diff --git a/Machines/ZX8081/ZX8081.cpp b/Machines/ZX8081/ZX8081.cpp index 43994044a..cc121d07d 100644 --- a/Machines/ZX8081/ZX8081.cpp +++ b/Machines/ZX8081/ZX8081.cpp @@ -29,7 +29,7 @@ Machine::Machine() : clear_all_keys(); } -Cycles Machine::perform_machine_cycle(const CPU::Z80::PartialMachineCycle &cycle) { +HalfCycles Machine::perform_machine_cycle(const CPU::Z80::PartialMachineCycle &cycle) { HalfCycles previous_counter = horizontal_counter_; horizontal_counter_ += cycle.length; @@ -182,7 +182,7 @@ Cycles Machine::perform_machine_cycle(const CPU::Z80::PartialMachineCycle &cycle if(typer_) typer_->update(cycle.length.as_int()); - return Cycles(0); + return HalfCycles(0); } void Machine::flush() { diff --git a/Machines/ZX8081/ZX8081.hpp b/Machines/ZX8081/ZX8081.hpp index a27d3d380..cca3110d1 100644 --- a/Machines/ZX8081/ZX8081.hpp +++ b/Machines/ZX8081/ZX8081.hpp @@ -47,7 +47,7 @@ class Machine: public: Machine(); - Cycles perform_machine_cycle(const CPU::Z80::PartialMachineCycle &cycle); + HalfCycles perform_machine_cycle(const CPU::Z80::PartialMachineCycle &cycle); void flush(); void setup_output(float aspect_ratio); diff --git a/Processors/AllRAMProcessor.hpp b/Processors/AllRAMProcessor.hpp index c95a7b0ee..7b805fca3 100644 --- a/Processors/AllRAMProcessor.hpp +++ b/Processors/AllRAMProcessor.hpp @@ -18,7 +18,7 @@ namespace CPU { class AllRAMProcessor { public: AllRAMProcessor(size_t memory_size); - uint32_t get_timestamp(); + virtual uint32_t get_timestamp(); void set_data_at_address(uint16_t startAddress, size_t length, const uint8_t *data); void get_data_at_address(uint16_t startAddress, size_t length, uint8_t *data); diff --git a/Processors/Z80/Z80.hpp b/Processors/Z80/Z80.hpp index 2fe5df078..09d967daa 100644 --- a/Processors/Z80/Z80.hpp +++ b/Processors/Z80/Z80.hpp @@ -88,7 +88,7 @@ struct PartialMachineCycle { InputStart, OutputStart, } operation; - Cycles length; + HalfCycles length; uint16_t *address; uint8_t *value; bool was_requested; @@ -105,43 +105,43 @@ struct PartialMachineCycle { }; // Elemental bus operations -#define ReadOpcodeStart() {PartialMachineCycle::ReadOpcodeStart, Cycles(2), &pc_.full, &operation_, false} -#define ReadOpcodeWait(length, f) {PartialMachineCycle::ReadOpcodeWait, Cycles(length), &pc_.full, &operation_, f} -#define Refresh(len) {PartialMachineCycle::Refresh, Cycles(len), &refresh_addr_.full, nullptr, false} +#define ReadOpcodeStart() {PartialMachineCycle::ReadOpcodeStart, HalfCycles(4), &pc_.full, &operation_, false} +#define ReadOpcodeWait(f) {PartialMachineCycle::ReadOpcodeWait, HalfCycles(2), &pc_.full, &operation_, f} +#define Refresh(len) {PartialMachineCycle::Refresh, HalfCycles(len), &refresh_addr_.full, nullptr, false} -#define ReadStart(addr, val) {PartialMachineCycle::ReadStart, Cycles(2), &addr.full, &val, false} -#define ReadWait(l, addr, val, f) {PartialMachineCycle::ReadWait, Cycles(l), &addr.full, &val, f} -#define ReadEnd(addr, val) {PartialMachineCycle::Read, Cycles(1), &addr.full, &val, false} +#define ReadStart(addr, val) {PartialMachineCycle::ReadStart, HalfCycles(4), &addr.full, &val, false} +#define ReadWait(l, addr, val, f) {PartialMachineCycle::ReadWait, HalfCycles(l), &addr.full, &val, f} +#define ReadEnd(addr, val) {PartialMachineCycle::Read, HalfCycles(2), &addr.full, &val, false} -#define WriteStart(addr, val) {PartialMachineCycle::WriteStart, Cycles(2), &addr.full, &val, false} -#define WriteWait(l, addr, val, f) {PartialMachineCycle::WriteWait, Cycles(l), &addr.full, &val, f} -#define WriteEnd(addr, val) {PartialMachineCycle::Write, Cycles(1), &addr.full, &val, false} +#define WriteStart(addr, val) {PartialMachineCycle::WriteStart,HalfCycles(4), &addr.full, &val, false} +#define WriteWait(l, addr, val, f) {PartialMachineCycle::WriteWait, HalfCycles(l), &addr.full, &val, f} +#define WriteEnd(addr, val) {PartialMachineCycle::Write, HalfCycles(2), &addr.full, &val, false} -#define InputStart(addr, val) {PartialMachineCycle::InputStart, Cycles(2), &addr.full, &val, false} -#define InputWait(addr, val, f) {PartialMachineCycle::InputWait, Cycles(1), &addr.full, &val, f} -#define InputEnd(addr, val) {PartialMachineCycle::Input, Cycles(1), &addr.full, &val, false} +#define InputStart(addr, val) {PartialMachineCycle::InputStart, HalfCycles(4), &addr.full, &val, false} +#define InputWait(addr, val, f) {PartialMachineCycle::InputWait, HalfCycles(2), &addr.full, &val, f} +#define InputEnd(addr, val) {PartialMachineCycle::Input, HalfCycles(2), &addr.full, &val, false} -#define OutputStart(addr, val) {PartialMachineCycle::OutputStart, Cycles(2), &addr.full, &val, false} -#define OutputWait(addr, val, f) {PartialMachineCycle::OutputWait, Cycles(1), &addr.full, &val, f} -#define OutputEnd(addr, val) {PartialMachineCycle::Output, Cycles(1), &addr.full, &val, false} +#define OutputStart(addr, val) {PartialMachineCycle::OutputStart, HalfCycles(4), &addr.full, &val, false} +#define OutputWait(addr, val, f) {PartialMachineCycle::OutputWait, HalfCycles(2), &addr.full, &val, f} +#define OutputEnd(addr, val) {PartialMachineCycle::Output, HalfCycles(2), &addr.full, &val, false} -#define IntAck(length, val) {PartialMachineCycle::Interrupt, Cycles(length), nullptr, &val, false} -#define IntWait(val) {PartialMachineCycle::InterruptWait, Cycles(1), nullptr, &val, true} +#define IntAck(length, val) {PartialMachineCycle::Interrupt, HalfCycles(length), nullptr, &val, false} +#define IntWait(val) {PartialMachineCycle::InterruptWait, HalfCycles(2), nullptr, &val, true} // A wrapper to express a bus operation as a micro-op #define BusOp(op) {MicroOp::BusOperation, nullptr, nullptr, op} // Compound bus operations, as micro-ops -#define Read3(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(1, addr, val, true)), BusOp(ReadEnd(addr, val)) -#define Read4(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(1, addr, val, false)), BusOp(ReadWait(1, addr, val, true)), BusOp(ReadEnd(addr, val)) -#define Read5(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(2, addr, val, false)), BusOp(ReadWait(1, addr, val, true)), BusOp(ReadEnd(addr, val)) +#define Read3(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(2, addr, val, true)), BusOp(ReadEnd(addr, val)) +#define Read4(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(2, addr, val, false)), BusOp(ReadWait(2, addr, val, true)), BusOp(ReadEnd(addr, val)) +#define Read5(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(4, addr, val, false)), BusOp(ReadWait(2, addr, val, true)), BusOp(ReadEnd(addr, val)) -#define Write3(addr, val) BusOp(WriteStart(addr, val)), BusOp(WriteWait(1, addr, val, true)), BusOp(WriteEnd(addr, val)) -#define Write5(addr, val) BusOp(WriteStart(addr, val)), BusOp(WriteWait(2, addr, val, false)), BusOp(WriteWait(1, addr, val, true)), BusOp(WriteEnd(addr, val)) +#define Write3(addr, val) BusOp(WriteStart(addr, val)), BusOp(WriteWait(2, addr, val, true)), BusOp(WriteEnd(addr, val)) +#define Write5(addr, val) BusOp(WriteStart(addr, val)), BusOp(WriteWait(4, addr, val, false)), BusOp(WriteWait(2, addr, val, true)), BusOp(WriteEnd(addr, val)) #define Input(addr, val) BusOp(InputStart(addr, val)), BusOp(InputWait(addr, val, false)), BusOp(InputWait(addr, val, true)), BusOp(InputEnd(addr, val)) #define Output(addr, val) BusOp(OutputStart(addr, val)), BusOp(OutputWait(addr, val, false)), BusOp(OutputWait(addr, val, true)), BusOp(OutputEnd(addr, val)) -#define InternalOperation(len) {MicroOp::BusOperation, nullptr, nullptr, {PartialMachineCycle::Internal, len, nullptr, nullptr, false}} +#define InternalOperation(len) {MicroOp::BusOperation, nullptr, nullptr, {PartialMachineCycle::Internal, HalfCycles(len), nullptr, nullptr, false}} /// A sequence is a series of micro-ops that ends in a move-to-next-program operation. #define Sequence(...) { __VA_ARGS__, {MicroOp::MoveToNextProgram} } @@ -150,7 +150,7 @@ struct PartialMachineCycle { #define Instr(r, ...) Sequence(BusOp(Refresh(r)), __VA_ARGS__) /// A standard instruction is one with the most normal timing: two cycles of refresh, then the work. -#define StdInstr(...) Instr(2, __VA_ARGS__) +#define StdInstr(...) Instr(4, __VA_ARGS__) // Assumption made: those instructions that are rated with an opcode fetch greater than four cycles spend the extra time // providing a lengthened refresh cycle. I assume this because the CPU doesn't have foresight and presumably spends the @@ -183,7 +183,7 @@ template class Processor: public ClockReceiver> { uint8_t carry_result_; // the carry flag is set if bit 0 of carry_result_ is set uint8_t halt_mask_; - Cycles number_of_cycles_; + HalfCycles number_of_cycles_; enum Interrupt: uint8_t { IRQ = 0x01, @@ -328,7 +328,7 @@ template class Processor: public ClockReceiver> { #define Write16(addr, val) WriteInc(addr, val.bytes.low), Write3(addr, val.bytes.high) -#define INDEX() {MicroOp::IndexedPlaceHolder}, ReadInc(pc_, temp8_), InternalOperation(5), {MicroOp::CalculateIndexAddress, &index} +#define INDEX() {MicroOp::IndexedPlaceHolder}, ReadInc(pc_, temp8_), InternalOperation(10), {MicroOp::CalculateIndexAddress, &index} #define FINDEX() {MicroOp::IndexedPlaceHolder}, ReadInc(pc_, temp8_), {MicroOp::CalculateIndexAddress, &index} #define INDEX_ADDR() (add_offsets ? memptr_ : index) @@ -339,13 +339,13 @@ template class Processor: public ClockReceiver> { #define Pop7(x) Read3(sp_, x.bytes.low), {MicroOp::Increment16, &sp_.full}, Read4(sp_, x.bytes.high), {MicroOp::Increment16, &sp_.full} /* The following are actual instructions */ -#define NOP Sequence(BusOp(Refresh(2))) +#define NOP Sequence(BusOp(Refresh(4))) #define JP(cc) StdInstr(Read16Inc(pc_, temp16_), {MicroOp::cc, nullptr}, {MicroOp::Move16, &temp16_.full, &pc_.full}) #define CALL(cc) StdInstr(ReadInc(pc_, temp16_.bytes.low), {MicroOp::cc, conditional_call_untaken_program_.data()}, Read4Inc(pc_, temp16_.bytes.high), Push(pc_), {MicroOp::Move16, &temp16_.full, &pc_.full}) -#define RET(cc) Instr(3, {MicroOp::cc, nullptr}, Pop(memptr_), {MicroOp::Move16, &memptr_.full, &pc_.full}) -#define JR(cc) StdInstr(ReadInc(pc_, temp8_), {MicroOp::cc, nullptr}, InternalOperation(5), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}) -#define RST() Instr(3, {MicroOp::CalculateRSTDestination}, Push(pc_), {MicroOp::Move16, &memptr_.full, &pc_.full}) +#define RET(cc) Instr(6, {MicroOp::cc, nullptr}, Pop(memptr_), {MicroOp::Move16, &memptr_.full, &pc_.full}) +#define JR(cc) StdInstr(ReadInc(pc_, temp8_), {MicroOp::cc, nullptr}, InternalOperation(10), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}) +#define RST() Instr(6, {MicroOp::CalculateRSTDestination}, Push(pc_), {MicroOp::Move16, &memptr_.full, &pc_.full}) #define LD(a, b) StdInstr({MicroOp::Move8, &b, &a}) #define LD_GROUP(r, ri) \ @@ -398,9 +398,9 @@ template class Processor: public ClockReceiver> { StdInstr(Read4(INDEX_ADDR(), temp8_), {MicroOp::op, &temp8_}), \ StdInstr(Read4(INDEX_ADDR(), temp8_), {MicroOp::op, &temp8_}) -#define ADD16(d, s) StdInstr(InternalOperation(4), InternalOperation(3), {MicroOp::ADD16, &s.full, &d.full}) -#define ADC16(d, s) StdInstr(InternalOperation(4), InternalOperation(3), {MicroOp::ADC16, &s.full, &d.full}) -#define SBC16(d, s) StdInstr(InternalOperation(4), InternalOperation(3), {MicroOp::SBC16, &s.full, &d.full}) +#define ADD16(d, s) StdInstr(InternalOperation(8), InternalOperation(6), {MicroOp::ADD16, &s.full, &d.full}) +#define ADC16(d, s) StdInstr(InternalOperation(8), InternalOperation(6), {MicroOp::ADC16, &s.full, &d.full}) +#define SBC16(d, s) StdInstr(InternalOperation(8), InternalOperation(6), {MicroOp::SBC16, &s.full, &d.full}) #define isTerminal(n) (n == MicroOp::MoveToNextProgram || n == MicroOp::DecodeOperation || n == MicroOp::DecodeOperationNoRChange) @@ -465,27 +465,27 @@ template class Processor: public ClockReceiver> { /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(bc_.bytes.high), /* 0x42 SBC HL, BC */ SBC16(hl_, bc_), /* 0x43 LD (nn), BC */ StdInstr(Read16Inc(pc_, temp16_), Write16(temp16_, bc_)), /* 0x44 NEG */ StdInstr({MicroOp::NEG}), /* 0x45 RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x46 IM 0 */ StdInstr({MicroOp::IM}), /* 0x47 LD I, A */ Instr(3, {MicroOp::Move8, &a_, &ir_.bytes.high}), + /* 0x46 IM 0 */ StdInstr({MicroOp::IM}), /* 0x47 LD I, A */ Instr(6, {MicroOp::Move8, &a_, &ir_.bytes.high}), /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(bc_.bytes.low), /* 0x4a ADC HL, BC */ ADC16(hl_, bc_), /* 0x4b LD BC, (nn) */ StdInstr(Read16Inc(pc_, temp16_), Read16(temp16_, bc_)), /* 0x4c NEG */ StdInstr({MicroOp::NEG}), /* 0x4d RETI */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x4e IM 0/1 */ StdInstr({MicroOp::IM}), /* 0x4f LD R, A */ Instr(3, {MicroOp::Move8, &a_, &ir_.bytes.low}), + /* 0x4e IM 0/1 */ StdInstr({MicroOp::IM}), /* 0x4f LD R, A */ Instr(6, {MicroOp::Move8, &a_, &ir_.bytes.low}), /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(de_.bytes.high), /* 0x52 SBC HL, DE */ SBC16(hl_, de_), /* 0x53 LD (nn), DE */ StdInstr(Read16Inc(pc_, temp16_), Write16(temp16_, de_)), /* 0x54 NEG */ StdInstr({MicroOp::NEG}), /* 0x55 RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x56 IM 1 */ StdInstr({MicroOp::IM}), /* 0x57 LD A, I */ Instr(3, {MicroOp::Move8, &ir_.bytes.high, &a_}, {MicroOp::SetAFlags}), + /* 0x56 IM 1 */ StdInstr({MicroOp::IM}), /* 0x57 LD A, I */ Instr(6, {MicroOp::Move8, &ir_.bytes.high, &a_}, {MicroOp::SetAFlags}), /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(de_.bytes.low), /* 0x5a ADC HL, DE */ ADC16(hl_, de_), /* 0x5b LD DE, (nn) */ StdInstr(Read16Inc(pc_, temp16_), Read16(temp16_, de_)), /* 0x5c NEG */ StdInstr({MicroOp::NEG}), /* 0x5d RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x5e IM 2 */ StdInstr({MicroOp::IM}), /* 0x5f LD A, R */ Instr(3, {MicroOp::Move8, &ir_.bytes.low, &a_}, {MicroOp::SetAFlags}), + /* 0x5e IM 2 */ StdInstr({MicroOp::IM}), /* 0x5f LD A, R */ Instr(6, {MicroOp::Move8, &ir_.bytes.low, &a_}, {MicroOp::SetAFlags}), /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(hl_.bytes.high), /* 0x62 SBC HL, HL */ SBC16(hl_, hl_), /* 0x63 LD (nn), HL */ StdInstr(Read16Inc(pc_, temp16_), Write16(temp16_, hl_)), /* 0x64 NEG */ StdInstr({MicroOp::NEG}), /* 0x65 RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x66 IM 0 */ StdInstr({MicroOp::IM}), /* 0x67 RRD */ StdInstr(Read3(hl_, temp8_), InternalOperation(4), {MicroOp::RRD}, Write3(hl_, temp8_)), + /* 0x66 IM 0 */ StdInstr({MicroOp::IM}), /* 0x67 RRD */ StdInstr(Read3(hl_, temp8_), InternalOperation(8), {MicroOp::RRD}, Write3(hl_, temp8_)), /* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT(hl_.bytes.low), /* 0x6a ADC HL, HL */ ADC16(hl_, hl_), /* 0x6b LD HL, (nn) */ StdInstr(Read16Inc(pc_, temp16_), Read16(temp16_, hl_)), /* 0x6c NEG */ StdInstr({MicroOp::NEG}), /* 0x6d RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), - /* 0x6e IM 0/1 */ StdInstr({MicroOp::IM}), /* 0x6f RLD */ StdInstr(Read3(hl_, temp8_), InternalOperation(4), {MicroOp::RLD}, Write3(hl_, temp8_)), + /* 0x6e IM 0/1 */ StdInstr({MicroOp::IM}), /* 0x6f RLD */ StdInstr(Read3(hl_, temp8_), InternalOperation(8), {MicroOp::RLD}, Write3(hl_, temp8_)), /* 0x70 IN (C) */ IN_C(temp8_), /* 0x71 OUT (C), 0 */ StdInstr({MicroOp::SetZero}, Output(bc_, temp8_)), /* 0x72 SBC HL, SP */ SBC16(hl_, sp_), /* 0x73 LD (nn), SP */ StdInstr(Read16Inc(pc_, temp16_), Write16(temp16_, sp_)), /* 0x74 NEG */ StdInstr({MicroOp::NEG}), /* 0x75 RETN */ StdInstr(Pop(pc_), {MicroOp::RETN}), @@ -497,24 +497,24 @@ template class Processor: public ClockReceiver> { NOP_ROW(), /* 0x80 */ NOP_ROW(), /* 0x90 */ /* 0xa0 LDI */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDI}), - /* 0xa1 CPI */ StdInstr(Read3(hl_, temp8_), InternalOperation(5), {MicroOp::CPI}), - /* 0xa2 INI */ Instr(3, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INI}), - /* 0xa3 OTI */ Instr(3, Read3(hl_, temp8_), {MicroOp::OUTI}, Output(bc_, temp8_)), + /* 0xa1 CPI */ StdInstr(Read3(hl_, temp8_), InternalOperation(10), {MicroOp::CPI}), + /* 0xa2 INI */ Instr(6, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INI}), + /* 0xa3 OTI */ Instr(6, Read3(hl_, temp8_), {MicroOp::OUTI}, Output(bc_, temp8_)), NOP, NOP, NOP, NOP, /* 0xa8 LDD */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDD}), - /* 0xa9 CPD */ StdInstr(Read3(hl_, temp8_), InternalOperation(5), {MicroOp::CPD}), - /* 0xaa IND */ Instr(3, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::IND}), - /* 0xab OTD */ Instr(3, Read3(hl_, temp8_), {MicroOp::OUTD}, Output(bc_, temp8_)), + /* 0xa9 CPD */ StdInstr(Read3(hl_, temp8_), InternalOperation(10), {MicroOp::CPD}), + /* 0xaa IND */ Instr(6, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::IND}), + /* 0xab OTD */ Instr(6, Read3(hl_, temp8_), {MicroOp::OUTD}, Output(bc_, temp8_)), NOP, NOP, NOP, NOP, - /* 0xb0 LDIR */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDIR}, InternalOperation(5)), - /* 0xb1 CPIR */ StdInstr(Read3(hl_, temp8_), InternalOperation(5), {MicroOp::CPIR}, InternalOperation(5)), - /* 0xb2 INIR */ Instr(3, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INIR}, InternalOperation(5)), - /* 0xb3 OTIR */ Instr(3, Read3(hl_, temp8_), {MicroOp::OUTI}, Output(bc_, temp8_), {MicroOp::OUT_R}, InternalOperation(5)), + /* 0xb0 LDIR */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDIR}, InternalOperation(10)), + /* 0xb1 CPIR */ StdInstr(Read3(hl_, temp8_), InternalOperation(10), {MicroOp::CPIR}, InternalOperation(10)), + /* 0xb2 INIR */ Instr(6, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INIR}, InternalOperation(10)), + /* 0xb3 OTIR */ Instr(6, Read3(hl_, temp8_), {MicroOp::OUTI}, Output(bc_, temp8_), {MicroOp::OUT_R}, InternalOperation(10)), NOP, NOP, NOP, NOP, - /* 0xb8 LDDR */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDDR}, InternalOperation(5)), - /* 0xb9 CPDR */ StdInstr(Read3(hl_, temp8_), InternalOperation(5), {MicroOp::CPDR}, InternalOperation(5)), - /* 0xba INDR */ Instr(3, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INDR}, InternalOperation(5)), - /* 0xbb OTDR */ Instr(3, Read3(hl_, temp8_), {MicroOp::OUTD}, Output(bc_, temp8_), {MicroOp::OUT_R}, InternalOperation(5)), + /* 0xb8 LDDR */ StdInstr(Read3(hl_, temp8_), Write5(de_, temp8_), {MicroOp::LDDR}, InternalOperation(10)), + /* 0xb9 CPDR */ StdInstr(Read3(hl_, temp8_), InternalOperation(10), {MicroOp::CPDR}, InternalOperation(10)), + /* 0xba INDR */ Instr(6, Input(bc_, temp8_), Write3(hl_, temp8_), {MicroOp::INDR}, InternalOperation(10)), + /* 0xbb OTDR */ Instr(6, Read3(hl_, temp8_), {MicroOp::OUTD}, Output(bc_, temp8_), {MicroOp::OUT_R}, InternalOperation(10)), NOP, NOP, NOP, NOP, NOP_ROW(), /* 0xc0 */ NOP_ROW(), /* 0xd0 */ @@ -559,10 +559,10 @@ template class Processor: public ClockReceiver> { StdInstr(ReadInc(pc_, r)) #define INC_INC_DEC_LD(rf, r) \ - Instr(4, {MicroOp::Increment16, &rf.full}), INC_DEC_LD(r) + Instr(8, {MicroOp::Increment16, &rf.full}), INC_DEC_LD(r) #define DEC_INC_DEC_LD(rf, r) \ - Instr(4, {MicroOp::Decrement16, &rf.full}), INC_DEC_LD(r) + Instr(8, {MicroOp::Decrement16, &rf.full}), INC_DEC_LD(r) InstructionTable base_program_table = { /* 0x00 NOP */ NOP, /* 0x01 LD BC, nn */ StdInstr(Read16Inc(pc_, bc_)), @@ -579,7 +579,7 @@ template class Processor: public ClockReceiver> { DEC_INC_DEC_LD(bc_, bc_.bytes.low), /* 0x0f RRCA */ StdInstr({MicroOp::RRCA}), - /* 0x10 DJNZ */ Instr(3, ReadInc(pc_, temp8_), {MicroOp::DJNZ}, InternalOperation(5), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}), + /* 0x10 DJNZ */ Instr(6, ReadInc(pc_, temp8_), {MicroOp::DJNZ}, InternalOperation(10), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}), /* 0x11 LD DE, nn */ StdInstr(Read16Inc(pc_, de_)), /* 0x12 LD (DE), A */ StdInstr({MicroOp::Move16, &de_.full, &memptr_.full}, Write3(memptr_, a_)), @@ -587,7 +587,7 @@ template class Processor: public ClockReceiver> { INC_INC_DEC_LD(de_, de_.bytes.high), /* 0x17 RLA */ StdInstr({MicroOp::RLA}), - /* 0x18 JR */ StdInstr(ReadInc(pc_, temp8_), InternalOperation(5), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}), + /* 0x18 JR */ StdInstr(ReadInc(pc_, temp8_), InternalOperation(10), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full}), /* 0x19 ADD HL, DE */ ADD16(index, de_), /* 0x1a LD A, (DE) */ StdInstr({MicroOp::Move16, &de_.full, &memptr_.full}, Read3(memptr_, a_)), @@ -611,7 +611,7 @@ template class Processor: public ClockReceiver> { /* 0x2f CPL */ StdInstr({MicroOp::CPL}), /* 0x30 JR NC */ JR(TestNC), /* 0x31 LD SP, nn */ StdInstr(Read16Inc(pc_, sp_)), /* 0x32 LD (nn), A */ StdInstr(Read16Inc(pc_, temp16_), Write3(temp16_, a_)), - /* 0x33 INC SP */ Instr(4, {MicroOp::Increment16, &sp_.full}), + /* 0x33 INC SP */ Instr(8, {MicroOp::Increment16, &sp_.full}), /* 0x34 INC (HL) */ StdInstr(INDEX(), Read4(INDEX_ADDR(), temp8_), {MicroOp::Increment8, &temp8_}, Write3(INDEX_ADDR(), temp8_)), /* 0x35 DEC (HL) */ StdInstr(INDEX(), Read4(INDEX_ADDR(), temp8_), {MicroOp::Decrement8, &temp8_}, Write3(INDEX_ADDR(), temp8_)), /* 0x36 LD (HL), n */ StdInstr(ReadInc(pc_, temp8_), Write3(INDEX_ADDR(), temp8_)), @@ -619,7 +619,7 @@ template class Processor: public ClockReceiver> { /* 0x38 JR C */ JR(TestC), /* 0x39 ADD HL, SP */ ADD16(index, sp_), /* 0x3a LD A, (nn) */ StdInstr(Read16Inc(pc_, memptr_), Read3(memptr_, a_)), - /* 0x3b DEC SP */ Instr(4, {MicroOp::Decrement16, &sp_.full}), + /* 0x3b DEC SP */ Instr(8, {MicroOp::Decrement16, &sp_.full}), /* 0x3c INC A; 0x3d DEC A; 0x3e LD A, n */ INC_DEC_LD(a_), @@ -682,7 +682,7 @@ template class Processor: public ClockReceiver> { /* 0xc0 RET NZ */ RET(TestNZ), /* 0xc1 POP BC */ StdInstr(Pop(bc_)), /* 0xc2 JP NZ */ JP(TestNZ), /* 0xc3 JP nn */ StdInstr(Read16(pc_, temp16_), {MicroOp::Move16, &temp16_.full, &pc_.full}), - /* 0xc4 CALL NZ */ CALL(TestNZ), /* 0xc5 PUSH BC */ Instr(3, Push(bc_)), + /* 0xc4 CALL NZ */ CALL(TestNZ), /* 0xc5 PUSH BC */ Instr(6, Push(bc_)), /* 0xc6 ADD A, n */ StdInstr(ReadInc(pc_, temp8_), {MicroOp::ADD8, &temp8_}), /* 0xc7 RST 00h */ RST(), /* 0xc8 RET Z */ RET(TestZ), /* 0xc9 RET */ StdInstr(Pop(pc_)), @@ -692,7 +692,7 @@ template class Processor: public ClockReceiver> { /* 0xcf RST 08h */ RST(), /* 0xd0 RET NC */ RET(TestNC), /* 0xd1 POP DE */ StdInstr(Pop(de_)), /* 0xd2 JP NC */ JP(TestNC), /* 0xd3 OUT (n), A */StdInstr(ReadInc(pc_, temp16_.bytes.low), {MicroOp::Move8, &a_, &temp16_.bytes.high}, Output(temp16_, a_)), - /* 0xd4 CALL NC */ CALL(TestNC), /* 0xd5 PUSH DE */ Instr(3, Push(de_)), + /* 0xd4 CALL NC */ CALL(TestNC), /* 0xd5 PUSH DE */ Instr(6, Push(de_)), /* 0xd6 SUB n */ StdInstr(ReadInc(pc_, temp8_), {MicroOp::SUB8, &temp8_}), /* 0xd7 RST 10h */ RST(), /* 0xd8 RET C */ RET(TestC), /* 0xd9 EXX */ StdInstr({MicroOp::EXX}), @@ -702,7 +702,7 @@ template class Processor: public ClockReceiver> { /* 0xdf RST 18h */ RST(), /* 0xe0 RET PO */ RET(TestPO), /* 0xe1 POP HL */ StdInstr(Pop(index)), /* 0xe2 JP PO */ JP(TestPO), /* 0xe3 EX (SP), HL */StdInstr(Pop7(memptr_), Push8(index), {MicroOp::Move16, &memptr_.full, &index.full}), - /* 0xe4 CALL PO */ CALL(TestPO), /* 0xe5 PUSH HL */ Instr(3, Push(index)), + /* 0xe4 CALL PO */ CALL(TestPO), /* 0xe5 PUSH HL */ Instr(6, Push(index)), /* 0xe6 AND n */ StdInstr(ReadInc(pc_, temp8_), {MicroOp::And, &temp8_}), /* 0xe7 RST 20h */ RST(), /* 0xe8 RET PE */ RET(TestPE), /* 0xe9 JP (HL) */ StdInstr({MicroOp::Move16, &index.full, &pc_.full}), @@ -712,10 +712,10 @@ template class Processor: public ClockReceiver> { /* 0xef RST 28h */ RST(), /* 0xf0 RET p */ RET(TestP), /* 0xf1 POP AF */ StdInstr(Pop(temp16_), {MicroOp::DisassembleAF}), /* 0xf2 JP P */ JP(TestP), /* 0xf3 DI */ StdInstr({MicroOp::DI}), - /* 0xf4 CALL P */ CALL(TestP), /* 0xf5 PUSH AF */ Instr(3, {MicroOp::AssembleAF}, Push(temp16_)), + /* 0xf4 CALL P */ CALL(TestP), /* 0xf5 PUSH AF */ Instr(6, {MicroOp::AssembleAF}, Push(temp16_)), /* 0xf6 OR n */ StdInstr(ReadInc(pc_, temp8_), {MicroOp::Or, &temp8_}), /* 0xf7 RST 30h */ RST(), - /* 0xf8 RET M */ RET(TestM), /* 0xf9 LD SP, HL */Instr(4, {MicroOp::Move16, &index.full, &sp_.full}), + /* 0xf8 RET M */ RET(TestM), /* 0xf9 LD SP, HL */Instr(8, {MicroOp::Move16, &index.full, &sp_.full}), /* 0xfa JP M */ JP(TestM), /* 0xfb EI */ StdInstr({MicroOp::EI}), /* 0xfc CALL M */ CALL(TestM), /* 0xfd [FD page] */StdInstr({MicroOp::SetInstructionPage, &fd_page_}), /* 0xfe CP n */ StdInstr(ReadInc(pc_, temp8_), {MicroOp::CP8, &temp8_}), @@ -738,13 +738,13 @@ template class Processor: public ClockReceiver> { void assemble_fetch_decode_execute(InstructionPage &target, int length) { const MicroOp normal_fetch_decode_execute[] = { BusOp(ReadOpcodeStart()), - BusOp(ReadOpcodeWait(1, true)), + BusOp(ReadOpcodeWait(true)), { MicroOp::DecodeOperation } }; const MicroOp short_fetch_decode_execute[] = { BusOp(ReadOpcodeStart()), - BusOp(ReadOpcodeWait(1, false)), - BusOp(ReadOpcodeWait(1, true)), + BusOp(ReadOpcodeWait(false)), + BusOp(ReadOpcodeWait(true)), { MicroOp::DecodeOperation } }; copy_program((length == 4) ? normal_fetch_decode_execute : short_fetch_decode_execute, target.fetch_decode_execute); @@ -802,7 +802,7 @@ template class Processor: public ClockReceiver> { assemble_fetch_decode_execute(fdcb_page_, 3); assemble_fetch_decode_execute(ddcb_page_, 3); - MicroOp reset_program[] = Sequence(InternalOperation(3), {MicroOp::Reset}); + MicroOp reset_program[] = Sequence(InternalOperation(6), {MicroOp::Reset}); // Justification for NMI timing: per Wilf Rigter on the ZX81 (http://www.user.dccnet.com/wrigter/index_files/ZX81WAIT.htm), // wait cycles occur between T2 and T3 during NMI; extending the refresh cycle is also consistent with my guess @@ -810,32 +810,32 @@ template class Processor: public ClockReceiver> { MicroOp nmi_program[] = { { MicroOp::BeginNMI }, BusOp(ReadOpcodeStart()), - BusOp(ReadOpcodeWait(1, true)), - BusOp(Refresh(3)), + BusOp(ReadOpcodeWait(true)), + BusOp(Refresh(6)), Push(pc_), { MicroOp::JumpTo66, nullptr, nullptr}, { MicroOp::MoveToNextProgram } }; MicroOp irq_mode0_program[] = { { MicroOp::BeginIRQMode0 }, - BusOp(IntAck(4, operation_)), + BusOp(IntAck(8, operation_)), BusOp(IntWait(operation_)), { MicroOp::DecodeOperationNoRChange } }; MicroOp irq_mode1_program[] = { { MicroOp::BeginIRQ }, - BusOp(IntAck(5, operation_)), + BusOp(IntAck(10, operation_)), BusOp(IntWait(operation_)), - BusOp(Refresh(2)), + BusOp(Refresh(4)), Push(pc_), { MicroOp::Move16, &temp16_.full, &pc_.full }, { MicroOp::MoveToNextProgram } }; MicroOp irq_mode2_program[] = { { MicroOp::BeginIRQ }, - BusOp(IntAck(5, temp16_.bytes.low)), + BusOp(IntAck(10, temp16_.bytes.low)), BusOp(IntWait(temp16_.bytes.low)), - BusOp(Refresh(2)), + BusOp(Refresh(4)), Push(pc_), { MicroOp::Move8, &ir_.bytes.high, &temp16_.bytes.high }, Read16(temp16_, pc_), @@ -859,7 +859,7 @@ template class Processor: public ClockReceiver> { @param cycles The number of cycles to run for. */ - void run_for(const Cycles &cycles) { + void run_for(const HalfCycles &cycles) { #define advance_operation() \ pc_increment_ = 1; \ @@ -887,8 +887,8 @@ template class Processor: public ClockReceiver> { while(1) { while(bus_request_line_) { - static PartialMachineCycle bus_acknowledge_cycle = {PartialMachineCycle::BusAcknowledge, 1, nullptr, nullptr, false}; - number_of_cycles_ -= static_cast(this)->perform_machine_cycle(bus_acknowledge_cycle) + Cycles(1); + static PartialMachineCycle bus_acknowledge_cycle = {PartialMachineCycle::BusAcknowledge, HalfCycles(2), nullptr, nullptr, false}; + number_of_cycles_ -= static_cast(this)->perform_machine_cycle(bus_acknowledge_cycle) + HalfCycles(1); if(!number_of_cycles_) { static_cast(this)->flush(); return; @@ -1703,8 +1703,8 @@ template class Processor: public ClockReceiver> { */ void flush() {} - Cycles perform_machine_cycle(const PartialMachineCycle &cycle) { - return Cycles(0); + HalfCycles perform_machine_cycle(const PartialMachineCycle &cycle) { + return HalfCycles(0); } /*! diff --git a/Processors/Z80/Z80AllRAM.cpp b/Processors/Z80/Z80AllRAM.cpp index 982231fc3..63a6744df 100644 --- a/Processors/Z80/Z80AllRAM.cpp +++ b/Processors/Z80/Z80AllRAM.cpp @@ -57,7 +57,7 @@ class ConcreteAllRAMProcessor: public AllRAMProcessor, public Processorz80_all_ram_processor_did_perform_bus_operation(*this, cycle.operation, address, cycle.value ? *cycle.value : 0x00, timestamp_); + delegate_->z80_all_ram_processor_did_perform_bus_operation(*this, cycle.operation, address, cycle.value ? *cycle.value : 0x00, timestamp_ >> 1); } return Cycles(0); @@ -94,6 +94,10 @@ class ConcreteAllRAMProcessor: public AllRAMProcessor, public Processor::set_wait_line(value); } + + uint32_t get_timestamp() { + return timestamp_ >> 1; + } }; } diff --git a/Processors/Z80/Z80AllRAM.hpp b/Processors/Z80/Z80AllRAM.hpp index 9b68d1054..972401fbd 100644 --- a/Processors/Z80/Z80AllRAM.hpp +++ b/Processors/Z80/Z80AllRAM.hpp @@ -38,6 +38,8 @@ class AllRAMProcessor: virtual void set_non_maskable_interrupt_line(bool value) = 0; virtual void set_wait_line(bool value) = 0; + virtual uint32_t get_timestamp() = 0; + protected: MemoryAccessDelegate *delegate_; AllRAMProcessor() : ::CPU::AllRAMProcessor(65536), delegate_(nullptr) {}