Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`class Status {`
			`public:`
			`using FlagT = uint32_t;`

			`// Flag getters.`
Implement SALC, SETMO, SETMOC. 2023-10-12 19:52:05 +00:00			`template <Flag flag> bool flag() const {`
Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`switch(flag) {`
			`case Flag::Carry: return carry;`
			`case Flag::AuxiliaryCarry: return auxiliary_carry;`
			`case Flag::Sign: return sign;`
			`case Flag::Overflow: return overflow;`
			`case Flag::Trap: return trap;`
			`case Flag::Interrupt: return interrupt;`
			`case Flag::Direction: return direction;`
			`case Flag::Zero: return !zero;`
			`case Flag::ParityOdd: return not_parity_bit();`
			`}`
Add getters to obscure internal flag storage. 2023-10-10 20:14:20 +00:00			`}`
Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00
			`// Condition evaluation.`
Implement SALC, SETMO, SETMOC. 2023-10-12 19:52:05 +00:00			`template <Condition test> bool condition() const {`
Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`switch(test) {`
			`case Condition::Overflow: return flag<Flag::Overflow>();`
			`case Condition::Below: return flag<Flag::Carry>();`
			`case Condition::Zero: return flag<Flag::Zero>();`
			`case Condition::BelowOrEqual: return flag<Flag::Zero>() \|\| flag<Flag::Carry>();`
			`case Condition::Sign: return flag<Flag::Sign>();`
			`case Condition::ParityOdd: return flag<Flag::ParityOdd>();`
			`case Condition::Less: return flag<Flag::Sign>() != flag<Flag::Overflow>();`
			`case Condition::LessOrEqual: return flag<Flag::Zero>() \|\| flag<Flag::Sign>() != flag<Flag::Overflow>();`
			`}`
Add getters to obscure internal flag storage. 2023-10-10 20:14:20 +00:00			`}`

Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`// Convenience setters.`

			`/// Sets all of @c flags as a function of @c value:`
			`/// • Flag::Zero: sets the zero flag if @c value is zero;`
			`/// • Flag::Sign: sets the sign flag if the top bit of @c value is one;`
			`/// • Flag::ParityOdd: sets parity based on the low 8 bits of @c value;`
			`/// • Flag::Carry: sets carry if @c value is non-zero;`
			`/// • Flag::AuxiliaryCarry: sets auxiliary carry if @c value is non-zero;`
			`/// • Flag::Overflow: sets overflow if @c value is non-zero;`
			`/// • Flag::Interrupt: sets interrupt if @c value is non-zero;`
			`/// • Flag::Trap: sets interrupt if @c value is non-zero;`
			`/// • Flag::Direction: sets direction if @c value is non-zero.`
			`template <typename IntT, Flag... flags> void set_from(IntT value) {`
			`for(const auto flag: {flags...}) {`
			`switch(flag) {`
			`default: break;`
			`case Flag::Zero: zero = value; break;`
			`case Flag::Sign: sign = value & Numeric::top_bit<IntT>(); break;`
			`case Flag::ParityOdd: parity = value; break;`
			`case Flag::Carry: carry = value; break;`
			`case Flag::AuxiliaryCarry: auxiliary_carry = value; break;`
			`case Flag::Overflow: overflow = value; break;`
			`case Flag::Interrupt: interrupt = value; break;`
			`case Flag::Trap: trap = value; break;`
			`case Flag::Direction: direction = value; break;`
			`}`
Standardise repetitive sign/zero/parity sets. 2023-10-11 15:15:59 +00:00			`}`
			`}`
Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`template <Flag... flags> void set_from(FlagT value) {`
			`set_from<FlagT, flags...>(value);`
			`}`

			`template <typename IntT> IntT carry_bit() const { return carry ? 1 : 0; }`
			`bool not_parity_bit() const {`
			`// x86 parity always considers the lowest 8-bits only.`
			`auto result = static_cast<uint8_t>(parity);`
			`result ^= result >> 4;`
			`result ^= result >> 2;`
			`result ^= result >> 1;`
			`return result & 1;`
			`}`

			`// Complete value get and set.`
			`void set(uint16_t value) {`
			`carry = value & ConditionCode::Carry;`
			`auxiliary_carry = value & ConditionCode::AuxiliaryCarry;`
			`sign = value & ConditionCode::Sign;`
			`overflow = value & ConditionCode::Overflow;`
			`trap = value & ConditionCode::Trap;`
			`interrupt = value & ConditionCode::Interrupt;`
			`direction = value & ConditionCode::Direction;`

			`zero = (~value) & ConditionCode::Zero;`

			`parity = (~value) & ConditionCode::Parity;`
			`}`

			`uint16_t get() const {`
			`return`
			`0xf002 \|`

			`(carry ? ConditionCode::Carry : 0) \|`
			`(auxiliary_carry ? ConditionCode::AuxiliaryCarry : 0) \|`
			`(sign ? ConditionCode::Sign : 0) \|`
			`(overflow ? ConditionCode::Overflow : 0) \|`
			`(trap ? ConditionCode::Trap : 0) \|`
			`(interrupt ? ConditionCode::Interrupt : 0) \|`
			`(direction ? ConditionCode::Direction : 0) \|`

			`(zero ? 0 : ConditionCode::Zero) \|`

			`(not_parity_bit() ? 0 : ConditionCode::Parity);`
			`}`

Further improve error reporting. 2023-10-16 19:47:06 +00:00			`std::string to_string() const {`
			`std::string result;`

			`if(overflow) result += "O"; else result += "-";`
			`if(direction) result += "D"; else result += "-";`
			`if(interrupt) result += "I"; else result += "-";`
			`if(trap) result += "T"; else result += "-";`
			`if(sign) result += "S"; else result += "-";`
			`if(!zero) result += "S"; else result += "-";`
			`result += "-";`
			`if(auxiliary_carry) result += "A"; else result += "-";`
			`result += "-";`
			`if(!not_parity_bit()) result += "P"; else result += "-";`
			`result += "-";`
			`if(carry) result += "C"; else result += "-";`

			`return result;`
			`}`

Collapse all flags accesses behind setters and getters. 2023-10-11 16:35:17 +00:00			`bool operator ==(const Status &rhs) const {`
			`return get() == rhs.get();`
			`}`

			`private:`
			`// Non-zero => set; zero => unset.`
			`uint32_t carry;`
			`uint32_t auxiliary_carry;`
			`uint32_t sign;`
			`uint32_t overflow;`
			`uint32_t trap;`
			`uint32_t interrupt;`
			`uint32_t direction;`

			`// Zero => set; non-zero => unset.`
			`uint32_t zero;`

			`// Odd number of bits => set; even => unset.`
			`uint32_t parity;`
Define the available flags. 2023-10-05 14:51:55 +00:00			`};`

			`}`

			`#endif /* InstructionSets_x86_Status_hpp */`