EightBit/inc/IntelProcessor.h

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#pragma once
#include <cstdint>
#include <array>
#include "Bus.h"
#include "LittleEndianProcessor.h"
#include "Register.h"
#include "EventArgs.h"
#include "Signal.h"
#include "EightBitCompilerDefinitions.h"
namespace EightBit {
class IntelProcessor : public LittleEndianProcessor {
public:
struct opcode_decoded_t {
int x = 0;
int y = 0;
int z = 0;
int p = 0;
int q = 0;
opcode_decoded_t() noexcept {}
opcode_decoded_t(const uint8_t opcode) noexcept {
x = (opcode & 0b11000000) >> 6; // 0 - 3
y = (opcode & 0b00111000) >> 3; // 0 - 7
z = (opcode & 0b00000111); // 0 - 7
p = (y & 0b110) >> 1; // 0 - 3
q = (y & 1); // 0 - 1
}
};
~IntelProcessor() = default;
[[nodiscard]] const auto& getDecodedOpcode(const size_t i) const noexcept {
return m_decodedOpcodes.at(i);
}
[[nodiscard]] auto& MEMPTR() noexcept { return m_memptr; }
[[nodiscard]] auto& SP() noexcept { return m_sp; }
[[nodiscard]] virtual register16_t& AF() = 0;
[[nodiscard]] auto& A() { return AF().high; }
[[nodiscard]] auto& F() { return AF().low; }
[[nodiscard]] virtual register16_t& BC() = 0;
[[nodiscard]] auto& B() { return BC().high; }
[[nodiscard]] auto& C() { return BC().low; }
[[nodiscard]] virtual register16_t& DE() = 0;
[[nodiscard]] auto& D() { return DE().high; }
[[nodiscard]] auto& E() { return DE().low; }
[[nodiscard]] virtual register16_t& HL() = 0;
[[nodiscard]] auto& H() { return HL().high; }
[[nodiscard]] auto& L() { return HL().low; }
DECLARE_PIN_INPUT(HALT)
protected:
IntelProcessor(Bus& bus);
template<class T> [[nodiscard]] static uint8_t adjustSign(uint8_t f, const uint8_t value) {
return setBit(f, T::SF, value & T::SF);
}
template<class T> [[nodiscard]] static uint8_t adjustZero(uint8_t f, const uint8_t value) {
return clearBit(f, T::ZF, value);
}
template<class T> [[nodiscard]] static uint8_t adjustParity(uint8_t f, const uint8_t value) {
return clearBit(f, T::PF, PARITY(value));
}
template<class T> [[nodiscard]] static uint8_t adjustSZ(uint8_t f, const uint8_t value) {
const auto intermediate = adjustSign<T>(f, value);
return adjustZero<T>(intermediate, value);
}
template<class T> [[nodiscard]] static uint8_t adjustSZP(uint8_t f, const uint8_t value) {
const auto intermediate = adjustSZ<T>(f, value);
return adjustParity<T>(intermediate, value);
}
template<class T> [[nodiscard]] static uint8_t adjustXY(uint8_t f, const uint8_t value) {
const auto intermediate = setBit(f, T::XF, value & T::XF);
return setBit(intermediate, T::YF, value & T::YF);
}
template<class T> [[nodiscard]] static uint8_t adjustSZPXY(uint8_t f, const uint8_t value) {
const auto intermediate = adjustSZP<T>(f, value);
return adjustXY<T>(intermediate, value);
}
template<class T> [[nodiscard]] static uint8_t adjustSZXY(uint8_t f, const uint8_t value) {
const auto intermediate = adjustSZ<T>(f, value);
return adjustXY<T>(intermediate, value);
}
//
[[nodiscard]] static constexpr auto buildHalfCarryIndex(const uint8_t before, const uint8_t value, const int calculation) {
return ((before & 0x88) >> 1) | ((value & 0x88) >> 2) | ((calculation & 0x88) >> 3);
}
[[nodiscard]] static auto calculateHalfCarryAdd(const uint8_t before, const uint8_t value, const int calculation) noexcept {
static std::array<int, 8> halfCarryTableAdd = { { 0, 0, 1, 0, 1, 0, 1, 1} };
const auto index = buildHalfCarryIndex(before, value, calculation);
return halfCarryTableAdd.at(index & Mask3);
}
[[nodiscard]] static auto calculateHalfCarrySub(const uint8_t before, const uint8_t value, const int calculation) noexcept {
std::array<int, 8> halfCarryTableSub = { { 0, 1, 1, 1, 0, 0, 0, 1 } };
const auto index = buildHalfCarryIndex(before, value, calculation);
return halfCarryTableSub.at(index & Mask3);
}
void handleRESET() override;
void push(uint8_t value) final;
[[nodiscard]] uint8_t pop() final;
//
[[nodiscard]] register16_t getWord() final;
void setWord(register16_t value) final;
2017-06-12 13:33:00 +00:00
//
void restart(const uint8_t address) {
call(MEMPTR() = { address, 0 });
}
auto callConditional(const int condition) {
MEMPTR() = fetchWord();
if (condition)
call(MEMPTR());
return !!condition;
}
auto jumpConditional(const int condition) {
MEMPTR() = fetchWord();
if (condition)
jump(MEMPTR());
return !!condition;
}
auto returnConditional(const int condition) {
if (condition)
ret();
return !!condition;
}
void jr(const int8_t offset) noexcept {
jump(MEMPTR() = PC() + offset);
}
auto jrConditional(const int condition) {
const auto offsetAddress = PC()++;
if (condition) {
const auto offset = busRead(offsetAddress);
jr(offset);
}
return !!condition;
}
void ret() final;
private:
std::array<opcode_decoded_t, 0x100> m_decodedOpcodes;
register16_t m_sp = Mask16;
register16_t m_memptr;
};
}