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//
// Z80Storage.cpp
// Clock Signal
//
// Created by Thomas Harte on 04/09/2017.
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// Copyright 2017 Thomas Harte. All rights reserved.
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//
# include "../Z80.hpp"
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# include <cstring>
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using namespace CPU : : Z80 ;
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ProcessorStorage : : ProcessorStorage ( ) {
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set_flags ( 0xff ) ;
}
// Elemental bus operations
# define ReadOpcodeStart() PartialMachineCycle(PartialMachineCycle::ReadOpcodeStart, HalfCycles(3), &pc_.full, &operation_, false)
# define ReadOpcodeWait(f) PartialMachineCycle(PartialMachineCycle::ReadOpcodeWait, HalfCycles(2), &pc_.full, &operation_, f)
# define ReadOpcodeEnd() PartialMachineCycle(PartialMachineCycle::ReadOpcode, HalfCycles(1), &pc_.full, &operation_, false)
# define Refresh(len) PartialMachineCycle(PartialMachineCycle::Refresh, HalfCycles(len), &refresh_addr_.full, nullptr, false)
# define ReadStart(addr, val) PartialMachineCycle(PartialMachineCycle::ReadStart, HalfCycles(3), &addr.full, &val, false)
# define ReadWait(l, addr, val, f) PartialMachineCycle(PartialMachineCycle::ReadWait, HalfCycles(l), &addr.full, &val, f)
# define ReadEnd(addr, val) PartialMachineCycle(PartialMachineCycle::Read, HalfCycles(3), &addr.full, &val, false)
# define WriteStart(addr, val) PartialMachineCycle(PartialMachineCycle::WriteStart,HalfCycles(3), &addr.full, &val, false)
# define WriteWait(l, addr, val, f) PartialMachineCycle(PartialMachineCycle::WriteWait, HalfCycles(l), &addr.full, &val, f)
# define WriteEnd(addr, val) PartialMachineCycle(PartialMachineCycle::Write, HalfCycles(3), &addr.full, &val, false)
# define InputStart(addr, val) PartialMachineCycle(PartialMachineCycle::InputStart, HalfCycles(3), &addr.full, &val, false)
# define InputWait(addr, val, f) PartialMachineCycle(PartialMachineCycle::InputWait, HalfCycles(2), &addr.full, &val, f)
# define InputEnd(addr, val) PartialMachineCycle(PartialMachineCycle::Input, HalfCycles(3), &addr.full, &val, false)
# define OutputStart(addr, val) PartialMachineCycle(PartialMachineCycle::OutputStart, HalfCycles(3), &addr.full, &val, false)
# define OutputWait(addr, val, f) PartialMachineCycle(PartialMachineCycle::OutputWait, HalfCycles(2), &addr.full, &val, f)
# define OutputEnd(addr, val) PartialMachineCycle(PartialMachineCycle::Output, HalfCycles(3), &addr.full, &val, false)
# define IntAckStart(length, val) PartialMachineCycle(PartialMachineCycle::InterruptStart, HalfCycles(length), nullptr, &val, false)
# define IntWait(val) PartialMachineCycle(PartialMachineCycle::InterruptWait, HalfCycles(2), nullptr, &val, true)
# define IntAckEnd(val) PartialMachineCycle(PartialMachineCycle::Interrupt, HalfCycles(3), nullptr, &val, false)
// 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
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// Read3 is a standard read cycle: 1.5 cycles, then check the wait line, then 1.5 cycles;
// Read4 is a four-cycle read that has to do something to calculate the address: 1.5 cycles, then an extra wait cycle, then check the wait line, then 1.5 cycles;
// Read4Pre is a four-cycle read that has to do something after reading: 1.5 cycles, then check the wait line, then an extra wait cycle, then 1.5 cycles;
// Read5 is a five-cycle read: 1.5 cycles, two wait cycles, check the wait line, 1.5 cycles.
# 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 Read4Pre(addr, val) BusOp(ReadStart(addr, val)), BusOp(ReadWait(2, addr, val, true)), BusOp(ReadWait(2, addr, val, false)), 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))
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# 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, HalfCycles(len), nullptr, nullptr, false}}
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/// A sequence is a series of micro-ops that ends in a move-to-next-program operation.
# define Sequence(...) { __VA_ARGS__, {MicroOp::MoveToNextProgram} }
/// An instruction is the part of an instruction that follows instruction fetch; it should include two or more refresh cycles and then the work of the instruction.
# 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(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
// normal refresh time decoding. So if it gets to cycle four and realises it has two more cycles of work, I have assumed
// it simply maintains the refresh state for an extra two cycles.
/* The following are helper macros that define common parts of instructions */
# define Inc16(r) {(&r == &pc_) ? MicroOp::IncrementPC : MicroOp::Increment16, &r.full}
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# define Inc8NoFlags(r) {MicroOp::Increment8NoFlags, &r}
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# define ReadInc(addr, val) Read3(addr, val), Inc16(addr)
# define Read4Inc(addr, val) Read4(addr, val), Inc16(addr)
# define Read5Inc(addr, val) Read5(addr, val), Inc16(addr)
# define WriteInc(addr, val) Write3(addr, val), {MicroOp::Increment16, &addr.full}
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# define Read16Inc(addr, val) ReadInc(addr, val.halves.low), ReadInc(addr, val.halves.high)
# define Read16(addr, val) ReadInc(addr, val.halves.low), Read3(addr, val.halves.high)
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# define Write16(addr, val) WriteInc(addr, val.halves.low), Write3(addr, val.halves.high)
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# 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)
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# define Push(x) {MicroOp::Decrement16, &sp_.full}, Write3(sp_, x.halves.high), {MicroOp::Decrement16, &sp_.full}, Write3(sp_, x.halves.low)
# define Pop(x) Read3(sp_, x.halves.low), {MicroOp::Increment16, &sp_.full}, Read3(sp_, x.halves.high), {MicroOp::Increment16, &sp_.full}
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# define Push8(x) {MicroOp::Decrement16, &sp_.full}, Write3(sp_, x.halves.high), {MicroOp::Decrement16, &sp_.full}, Write5(sp_, x.halves.low)
# define Pop7(x) Read3(sp_, x.halves.low), {MicroOp::Increment16, &sp_.full}, Read4(sp_, x.halves.high), {MicroOp::Increment16, &sp_.full}
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/* The following are actual instructions */
# define NOP Sequence(BusOp(Refresh(4)))
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# define JP(cc) StdInstr(Read16Inc(pc_, memptr_), {MicroOp::cc, nullptr}, {MicroOp::Move16, &memptr_.full, &pc_.full})
# define CALL(cc) StdInstr(ReadInc(pc_, memptr_.halves.low), {MicroOp::cc, conditional_call_untaken_program_.data()}, Read4Inc(pc_, memptr_.halves.high), Push(pc_), {MicroOp::Move16, &memptr_.full, &pc_.full})
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# define RET(cc) Instr(6, {MicroOp::cc, nullptr}, Pop(memptr_), {MicroOp::Move16, &memptr_.full, &pc_.full})
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# define JR(cc) StdInstr(ReadInc(pc_, temp8_), {MicroOp::cc, nullptr}, InternalOperation(10), {MicroOp::CalculateIndexAddress, &pc_.full}, {MicroOp::Move16, &memptr_.full, &pc_.full})
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# 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) \
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LD ( r , bc_ . halves . high ) , LD ( r , bc_ . halves . low ) , LD ( r , de_ . halves . high ) , LD ( r , de_ . halves . low ) , \
LD ( r , index . halves . high ) , LD ( r , index . halves . low ) , \
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StdInstr ( INDEX ( ) , Read3 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : Move8 , & temp8_ , & ri } ) , \
LD ( r , a_ )
# define READ_OP_GROUP(op) \
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StdInstr ( { MicroOp : : op , & bc_ . halves . high } ) , StdInstr ( { MicroOp : : op , & bc_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & de_ . halves . high } ) , StdInstr ( { MicroOp : : op , & de_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & index . halves . high } ) , StdInstr ( { MicroOp : : op , & index . halves . low } ) , \
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StdInstr ( INDEX ( ) , Read3 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( { MicroOp : : op , & a_ } )
# define READ_OP_GROUP_D(op) \
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StdInstr ( { MicroOp : : op , & bc_ . halves . high } ) , StdInstr ( { MicroOp : : op , & bc_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & de_ . halves . high } ) , StdInstr ( { MicroOp : : op , & de_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & index . halves . high } ) , StdInstr ( { MicroOp : : op , & index . halves . low } ) , \
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StdInstr ( INDEX ( ) , Read4Pre ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
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StdInstr ( { MicroOp : : op , & a_ } )
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# define RMW(x, op, ...) StdInstr(INDEX(), Read4Pre(INDEX_ADDR(), x), {MicroOp::op, &x}, Write3(INDEX_ADDR(), x))
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# define RMWI(x, op, ...) StdInstr(Read4(INDEX_ADDR(), x), {MicroOp::op, &x}, Write3(INDEX_ADDR(), x))
# define MODIFY_OP_GROUP(op) \
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StdInstr ( { MicroOp : : op , & bc_ . halves . high } ) , StdInstr ( { MicroOp : : op , & bc_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & de_ . halves . high } ) , StdInstr ( { MicroOp : : op , & de_ . halves . low } ) , \
StdInstr ( { MicroOp : : op , & index . halves . high } ) , StdInstr ( { MicroOp : : op , & index . halves . low } ) , \
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RMW ( temp8_ , op ) , \
StdInstr ( { MicroOp : : op , & a_ } )
# define IX_MODIFY_OP_GROUP(op) \
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RMWI ( bc_ . halves . high , op ) , \
RMWI ( bc_ . halves . low , op ) , \
RMWI ( de_ . halves . high , op ) , \
RMWI ( de_ . halves . low , op ) , \
RMWI ( hl_ . halves . high , op ) , \
RMWI ( hl_ . halves . low , op ) , \
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RMWI ( temp8_ , op ) , \
RMWI ( a_ , op )
# define IX_READ_OP_GROUP(op) \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } ) , \
StdInstr ( Read4 ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : op , & temp8_ } )
# 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})
void ProcessorStorage : : install_default_instruction_set ( ) {
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MicroOp conditional_call_untaken_program [ ] = Sequence ( ReadInc ( pc_ , memptr_ . halves . high ) ) ;
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copy_program ( conditional_call_untaken_program , conditional_call_untaken_program_ ) ;
assemble_base_page ( base_page_ , hl_ , false , cb_page_ ) ;
assemble_base_page ( dd_page_ , ix_ , true , ddcb_page_ ) ;
assemble_base_page ( fd_page_ , iy_ , true , fdcb_page_ ) ;
assemble_ed_page ( ed_page_ ) ;
fdcb_page_ . r_step = 0 ;
fd_page_ . is_indexed = true ;
fdcb_page_ . is_indexed = true ;
ddcb_page_ . r_step = 0 ;
dd_page_ . is_indexed = true ;
ddcb_page_ . is_indexed = true ;
assemble_fetch_decode_execute ( base_page_ , 4 ) ;
assemble_fetch_decode_execute ( dd_page_ , 4 ) ;
assemble_fetch_decode_execute ( fd_page_ , 4 ) ;
assemble_fetch_decode_execute ( ed_page_ , 4 ) ;
assemble_fetch_decode_execute ( cb_page_ , 4 ) ;
assemble_fetch_decode_execute ( fdcb_page_ , 3 ) ;
assemble_fetch_decode_execute ( ddcb_page_ , 3 ) ;
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
// for the action of other non-four-cycle opcode fetches
MicroOp nmi_program [ ] = {
{ MicroOp : : BeginNMI } ,
BusOp ( ReadOpcodeStart ( ) ) ,
BusOp ( ReadOpcodeWait ( true ) ) ,
BusOp ( ReadOpcodeEnd ( ) ) ,
BusOp ( Refresh ( 6 ) ) ,
Push ( pc_ ) ,
{ MicroOp : : JumpTo66 , nullptr , nullptr } ,
{ MicroOp : : MoveToNextProgram }
} ;
MicroOp irq_mode0_program [ ] = {
{ MicroOp : : BeginIRQMode0 } ,
BusOp ( IntAckStart ( 5 , operation_ ) ) ,
BusOp ( IntWait ( operation_ ) ) ,
BusOp ( IntAckEnd ( operation_ ) ) ,
{ MicroOp : : DecodeOperationNoRChange }
} ;
MicroOp irq_mode1_program [ ] = {
{ MicroOp : : BeginIRQ } ,
BusOp ( IntAckStart ( 7 , operation_ ) ) , // 7 half cycles (including +
BusOp ( IntWait ( operation_ ) ) , // [potentially 2 half cycles] +
BusOp ( IntAckEnd ( operation_ ) ) , // Implicitly 3 half cycles +
BusOp ( Refresh ( 4 ) ) , // 4 half cycles +
Push ( pc_ ) , // 12 half cycles = 26 half cycles = 13 cycles
{ MicroOp : : Move16 , & temp16_ . full , & pc_ . full } ,
{ MicroOp : : MoveToNextProgram }
} ;
MicroOp irq_mode2_program [ ] = {
{ MicroOp : : BeginIRQ } ,
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BusOp ( IntAckStart ( 7 , temp16_ . halves . low ) ) ,
BusOp ( IntWait ( temp16_ . halves . low ) ) ,
BusOp ( IntAckEnd ( temp16_ . halves . low ) ) ,
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BusOp ( Refresh ( 4 ) ) ,
Push ( pc_ ) ,
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{ MicroOp : : Move8 , & ir_ . halves . high , & temp16_ . halves . high } ,
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Read16 ( temp16_ , pc_ ) ,
{ MicroOp : : MoveToNextProgram }
} ;
copy_program ( reset_program , reset_program_ ) ;
copy_program ( nmi_program , nmi_program_ ) ;
copy_program ( irq_mode0_program , irq_program_ [ 0 ] ) ;
copy_program ( irq_mode1_program , irq_program_ [ 1 ] ) ;
copy_program ( irq_mode2_program , irq_program_ [ 2 ] ) ;
}
void ProcessorStorage : : assemble_ed_page ( InstructionPage & target ) {
# define IN_C(r) StdInstr(Input(bc_, r), {MicroOp::SetInFlags, &r})
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# define OUT_C(r) StdInstr(Output(bc_, r), {MicroOp::SetOutFlags, &r})
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# define IN_OUT(r) IN_C(r), OUT_C(r)
# define NOP_ROW() NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP, NOP
InstructionTable ed_program_table = {
NOP_ROW ( ) , /* 0x00 */
NOP_ROW ( ) , /* 0x10 */
NOP_ROW ( ) , /* 0x20 */
NOP_ROW ( ) , /* 0x30 */
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/* 0x40 IN B, (C); 0x41 OUT (C), B */ IN_OUT ( bc_ . halves . high ) ,
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/* 0x42 SBC HL, BC */ SBC16 ( hl_ , bc_ ) , /* 0x43 LD (nn), BC */ StdInstr ( Read16Inc ( pc_ , memptr_ ) , Write16 ( memptr_ , bc_ ) ) ,
/* 0x44 NEG */ StdInstr ( { MicroOp : : NEG } ) , /* 0x45 RETN */ StdInstr ( Pop ( pc_ ) , { MicroOp : : RETN } ) ,
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/* 0x46 IM 0 */ StdInstr ( { MicroOp : : IM } ) , /* 0x47 LD I, A */ Instr ( 6 , { MicroOp : : Move8 , & a_ , & ir_ . halves . high } ) ,
/* 0x48 IN C, (C); 0x49 OUT (C), C */ IN_OUT ( bc_ . halves . low ) ,
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/* 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 } ) ,
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/* 0x4e IM 0/1 */ StdInstr ( { MicroOp : : IM } ) , /* 0x4f LD R, A */ Instr ( 6 , { MicroOp : : Move8 , & a_ , & ir_ . halves . low } ) ,
/* 0x50 IN D, (C); 0x51 OUT (C), D */ IN_OUT ( de_ . halves . high ) ,
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/* 0x52 SBC HL, DE */ SBC16 ( hl_ , de_ ) , /* 0x53 LD (nn), DE */ StdInstr ( Read16Inc ( pc_ , memptr_ ) , Write16 ( memptr_ , de_ ) ) ,
/* 0x54 NEG */ StdInstr ( { MicroOp : : NEG } ) , /* 0x55 RETN */ StdInstr ( Pop ( pc_ ) , { MicroOp : : RETN } ) ,
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/* 0x56 IM 1 */ StdInstr ( { MicroOp : : IM } ) , /* 0x57 LD A, I */ Instr ( 6 , { MicroOp : : Move8 , & ir_ . halves . high , & a_ } , { MicroOp : : SetAFlags } ) ,
/* 0x58 IN E, (C); 0x59 OUT (C), E */ IN_OUT ( de_ . halves . low ) ,
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/* 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 } ) ,
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/* 0x5e IM 2 */ StdInstr ( { MicroOp : : IM } ) , /* 0x5f LD A, R */ Instr ( 6 , { MicroOp : : Move8 , & ir_ . halves . low , & a_ } , { MicroOp : : SetAFlags } ) ,
/* 0x60 IN H, (C); 0x61 OUT (C), H */ IN_OUT ( hl_ . halves . high ) ,
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/* 0x62 SBC HL, HL */ SBC16 ( hl_ , hl_ ) , /* 0x63 LD (nn), HL */ StdInstr ( Read16Inc ( pc_ , memptr_ ) , Write16 ( memptr_ , 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 ( 8 ) , { MicroOp : : RRD } , Write3 ( hl_ , temp8_ ) ) ,
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/* 0x68 IN L, (C); 0x69 OUT (C), L */ IN_OUT ( hl_ . halves . low ) ,
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/* 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 ( 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_ , memptr_ ) , Write16 ( memptr_ , sp_ ) ) ,
/* 0x74 NEG */ StdInstr ( { MicroOp : : NEG } ) , /* 0x75 RETN */ StdInstr ( Pop ( pc_ ) , { MicroOp : : RETN } ) ,
/* 0x76 IM 1 */ StdInstr ( { MicroOp : : IM } ) , /* 0x77 XX */ NOP ,
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/* 0x78 IN A, (C); 0x79 OUT (C), A */ IN_OUT ( a_ ) ,
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/* 0x7a ADC HL, SP */ ADC16 ( hl_ , sp_ ) , /* 0x7b LD SP, (nn) */ StdInstr ( Read16Inc ( pc_ , temp16_ ) , Read16 ( temp16_ , sp_ ) ) ,
/* 0x7c NEG */ StdInstr ( { MicroOp : : NEG } ) , /* 0x7d RETN */ StdInstr ( Pop ( pc_ ) , { MicroOp : : RETN } ) ,
/* 0x7e IM 2 */ StdInstr ( { MicroOp : : IM } ) , /* 0x7f XX */ NOP ,
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NOP_ROW ( ) , /* 0x80 ... 0x8f */
NOP_ROW ( ) , /* 0x90 ... 0x9f */
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/* 0xa0 LDI */ StdInstr ( Read3 ( hl_ , temp8_ ) , Write5 ( de_ , temp8_ ) , { MicroOp : : LDI } ) ,
/* 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 ( 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 ( 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 ( 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 */
NOP_ROW ( ) , /* 0xe0 */
NOP_ROW ( ) , /* 0xf0 */
} ;
assemble_page ( target , ed_program_table , false ) ;
# undef NOP_ROW
}
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void ProcessorStorage : : assemble_cb_page ( InstructionPage & target , RegisterPair16 & index , bool add_offsets ) {
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# define OCTO_OP_GROUP(m, x) m(x), m(x), m(x), m(x), m(x), m(x), m(x), m(x)
# define CB_PAGE(m, p) m(RLC), m(RRC), m(RL), m(RR), m(SLA), m(SRA), m(SLL), m(SRL), OCTO_OP_GROUP(p, BIT), OCTO_OP_GROUP(m, RES), OCTO_OP_GROUP(m, SET)
InstructionTable cb_program_table = {
/* 0x00 RLC B; 0x01 RLC C; 0x02 RLC D; 0x03 RLC E; 0x04 RLC H; 0x05 RLC L; 0x06 RLC (HL); 0x07 RLC A */
/* 0x08 RRC B; 0x09 RRC C; 0x0a RRC D; 0x0b RRC E; 0x0c RRC H; 0x0d RRC L; 0x0e RRC (HL); 0x0f RRC A */
/* 0x10 RL B; 0x11 RL C; 0x12 RL D; 0x13 RL E; 0x14 RL H; 0x15 RL L; 0x16 RL (HL); 0x17 RL A */
/* 0x18 RR B; 0x99 RR C; 0x1a RR D; 0x1b RR E; 0x1c RR H; 0x1d RR L; 0x1e RR (HL); 0x1f RR A */
/* 0x20 SLA B; 0x21 SLA C; 0x22 SLA D; 0x23 SLA E; 0x24 SLA H; 0x25 SLA L; 0x26 SLA (HL); 0x27 SLA A */
/* 0x28 SRA B; 0x29 SRA C; 0x2a SRA D; 0x2b SRA E; 0x2c SRA H; 0x2d SRA L; 0x2e SRA (HL); 0x2f SRA A */
/* 0x30 SLL B; 0x31 SLL C; 0x32 SLL D; 0x33 SLL E; 0x34 SLL H; 0x35 SLL L; 0x36 SLL (HL); 0x37 SLL A */
/* 0x38 SRL B; 0x39 SRL C; 0x3a SRL D; 0x3b SRL E; 0x3c SRL H; 0x3d SRL L; 0x3e SRL (HL); 0x3f SRL A */
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/* 0x40 - 0x7f: BIT */
/* 0x80 - 0xcf: RES */
/* 0xd0 - 0xdf: SET */
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CB_PAGE ( MODIFY_OP_GROUP , READ_OP_GROUP_D )
} ;
InstructionTable offsets_cb_program_table = {
CB_PAGE ( IX_MODIFY_OP_GROUP , IX_READ_OP_GROUP )
} ;
assemble_page ( target , add_offsets ? offsets_cb_program_table : cb_program_table , add_offsets ) ;
# undef OCTO_OP_GROUP
# undef CB_PAGE
}
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void ProcessorStorage : : assemble_base_page ( InstructionPage & target , RegisterPair16 & index , bool add_offsets , InstructionPage & cb_page ) {
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# define INC_DEC_LD(r) \
StdInstr ( { MicroOp : : Increment8 , & r } ) , \
StdInstr ( { MicroOp : : Decrement8 , & r } ) , \
StdInstr ( ReadInc ( pc_ , r ) )
# define INC_INC_DEC_LD(rf, r) \
Instr ( 8 , { MicroOp : : Increment16 , & rf . full } ) , INC_DEC_LD ( r )
# define DEC_INC_DEC_LD(rf, 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_ ) ) ,
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/* 0x02 LD (BC), A */ StdInstr ( { MicroOp : : SetAddrAMemptr , & bc_ . full } , Write3 ( bc_ , a_ ) ) ,
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/* 0x03 INC BC; 0x04 INC B; 0x05 DEC B; 0x06 LD B, n */
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INC_INC_DEC_LD ( bc_ , bc_ . halves . high ) ,
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/* 0x07 RLCA */ StdInstr ( { MicroOp : : RLCA } ) ,
/* 0x08 EX AF, AF' */ StdInstr ( { MicroOp : : ExAFAFDash } ) , /* 0x09 ADD HL, BC */ ADD16 ( index , bc_ ) ,
/* 0x0a LD A, (BC) */ StdInstr ( { MicroOp : : Move16 , & bc_ . full , & memptr_ . full } , Read3 ( memptr_ , a_ ) , Inc16 ( memptr_ ) ) ,
/* 0x0b DEC BC; 0x0c INC C; 0x0d DEC C; 0x0e LD C, n */
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DEC_INC_DEC_LD ( bc_ , bc_ . halves . low ) ,
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/* 0x0f RRCA */ StdInstr ( { MicroOp : : RRCA } ) ,
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/* 0x10 DJNZ */ Instr ( 6 , ReadInc ( pc_ , temp8_ ) , { MicroOp : : DJNZ } , InternalOperation ( 10 ) , { MicroOp : : CalculateIndexAddress , & pc_ . full } , { MicroOp : : Move16 , & memptr_ . full , & pc_ . full } ) ,
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/* 0x11 LD DE, nn */ StdInstr ( Read16Inc ( pc_ , de_ ) ) ,
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/* 0x12 LD (DE), A */ StdInstr ( { MicroOp : : SetAddrAMemptr , & de_ . full } , Write3 ( de_ , a_ ) ) ,
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/* 0x13 INC DE; 0x14 INC D; 0x15 DEC D; 0x16 LD D, n */
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INC_INC_DEC_LD ( de_ , de_ . halves . high ) ,
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/* 0x17 RLA */ StdInstr ( { MicroOp : : RLA } ) ,
/* 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_ ) , Inc16 ( memptr_ ) ) ,
/* 0x1b DEC DE; 0x1c INC E; 0x1d DEC E; 0x1e LD E, n */
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DEC_INC_DEC_LD ( de_ , de_ . halves . low ) ,
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/* 0x1f RRA */ StdInstr ( { MicroOp : : RRA } ) ,
/* 0x20 JR NZ */ JR ( TestNZ ) , /* 0x21 LD HL, nn */ StdInstr ( Read16Inc ( pc_ , index ) ) ,
/* 0x22 LD (nn), HL */ StdInstr ( Read16Inc ( pc_ , memptr_ ) , Write16 ( memptr_ , index ) ) ,
/* 0x23 INC HL; 0x24 INC H; 0x25 DEC H; 0x26 LD H, n */
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INC_INC_DEC_LD ( index , index . halves . high ) ,
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/* 0x27 DAA */ StdInstr ( { MicroOp : : DAA } ) ,
/* 0x28 JR Z */ JR ( TestZ ) , /* 0x29 ADD HL, HL */ ADD16 ( index , index ) ,
/* 0x2a LD HL, (nn) */ StdInstr ( Read16Inc ( pc_ , temp16_ ) , Read16 ( temp16_ , index ) ) ,
/* 0x2b DEC HL; 0x2c INC L; 0x2d DEC L; 0x2e LD L, n */
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DEC_INC_DEC_LD ( index , index . halves . low ) ,
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/* 0x2f CPL */ StdInstr ( { MicroOp : : CPL } ) ,
/* 0x30 JR NC */ JR ( TestNC ) , /* 0x31 LD SP, nn */ StdInstr ( Read16Inc ( pc_ , sp_ ) ) ,
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/* 0x32 LD (nn), A */ StdInstr ( Read16Inc ( pc_ , temp16_ ) , { MicroOp : : SetAddrAMemptr , & temp16_ . full } , Write3 ( temp16_ , a_ ) ) ,
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/* 0x33 INC SP */ Instr ( 8 , { MicroOp : : Increment16 , & sp_ . full } ) ,
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/* 0x34 INC (HL) */ StdInstr ( INDEX ( ) , Read4Pre ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : Increment8 , & temp8_ } , Write3 ( INDEX_ADDR ( ) , temp8_ ) ) ,
/* 0x35 DEC (HL) */ StdInstr ( INDEX ( ) , Read4Pre ( INDEX_ADDR ( ) , temp8_ ) , { MicroOp : : Decrement8 , & temp8_ } , Write3 ( INDEX_ADDR ( ) , temp8_ ) ) ,
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/* 0x36 LD (HL), n */ StdInstr ( ReadInc ( pc_ , temp8_ ) , Write3 ( INDEX_ADDR ( ) , temp8_ ) ) ,
/* 0x37 SCF */ StdInstr ( { MicroOp : : SCF } ) ,
/* 0x38 JR C */ JR ( TestC ) ,
/* 0x39 ADD HL, SP */ ADD16 ( index , sp_ ) ,
/* 0x3a LD A, (nn) */ StdInstr ( Read16Inc ( pc_ , memptr_ ) , Read3 ( memptr_ , a_ ) , Inc16 ( memptr_ ) ) ,
/* 0x3b DEC SP */ Instr ( 8 , { MicroOp : : Decrement16 , & sp_ . full } ) ,
/* 0x3c INC A; 0x3d DEC A; 0x3e LD A, n */
INC_DEC_LD ( a_ ) ,
/* 0x3f CCF */ StdInstr ( { MicroOp : : CCF } ) ,
/* 0x40 LD B, B; 0x41 LD B, C; 0x42 LD B, D; 0x43 LD B, E; 0x44 LD B, H; 0x45 LD B, L; 0x46 LD B, (HL); 0x47 LD B, A */
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LD_GROUP ( bc_ . halves . high , bc_ . halves . high ) ,
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/* 0x48 LD C, B; 0x49 LD C, C; 0x4a LD C, D; 0x4b LD C, E; 0x4c LD C, H; 0x4d LD C, L; 0x4e LD C, (HL); 0x4f LD C, A */
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LD_GROUP ( bc_ . halves . low , bc_ . halves . low ) ,
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/* 0x50 LD D, B; 0x51 LD D, C; 0x52 LD D, D; 0x53 LD D, E; 0x54 LD D, H; 0x55 LD D, L; 0x56 LD D, (HL); 0x57 LD D, A */
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LD_GROUP ( de_ . halves . high , de_ . halves . high ) ,
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/* 0x58 LD E, B; 0x59 LD E, C; 0x5a LD E, D; 0x5b LD E, E; 0x5c LD E, H; 0x5d LD E, L; 0x5e LD E, (HL); 0x5f LD E, A */
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LD_GROUP ( de_ . halves . low , de_ . halves . low ) ,
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/* 0x60 LD H, B; 0x61 LD H, C; 0x62 LD H, D; 0x63 LD H, E; 0x64 LD H, H; 0x65 LD H, L; 0x66 LD H, (HL); 0x67 LD H, A */
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LD_GROUP ( index . halves . high , hl_ . halves . high ) ,
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/* 0x68 LD L, B; 0x69 LD L, C; 0x6a LD L, D; 0x6b LD L, E; 0x6c LD L, H; 0x6d LD H, L; 0x6e LD L, (HL); 0x6f LD L, A */
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LD_GROUP ( index . halves . low , hl_ . halves . low ) ,
/* 0x70 LD (HL), B */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , bc_ . halves . high ) ) ,
/* 0x71 LD (HL), C */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , bc_ . halves . low ) ) ,
/* 0x72 LD (HL), D */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , de_ . halves . high ) ) ,
/* 0x73 LD (HL), E */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , de_ . halves . low ) ) ,
/* 0x74 LD (HL), H */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , hl_ . halves . high ) ) , // neither of these stores parts of the index register;
/* 0x75 LD (HL), L */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , hl_ . halves . low ) ) , // they always store exactly H and L.
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/* 0x76 HALT */ StdInstr ( { MicroOp : : HALT } ) ,
/* 0x77 LD (HL), A */ StdInstr ( INDEX ( ) , Write3 ( INDEX_ADDR ( ) , a_ ) ) ,
/* 0x78 LD A, B; 0x79 LD A, C; 0x7a LD A, D; 0x7b LD A, E; 0x7c LD A, H; 0x7d LD A, L; 0x7e LD A, (HL); 0x7f LD A, A */
LD_GROUP ( a_ , a_ ) ,
/* 0x80 ADD B; 0x81 ADD C; 0x82 ADD D; 0x83 ADD E; 0x84 ADD H; 0x85 ADD L; 0x86 ADD (HL); 0x87 ADD A */
READ_OP_GROUP ( ADD8 ) ,
/* 0x88 ADC B; 0x89 ADC C; 0x8a ADC D; 0x8b ADC E; 0x8c ADC H; 0x8d ADC L; 0x8e ADC (HL); 0x8f ADC A */
READ_OP_GROUP ( ADC8 ) ,
/* 0x90 SUB B; 0x91 SUB C; 0x92 SUB D; 0x93 SUB E; 0x94 SUB H; 0x95 SUB L; 0x96 SUB (HL); 0x97 SUB A */
READ_OP_GROUP ( SUB8 ) ,
/* 0x98 SBC B; 0x99 SBC C; 0x9a SBC D; 0x9b SBC E; 0x9c SBC H; 0x9d SBC L; 0x9e SBC (HL); 0x9f SBC A */
READ_OP_GROUP ( SBC8 ) ,
/* 0xa0 AND B; 0xa1 AND C; 0xa2 AND D; 0xa3 AND E; 0xa4 AND H; 0xa5 AND L; 0xa6 AND (HL); 0xa7 AND A */
READ_OP_GROUP ( And ) ,
/* 0xa8 XOR B; 0xa9 XOR C; 0xaa XOR D; 0xab XOR E; 0xac XOR H; 0xad XOR L; 0xae XOR (HL); 0xaf XOR A */
READ_OP_GROUP ( Xor ) ,
/* 0xb0 OR B; 0xb1 OR C; 0xb2 OR D; 0xb3 OR E; 0xb4 OR H; 0xb5 OR L; 0xb6 OR (HL); 0xb7 OR A */
READ_OP_GROUP ( Or ) ,
/* 0xb8 CP B; 0xb9 CP C; 0xba CP D; 0xbb CP E; 0xbc CP H; 0xbd CP L; 0xbe CP (HL); 0xbf CP A */
READ_OP_GROUP ( CP8 ) ,
/* 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 ( 6 , Push ( bc_ ) ) ,
/* 0xc6 ADD A, n */ StdInstr ( ReadInc ( pc_ , temp8_ ) , { MicroOp : : ADD8 , & temp8_ } ) ,
/* 0xc7 RST 00h */ RST ( ) ,
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/* 0xc8 RET Z */ RET ( TestZ ) , /* 0xc9 RET */ StdInstr ( Pop ( memptr_ ) , { MicroOp : : Move16 , & memptr_ . full , & pc_ . full } ) ,
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/* 0xca JP Z */ JP ( TestZ ) , /* 0xcb [CB page] */ StdInstr ( FINDEX ( ) , { MicroOp : : SetInstructionPage , & cb_page } ) ,
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/* 0xcc CALL Z */ CALL ( TestZ ) , /* 0xcd CALL */ StdInstr ( ReadInc ( pc_ , memptr_ . halves . low ) , Read4Inc ( pc_ , memptr_ . halves . high ) , Push ( pc_ ) , { MicroOp : : Move16 , & memptr_ . full , & pc_ . full } ) ,
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/* 0xce ADC A, n */ StdInstr ( ReadInc ( pc_ , temp8_ ) , { MicroOp : : ADC8 , & temp8_ } ) ,
/* 0xcf RST 08h */ RST ( ) ,
/* 0xd0 RET NC */ RET ( TestNC ) , /* 0xd1 POP DE */ StdInstr ( Pop ( de_ ) ) ,
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/* 0xd2 JP NC */ JP ( TestNC ) , /* 0xd3 OUT (n), A */ StdInstr ( ReadInc ( pc_ , memptr_ . halves . low ) , { MicroOp : : Move8 , & a_ , & memptr_ . halves . high } , Output ( memptr_ , a_ ) , Inc8NoFlags ( memptr_ . halves . low ) ) ,
2017-09-04 15:04:01 +00:00
/* 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 } ) ,
2020-02-23 05:32:33 +00:00
/* 0xda JP C */ JP ( TestC ) , /* 0xdb IN A, (n) */ StdInstr ( ReadInc ( pc_ , memptr_ . halves . low ) , { MicroOp : : Move8 , & a_ , & memptr_ . halves . high } , Input ( memptr_ , a_ ) , Inc16 ( memptr_ ) ) ,
2017-09-04 15:04:01 +00:00
/* 0xdc CALL C */ CALL ( TestC ) , /* 0xdd [DD page] */ StdInstr ( { MicroOp : : SetInstructionPage , & dd_page_ } ) ,
/* 0xde SBC A, n */ StdInstr ( ReadInc ( pc_ , temp8_ ) , { MicroOp : : SBC8 , & temp8_ } ) ,
/* 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 ( 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 } ) ,
/* 0xea JP PE */ JP ( TestPE ) , /* 0xeb EX DE, HL */ StdInstr ( { MicroOp : : ExDEHL } ) ,
/* 0xec CALL PE */ CALL ( TestPE ) , /* 0xed [ED page] */ StdInstr ( { MicroOp : : SetInstructionPage , & ed_page_ } ) ,
/* 0xee XOR n */ StdInstr ( ReadInc ( pc_ , temp8_ ) , { MicroOp : : Xor , & temp8_ } ) ,
/* 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 ( 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 ( 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_ } ) ,
/* 0xff RST 38h */ RST ( ) ,
} ;
if ( add_offsets ) {
// The indexed version of 0x36 differs substantially from the non-indexed by building index calculation into
// the cycle that fetches the final operand. So patch in a different microprogram if building an indexed table.
InstructionTable copy_table = {
StdInstr ( FINDEX ( ) , Read5Inc ( pc_ , temp8_ ) , Write3 ( INDEX_ADDR ( ) , temp8_ ) )
} ;
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std : : memcpy ( & base_program_table [ 0x36 ] , & copy_table [ 0 ] , sizeof ( copy_table [ 0 ] ) ) ;
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}
assemble_cb_page ( cb_page , index , add_offsets ) ;
assemble_page ( target , base_program_table , add_offsets ) ;
}
void ProcessorStorage : : assemble_fetch_decode_execute ( InstructionPage & target , int length ) {
const MicroOp normal_fetch_decode_execute [ ] = {
BusOp ( ReadOpcodeStart ( ) ) ,
BusOp ( ReadOpcodeWait ( true ) ) ,
BusOp ( ReadOpcodeEnd ( ) ) ,
{ MicroOp : : DecodeOperation }
} ;
const MicroOp short_fetch_decode_execute [ ] = {
BusOp ( ReadOpcodeStart ( ) ) ,
BusOp ( ReadOpcodeWait ( false ) ) ,
BusOp ( ReadOpcodeWait ( true ) ) ,
BusOp ( ReadOpcodeEnd ( ) ) ,
{ MicroOp : : DecodeOperation }
} ;
copy_program ( ( length = = 4 ) ? normal_fetch_decode_execute : short_fetch_decode_execute , target . fetch_decode_execute ) ;
target . fetch_decode_execute_data = target . fetch_decode_execute . data ( ) ;
}
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bool ProcessorBase : : is_starting_new_instruction ( ) {
return
current_instruction_page_ = = & base_page_ & &
scheduled_program_counter_ = = & base_page_ . fetch_decode_execute [ 0 ] ;
}