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Tidy return parameter usage a little within the EightBit library.

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Signed-off-by: Adrian Conlon <Adrian.conlon@gmail.com>
This commit is contained in:
Adrian Conlon 2018-11-29 00:09:40 +00:00
parent deb9a6d43c
commit 9960ad6012
14 changed files with 189 additions and 172 deletions
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74
Z80/inc/Z80.h
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@ -51,31 +51,31 @@ namespace EightBit {
Signal<Z80> ExecutingInstruction;
Signal<Z80> ExecutedInstruction;
auto& NMI() { return m_nmiLine; } // In
auto& M1() { return m_m1Line; } // Out
[[nodiscard]] auto& NMI() { return m_nmiLine; } // In
[[nodiscard]] auto& M1() { return m_m1Line; } // Out
int execute(uint8_t opcode) final;
int step() final;
void powerOn() final;
register16_t& AF() final;
register16_t& BC() final;
register16_t& DE() final;
register16_t& HL() final;
[[nodiscard]] register16_t& AF() final;
[[nodiscard]] register16_t& BC() final;
[[nodiscard]] register16_t& DE() final;
[[nodiscard]] register16_t& HL() final;
auto& IX() { return m_ix; }
auto& IXH() { return IX().high; }
auto& IXL() { return IX().low; }
[[nodiscard]] auto& IX() { return m_ix; }
[[nodiscard]] auto& IXH() { return IX().high; }
[[nodiscard]] auto& IXL() { return IX().low; }
auto& IY() { return m_iy; }
auto& IYH() { return IY().high; }
auto& IYL() { return IY().low; }
[[nodiscard]] auto& IY() { return m_iy; }
[[nodiscard]] auto& IYH() { return IY().high; }
[[nodiscard]] auto& IYL() { return IY().low; }
auto& REFRESH() { return m_refresh; }
auto& IV() { return iv; }
auto& IM() { return m_interruptMode; }
auto& IFF1() { return m_iff1; }
auto& IFF2() { return m_iff2; }
[[nodiscard]] auto& REFRESH() { return m_refresh; }
[[nodiscard]] auto& IV() { return iv; }
[[nodiscard]] auto& IM() { return m_interruptMode; }
[[nodiscard]] auto& IFF1() { return m_iff1; }
[[nodiscard]] auto& IFF2() { return m_iff2; }
void exx() {
m_registerSet ^= 1;
@ -123,7 +123,7 @@ namespace EightBit {
void handleNMI();
uint16_t displacedAddress() {
[[nodiscard]] uint16_t displacedAddress() {
assert(m_displaced);
return MEMPTR().word = (m_prefixDD ? IX() : IY()).word + m_displacement;
}
@ -132,7 +132,7 @@ namespace EightBit {
m_displacement = fetchByte();
}
auto& HL2() {
[[nodiscard]] auto& HL2() {
if (LIKELY(!m_displaced))
return HL();
if (m_prefixDD)
@ -141,7 +141,7 @@ namespace EightBit {
return IY();
}
auto& RP(const int rp) {
[[nodiscard]] auto& RP(const int rp) {
ASSUME(rp >= 0);
ASSUME(rp <= 3);
switch (rp) {
@ -158,7 +158,7 @@ namespace EightBit {
}
}
auto& RP2(const int rp) {
[[nodiscard]] auto& RP2(const int rp) {
ASSUME(rp >= 0);
ASSUME(rp <= 3);
switch (rp) {
@ -175,7 +175,7 @@ namespace EightBit {
}
}
auto R(const int r) {
[[nodiscard]] auto R(const int r) {
ASSUME(r >= 0);
ASSUME(r <= 7);
switch (r) {
@ -233,7 +233,7 @@ namespace EightBit {
}
}
auto R2(const int r) {
[[nodiscard]] auto R2(const int r) {
ASSUME(r >= 0);
ASSUME(r <= 7);
switch (r) {
@ -317,14 +317,14 @@ namespace EightBit {
setFlag(f, VF, overflow);
}
void subtract(uint8_t& operand, uint8_t value, int carry = 0);
uint8_t subtract(uint8_t operand, uint8_t value, int carry = 0);
void executeCB(int x, int y, int z);
void executeED(int x, int y, int z, int p, int q);
void executeOther(int x, int y, int z, int p, int q);
void increment(uint8_t& operand);
void decrement(uint8_t& operand);
[[nodiscard]] uint8_t increment(uint8_t operand);
[[nodiscard]] uint8_t decrement(uint8_t operand);
void di();
void ei();
@ -350,18 +350,18 @@ namespace EightBit {
void orr(uint8_t value);
void compare(uint8_t value);
void rlc(uint8_t& operand);
void rrc(uint8_t& operand);
void rl(uint8_t& operand);
void rr(uint8_t& operand);
void sla(uint8_t& operand);
void sra(uint8_t& operand);
void sll(uint8_t& operand);
void srl(uint8_t& operand);
[[nodiscard]] uint8_t rlc(uint8_t operand);
[[nodiscard]] uint8_t rrc(uint8_t operand);
[[nodiscard]] uint8_t rl(uint8_t operand);
[[nodiscard]] uint8_t rr(uint8_t operand);
[[nodiscard]] uint8_t sla(uint8_t operand);
[[nodiscard]] uint8_t sra(uint8_t operand);
[[nodiscard]] uint8_t sll(uint8_t operand);
[[nodiscard]] uint8_t srl(uint8_t operand);
uint8_t bit(int n, uint8_t operand);
static uint8_t res(int n, uint8_t operand);
static uint8_t set(int n, uint8_t operand);
[[nodiscard]] uint8_t bit(int n, uint8_t operand);
[[nodiscard]] static uint8_t res(int n, uint8_t operand);
[[nodiscard]] static uint8_t set(int n, uint8_t operand);
void daa();

131
Z80/src/Z80.cpp
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@ -91,18 +91,22 @@ void EightBit::Z80::ei() {
IFF1() = IFF2() = true;
}
void EightBit::Z80::increment(uint8_t& operand) {
uint8_t EightBit::Z80::increment(const uint8_t operand) {
clearFlag(F(), NF);
adjustSZXY<Z80>(F(), ++operand);
setFlag(F(), VF, operand == Bit7);
clearFlag(F(), HC, lowNibble(operand));
const uint8_t result = operand + 1;
adjustSZXY<Z80>(F(), result);
setFlag(F(), VF, result == Bit7);
clearFlag(F(), HC, lowNibble(result));
return result;
}
void EightBit::Z80::decrement(uint8_t& operand) {
uint8_t EightBit::Z80::decrement(const uint8_t operand) {
setFlag(F(), NF);
clearFlag(F(), HC, lowNibble(operand));
adjustSZXY<Z80>(F(), --operand);
setFlag(F(), VF, operand == Mask7);
const uint8_t result = operand - 1;
adjustSZXY<Z80>(F(), result);
setFlag(F(), VF, result == Mask7);
return result;
}
bool EightBit::Z80::jrConditionalFlag(const int flag) {
@ -284,20 +288,23 @@ void EightBit::Z80::adc(const uint8_t value) {
add(value, F() & CF);
}
void EightBit::Z80::subtract(uint8_t& operand, const uint8_t value, const int carry) {
uint8_t EightBit::Z80::subtract(const uint8_t operand, const uint8_t value, const int carry) {
const register16_t result = operand - value - carry;
const register16_t subtraction = operand - value - carry;
const auto result = subtraction.low;
adjustHalfCarrySub(F(), operand, value, result.low);
adjustOverflowSub(F(), operand, value, result.low);
adjustHalfCarrySub(F(), operand, value, result);
adjustOverflowSub(F(), operand, value, result);
setFlag(F(), NF);
setFlag(F(), CF, result.high & CF);
adjustSZ<Z80>(F(), operand = result.low);
setFlag(F(), CF, subtraction.high & CF);
adjustSZ<Z80>(F(), result);
return result;
}
void EightBit::Z80::sub(const uint8_t value, const int carry) {
subtract(A(), value, carry);
A() = subtract(A(), value, carry);
adjustXY<Z80>(F(), A());
}
@ -322,65 +329,79 @@ void EightBit::Z80::orr(const uint8_t value) {
}
void EightBit::Z80::compare(const uint8_t value) {
auto original = A();
subtract(original, value);
subtract(A(), value);
adjustXY<Z80>(F(), value);
}
void EightBit::Z80::rlc(uint8_t& operand) {
uint8_t EightBit::Z80::rlc(const uint8_t operand) {
clearFlag(F(), NF | HC);
const auto carry = operand & Bit7;
setFlag(F(), CF, carry);
adjustXY<Z80>(F(), operand = (operand << 1) | (carry >> 7));
const uint8_t result = (operand << 1) | (carry >> 7);
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::rrc(uint8_t& operand) {
uint8_t EightBit::Z80::rrc(const uint8_t operand) {
clearFlag(F(), NF | HC);
const auto carry = operand & Bit0;
setFlag(F(), CF, carry);
adjustXY<Z80>(F(), operand = (operand >> 1) | (carry << 7));
const uint8_t result = (operand >> 1) | (carry << 7);
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::rl(uint8_t& operand) {
uint8_t EightBit::Z80::rl(const uint8_t operand) {
clearFlag(F(), NF | HC);
const auto carry = F() & CF;
setFlag(F(), CF, operand & Bit7);
adjustXY<Z80>(F(), operand = (operand << 1) | carry);
const uint8_t result = (operand << 1) | carry;
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::rr(uint8_t& operand) {
uint8_t EightBit::Z80::rr(const uint8_t operand) {
clearFlag(F(), NF | HC);
const auto carry = F() & CF;
setFlag(F(), CF, operand & Bit0);
adjustXY<Z80>(F(), operand = (operand >> 1) | (carry << 7));
const uint8_t result = (operand >> 1) | (carry << 7);
adjustXY<Z80>(F(), result);
return result;
}
//
void EightBit::Z80::sla(uint8_t& operand) {
uint8_t EightBit::Z80::sla(const uint8_t operand) {
clearFlag(F(), NF | HC);
setFlag(F(), CF, operand & Bit7);
adjustXY<Z80>(F(), operand <<= 1);
const uint8_t result = operand << 1;
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::sra(uint8_t& operand) {
uint8_t EightBit::Z80::sra(const uint8_t operand) {
clearFlag(F(), NF | HC);
setFlag(F(), CF, operand & Bit0);
adjustXY<Z80>(F(), operand = (operand >> 1) | (operand & Bit7));
const uint8_t result = (operand >> 1) | (operand & Bit7);
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::sll(uint8_t& operand) {
uint8_t EightBit::Z80::sll(const uint8_t operand) {
clearFlag(F(), NF | HC);
setFlag(F(), CF, operand & Bit7);
adjustXY<Z80>(F(), operand = (operand << 1) | Bit0);
const uint8_t result = (operand << 1) | Bit0;
adjustXY<Z80>(F(), result);
return result;
}
void EightBit::Z80::srl(uint8_t& operand) {
uint8_t EightBit::Z80::srl(const uint8_t operand) {
clearFlag(F(), NF | HC);
setFlag(F(), CF, operand & Bit0);
operand = (operand >> 1) & ~Bit7;
adjustXY<Z80>(F(), operand);
setFlag(F(), ZF, operand);
const uint8_t result = (operand >> 1) & ~Bit7;
adjustXY<Z80>(F(), result);
setFlag(F(), ZF, result);
return result;
}
uint8_t EightBit::Z80::bit(const int n, const uint8_t operand) {
@ -544,7 +565,7 @@ void EightBit::Z80::blockIn(register16_t& source, const register16_t destination
MEMPTR() = BUS().ADDRESS() = source;
const auto value = readPort();
BUS().write(destination, value);
decrement(source.high);
source.high = decrement(source.high);
setFlag(F(), NF);
}
@ -572,7 +593,7 @@ void EightBit::Z80::blockOut(const register16_t source, register16_t& destinatio
const auto value = BUS().read(source);
BUS().ADDRESS() = destination;
writePort();
decrement(destination.high);
destination.high = decrement(destination.high);
MEMPTR() = destination;
setFlag(F(), NF, value & Bit7);
setFlag(F(), HC | CF, (L() + value) > 0xff);
@ -708,28 +729,28 @@ void EightBit::Z80::executeCB(const int x, const int y, const int z) {
auto operand = LIKELY(!m_displaced) ? R(z) : BUS().read(displacedAddress());
switch (y) {
case 0:
rlc(operand);
operand = rlc(operand);
break;
case 1:
rrc(operand);
operand = rrc(operand);
break;
case 2:
rl(operand);
operand = rl(operand);
break;
case 3:
rr(operand);
operand = rr(operand);
break;
case 4:
sla(operand);
operand = sla(operand);
break;
case 5:
sra(operand);
operand = sra(operand);
break;
case 6:
sll(operand);
operand = sll(operand);
break;
case 7:
srl(operand);
operand = srl(operand);
break;
default:
UNREACHABLE;
@ -1177,26 +1198,22 @@ void EightBit::Z80::executeOther(const int x, const int y, const int z, const in
}
addCycles(6);
break;
case 4: { // 8-bit INC
case 4: // 8-bit INC
if (UNLIKELY(m_displaced && memoryY))
fetchDisplacement();
auto operand = R(y);
increment(operand);
R(y, operand);
R(y, increment(R(y)));
addCycles(4);
break;
} case 5: { // 8-bit DEC
case 5: // 8-bit DEC
if (UNLIKELY(memoryY)) {
addCycles(7);
if (UNLIKELY(m_displaced))
fetchDisplacement();
}
auto operand = R(y);
decrement(operand);
R(y, operand);
R(y, decrement(R(y)));
addCycles(4);
break;
} case 6: // 8-bit load immediate
case 6: // 8-bit load immediate
if (UNLIKELY(memoryY)) {
addCycles(3);
if (UNLIKELY(m_displaced))
@ -1208,16 +1225,16 @@ void EightBit::Z80::executeOther(const int x, const int y, const int z, const in
case 7: // Assorted operations on accumulator/flags
switch (y) {
case 0:
rlc(A());
A() = rlc(A());
break;
case 1:
rrc(A());
A() = rrc(A());
break;
case 2:
rl(A());
A() = rl(A());
break;
case 3:
rr(A());
A() = rr(A());
break;
case 4:
daa();

28
inc/Bus.h
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@ -22,21 +22,21 @@ namespace EightBit {
Signal<EventArgs> ReadingByte;
Signal<EventArgs> ReadByte;
auto ADDRESS() const noexcept { return m_address; }
auto& ADDRESS() noexcept { return m_address; }
[[nodiscard]] auto ADDRESS() const noexcept { return m_address; }
[[nodiscard]] auto& ADDRESS() noexcept { return m_address; }
auto DATA() const noexcept { return m_data; }
auto& DATA() noexcept { return m_data; }
[[nodiscard]] auto DATA() const noexcept { return m_data; }
[[nodiscard]] auto& DATA() noexcept { return m_data; }
auto peek() { return reference(); }
auto peek(const uint16_t address) { return reference(address); }
auto peek(const register16_t address) { return reference(address.word); }
[[nodiscard]] auto peek() { return reference(); }
[[nodiscard]] auto peek(const uint16_t address) { return reference(address); }
[[nodiscard]] auto peek(const register16_t address) { return reference(address.word); }
void poke(const uint8_t value) { reference() = value; }
void poke(const uint16_t address, const uint8_t value) { reference(address) = value; }
void poke(const register16_t address, const uint8_t value) { reference(address.word) = value; }
uint8_t read();
template<class T> auto read(const T address) {
[[nodiscard]] uint8_t read();
template<class T> [[nodiscard]] auto read(const T address) {
ADDRESS() = address;
return read();
}
@ -54,12 +54,12 @@ namespace EightBit {
protected:
virtual void initialise() = 0;
virtual MemoryMapping mapping(uint16_t address) = 0;
uint8_t& reference(uint16_t address);
auto& reference(const register16_t address) { return reference(address.word); }
uint8_t& reference() { return reference(ADDRESS()); }
[[nodiscard]] virtual MemoryMapping mapping(uint16_t address) = 0;
[[nodiscard]] uint8_t& reference(uint16_t address);
[[nodiscard]] auto& reference(const register16_t address) { return reference(address.word); }
[[nodiscard]] uint8_t& reference() { return reference(ADDRESS()); }
static std::map<uint16_t, std::vector<uint8_t>> parseHexFile(std::string path);
[[nodiscard]] static std::map<uint16_t, std::vector<uint8_t>> parseHexFile(std::string path);
void loadHexFile(std::string path);
private:

4
inc/Chip.h
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@ -77,9 +77,9 @@ namespace EightBit {
virtual ~Chip() {};
auto& POWER() noexcept { return m_powerLine; }
[[nodiscard]] auto& POWER() noexcept { return m_powerLine; }
auto powered() noexcept { return raised(POWER()); }
[[nodiscard]] auto powered() noexcept { return raised(POWER()); }
virtual void powerOn();
void powerOff() noexcept { lower(POWER()); }

6
inc/EightBitCompilerDefinitions.h
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@ -9,9 +9,9 @@
#endif
namespace EightBit {
int countBits(uint8_t value) noexcept ;
bool oddParity(uint8_t value) noexcept ;
int findFirstSet(int value) noexcept ;
[[nodiscard]] int countBits(uint8_t value) noexcept ;
[[nodiscard]] bool oddParity(uint8_t value) noexcept ;
[[nodiscard]] int findFirstSet(int value) noexcept ;
constexpr void assume(int expression);
}

2
inc/EventArgs.h
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@ -6,6 +6,6 @@ namespace EightBit {
static EventArgs m_empty;
public:
static auto& empty() noexcept { return m_empty; }
[[nodiscard]] static auto& empty() noexcept { return m_empty; }
};
}

6
inc/InputOutput.h
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@ -10,13 +10,13 @@ namespace EightBit {
public:
InputOutput() = default;
auto read(const uint8_t port) { return readInputPort(port); }
[[nodiscard]] auto read(const uint8_t port) { return readInputPort(port); }
void write(const uint8_t port, const uint8_t value) { return writeOutputPort(port, value); }
uint8_t readInputPort(uint8_t port);
[[nodiscard]] uint8_t readInputPort(uint8_t port);
void writeInputPort(const uint8_t port, const uint8_t value) noexcept { m_input[port] = value; }
auto readOutputPort(const uint8_t port) noexcept { return m_output[port]; }
[[nodiscard]] auto readOutputPort(const uint8_t port) noexcept { return m_output[port]; }
void writeOutputPort(uint8_t port, uint8_t value);
Signal<uint8_t> ReadingPort;

38
inc/IntelProcessor.h
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@ -33,29 +33,29 @@ namespace EightBit {
~IntelProcessor() = default;
const auto& getDecodedOpcode(const size_t i) const noexcept {
[[nodiscard]] const auto& getDecodedOpcode(const size_t i) const noexcept {
return m_decodedOpcodes[i];
}
auto& MEMPTR() noexcept { return m_memptr; }
[[nodiscard]] auto& MEMPTR() noexcept { return m_memptr; }
auto& SP() noexcept { return m_sp; }
[[nodiscard]] auto& SP() noexcept { return m_sp; }
virtual register16_t& AF() = 0;
auto& A() { return AF().high; }
auto& F() { return AF().low; }
[[nodiscard]] virtual register16_t& AF() = 0;
[[nodiscard]] auto& A() { return AF().high; }
[[nodiscard]] auto& F() { return AF().low; }
virtual register16_t& BC() = 0;
auto& B() { return BC().high; }
auto& C() { return BC().low; }
[[nodiscard]] virtual register16_t& BC() = 0;
[[nodiscard]] auto& B() { return BC().high; }
[[nodiscard]] auto& C() { return BC().low; }
virtual register16_t& DE() = 0;
auto& D() { return DE().high; }
auto& E() { return DE().low; }
[[nodiscard]] virtual register16_t& DE() = 0;
[[nodiscard]] auto& D() { return DE().high; }
[[nodiscard]] auto& E() { return DE().low; }
virtual register16_t& HL() = 0;
auto& H() { return HL().high; }
auto& L() { return HL().low; }
[[nodiscard]] virtual register16_t& HL() = 0;
[[nodiscard]] auto& H() { return HL().high; }
[[nodiscard]] auto& L() { return HL().low; }
void powerOn() override;
@ -105,24 +105,24 @@ namespace EightBit {
return ((before & 0x88) >> 1) | ((value & 0x88) >> 2) | ((calculation & 0x88) >> 3);
}
static auto calculateHalfCarryAdd(const uint8_t before, const uint8_t value, const int calculation) noexcept {
[[nodiscard]] static auto calculateHalfCarryAdd(const uint8_t before, const uint8_t value, const int calculation) noexcept {
static std::array<bool, 8> m_halfCarryTableAdd = { { false, false, true, false, true, false, true, true } };
const auto index = buildHalfCarryIndex(before, value, calculation);
return m_halfCarryTableAdd[index & Mask3];
}
static auto calculateHalfCarrySub(const uint8_t before, const uint8_t value, const int calculation) noexcept {
[[nodiscard]] static auto calculateHalfCarrySub(const uint8_t before, const uint8_t value, const int calculation) noexcept {
std::array<bool, 8> m_halfCarryTableSub = { { false, true, true, true, false, false, false, true } };
const auto index = buildHalfCarryIndex(before, value, calculation);
return m_halfCarryTableSub[index & Mask3];
}
void push(uint8_t value) final;
uint8_t pop() final;
[[nodiscard]] uint8_t pop() final;
//
register16_t getWord() final;
[[nodiscard]] register16_t getWord() final;
void setWord(register16_t value) final;
//

6
inc/Memory.h
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@ -16,10 +16,10 @@ namespace EightBit {
public:
virtual ~Memory() = default;
virtual size_t size() const = 0;
virtual uint8_t peek(uint16_t address) const = 0;
[[nodiscard]] virtual size_t size() const = 0;
[[nodiscard]] virtual uint8_t peek(uint16_t address) const = 0;
virtual uint8_t& reference(uint16_t);
[[nodiscard]] virtual uint8_t& reference(uint16_t);
virtual int load(std::ifstream& file, int writeOffset = 0, int readOffset = 0, int limit = -1) = 0;
virtual int load(const std::string& path, int writeOffset = 0, int readOffset = 0, int limit = -1) = 0;

40
inc/Processor.h
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@ -13,16 +13,16 @@ namespace EightBit {
public:
// b: number of bits representing the number in x
// x: sign extend this b-bit number to r
static int8_t signExtend(int b, uint8_t x);
[[nodiscard]] static int8_t signExtend(int b, uint8_t x);
~Processor() {};
auto& PC() noexcept { return m_pc; }
[[nodiscard]] auto& PC() noexcept { return m_pc; }
auto& RESET() noexcept { return m_resetLine; }
auto& HALT() noexcept { return m_haltLine; }
auto& INT() noexcept { return m_intLine; }
auto& IRQ() noexcept { return INT(); } // Synonym
[[nodiscard]] auto& RESET() noexcept { return m_resetLine; }
[[nodiscard]] auto& HALT() noexcept { return m_haltLine; }
[[nodiscard]] auto& INT() noexcept { return m_intLine; }
[[nodiscard]] auto& IRQ() noexcept { return INT(); } // Synonym
void powerOn() override;
void reset() noexcept { lower(RESET()); }
@ -31,25 +31,25 @@ namespace EightBit {
virtual int step() = 0;
virtual int execute(uint8_t opcode) = 0;
auto cycles() const noexcept { return m_cycles; }
[[nodiscard]] auto cycles() const noexcept { return m_cycles; }
virtual register16_t peekWord(register16_t address) = 0;
[[nodiscard]] virtual register16_t peekWord(register16_t address) = 0;
virtual void pokeWord(register16_t address, register16_t value) = 0;
protected:
Processor(Bus& memory);
auto& BUS() noexcept { return m_bus; }
[[nodiscard]] auto& BUS() noexcept { return m_bus; }
auto halted() noexcept { return lowered(HALT()); }
auto halt() noexcept { --PC(); lower(HALT()); }
auto proceed() noexcept { ++PC(); raise(HALT()); }
[[nodiscard]] auto halted() noexcept { return lowered(HALT()); }
void halt() noexcept { --PC(); lower(HALT()); }
void proceed() noexcept { ++PC(); raise(HALT()); }
virtual void handleRESET();
virtual void handleINT();
virtual void handleIRQ();
auto getBytePaged(const uint8_t page, const uint8_t offset) {
[[nodiscard]] auto getBytePaged(const uint8_t page, const uint8_t offset) {
return BUS().read(register16_t(offset, page));
}
@ -57,25 +57,25 @@ namespace EightBit {
BUS().write(register16_t(offset, page), value);
}
auto fetchByte() {
[[nodiscard]] auto fetchByte() {
return BUS().read(PC()++);
}
virtual register16_t getWord() = 0;
[[nodiscard]] virtual register16_t getWord() = 0;
virtual void setWord(register16_t value) = 0;
virtual register16_t getWordPaged(uint8_t page, uint8_t offset) = 0;
[[nodiscard]] virtual register16_t getWordPaged(uint8_t page, uint8_t offset) = 0;
virtual void setWordPaged(uint8_t page, uint8_t offset, register16_t value) = 0;
virtual register16_t fetchWord() = 0;
[[nodiscard]] virtual register16_t fetchWord() = 0;
virtual void push(uint8_t value) = 0;
virtual uint8_t pop() = 0;
[[nodiscard]] virtual uint8_t pop() = 0;
virtual void pushWord(register16_t value) = 0;
virtual register16_t popWord() = 0;
[[nodiscard]] virtual register16_t popWord() = 0;
auto getWord(const register16_t address) {
[[nodiscard]] auto getWord(const register16_t address) {
BUS().ADDRESS() = address;
return getWord();
}

2
inc/Ram.h
View File

@ -11,7 +11,7 @@ namespace EightBit {
public:
Ram(size_t size = 0) noexcept;
uint8_t& reference(uint16_t address) final;
[[nodiscard]] uint8_t& reference(uint16_t address) final;
void poke(uint16_t address, uint8_t value) final;
};
}

8
inc/Rom.h
View File

@ -16,8 +16,8 @@ namespace EightBit {
std::vector<uint8_t> m_bytes;
protected:
const auto& BYTES() const noexcept { return m_bytes; }
auto& BYTES() noexcept { return m_bytes; }
[[nodiscard]] const auto& BYTES() const noexcept { return m_bytes; }
[[nodiscard]] auto& BYTES() noexcept { return m_bytes; }
void poke(uint16_t address, uint8_t value) override;
@ -27,12 +27,12 @@ namespace EightBit {
Rom(size_t size = 0);
size_t size() const final;
[[nodiscard]] size_t size() const final;
int load(std::ifstream& file, int writeOffset = 0, int readOffset = 0, int limit = -1) final;
int load(const std::string& path, int writeOffset = 0, int readOffset = 0, int limit = -1) final;
int load(const std::vector<uint8_t>& bytes, int writeOffset = 0, int readOffset = 0, int limit = -1) final;
uint8_t peek(uint16_t address) const final;
[[nodiscard]] uint8_t peek(uint16_t address) const final;
};
}

12
inc/TestHarness.h
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@ -38,19 +38,19 @@ namespace EightBit {
std::cout << "Efficiency = " << efficiency << std::endl;
}
std::chrono::steady_clock::duration getElapsedTime() const {
[[nodiscard]] std::chrono::steady_clock::duration getElapsedTime() const {
return m_finishTime - m_startTime;
}
auto getElapsedSeconds() const {
[[nodiscard]] auto getElapsedSeconds() const {
return std::chrono::duration_cast<std::chrono::duration<double>>(getElapsedTime()).count();
}
auto getCyclesPerSecond() const {
[[nodiscard]] auto getCyclesPerSecond() const {
return (m_totalCycles / 1000000 ) / getElapsedSeconds();
}
auto getInstructionsPerSecond() {
[[nodiscard]] auto getInstructionsPerSecond() {
auto floating = m_instructions / getElapsedSeconds();
return (long long)floating;
}
@ -82,11 +82,11 @@ namespace EightBit {
uint64_t m_startHostCycles = 0;
uint64_t m_finishHostCycles = 0;
static auto now() {
static [[nodiscard]] auto now() {
return std::chrono::steady_clock::now();
}
static uint64_t currentHostCycles() {
static [[nodiscard]] uint64_t currentHostCycles() {
return __rdtsc();
}
};

4
inc/UnusedMemory.h
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@ -16,8 +16,8 @@ namespace EightBit {
UnusedMemory(size_t size, uint8_t value);
~UnusedMemory() {};
size_t size() const final;
uint8_t peek(uint16_t address) const final;
[[nodiscard]] size_t size() const final;
[[nodiscard]] uint8_t peek(uint16_t address) const final;
int load(std::ifstream& file, int writeOffset = 0, int readOffset = 0, int limit = -1) final;
int load(const std::string& path, int writeOffset = 0, int readOffset = 0, int limit = -1) final;