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CLK/Processors/Z80/Implementation/Z80Storage.hpp

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//
// Z80Storage.hpp
// Clock Signal
//
// Created by Thomas Harte on 01/09/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
//
/*!
A repository for all the internal state of a CPU::Z80::Processor; extracted into a separate base
class in order to remove it from visibility within the main Z80.hpp.
*/
class ProcessorStorage {
protected:
struct MicroOp {
enum Type {
BusOperation,
DecodeOperation,
DecodeOperationNoRChange,
MoveToNextProgram,
Increment8,
Increment16,
Decrement8,
Decrement16,
Move8,
Move16,
IncrementPC,
AssembleAF,
DisassembleAF,
And,
Or,
Xor,
TestNZ,
TestZ,
TestNC,
TestC,
TestPO,
TestPE,
TestP,
TestM,
ADD16, ADC16, SBC16,
CP8, SUB8, SBC8, ADD8, ADC8,
NEG,
ExDEHL, ExAFAFDash, EXX,
EI, DI, IM,
LDI, LDIR, LDD, LDDR,
CPI, CPIR, CPD, CPDR,
INI, INIR, IND, INDR,
OUTI, OUTD, OUT_R,
RLA, RLCA, RRA, RRCA,
RLC, RRC, RL, RR,
SLA, SRA, SLL, SRL,
RLD, RRD,
SetInstructionPage,
CalculateIndexAddress,
BeginNMI,
BeginIRQ,
BeginIRQMode0,
RETN,
JumpTo66,
HALT,
DJNZ,
DAA,
CPL,
SCF,
CCF,
RES,
BIT,
SET,
CalculateRSTDestination,
SetAFlags,
SetInFlags,
SetZero,
IndexedPlaceHolder,
SetAddrAMemptr,
Reset
};
Type type;
void *source;
void *destination;
PartialMachineCycle machine_cycle;
};
struct InstructionPage {
std::vector<MicroOp *> instructions;
std::vector<MicroOp> all_operations;
std::vector<MicroOp> fetch_decode_execute;
MicroOp *fetch_decode_execute_data;
uint8_t r_step;
bool is_indexed;
InstructionPage() : r_step(1), is_indexed(false) {}
};
typedef MicroOp InstructionTable[256][30];
ProcessorStorage();
void install_default_instruction_set();
uint8_t a_;
RegisterPair bc_, de_, hl_;
RegisterPair afDash_, bcDash_, deDash_, hlDash_;
RegisterPair ix_, iy_, pc_, sp_;
RegisterPair ir_, refresh_addr_;
bool iff1_ = false, iff2_ = false;
int interrupt_mode_ = 0;
uint16_t pc_increment_ = 1;
uint8_t sign_result_; // the sign flag is set if the value in sign_result_ is negative
uint8_t zero_result_; // the zero flag is set if the value in zero_result_ is zero
uint8_t half_carry_result_; // the half-carry flag is set if bit 4 of half_carry_result_ is set
uint8_t bit53_result_; // the bit 3 and 5 flags are set if the corresponding bits of bit53_result_ are set
uint8_t parity_overflow_result_; // the parity/overflow flag is set if the corresponding bit of parity_overflow_result_ is set
uint8_t subtract_flag_; // contains a copy of the subtract flag in isolation
uint8_t carry_result_; // the carry flag is set if bit 0 of carry_result_ is set
uint8_t halt_mask_ = 0xff;
unsigned int flag_adjustment_history_ = 0; // a shifting record of whether each opcode set any flags; it turns out
// that knowledge of what the last opcode did is necessary to get bits 5 & 3
// correct for SCF and CCF.
HalfCycles number_of_cycles_;
enum Interrupt: uint8_t {
IRQ = 0x01,
NMI = 0x02,
Reset = 0x04,
PowerOn = 0x08
};
uint8_t request_status_ = Interrupt::PowerOn;
uint8_t last_request_status_ = Interrupt::PowerOn;
bool irq_line_ = false, nmi_line_ = false;
bool bus_request_line_ = false;
bool wait_line_ = false;
uint8_t operation_;
RegisterPair temp16_, memptr_;
uint8_t temp8_;
const MicroOp *scheduled_program_counter_ = nullptr;
std::vector<MicroOp> conditional_call_untaken_program_;
std::vector<MicroOp> reset_program_;
std::vector<MicroOp> irq_program_[3];
std::vector<MicroOp> nmi_program_;
InstructionPage *current_instruction_page_;
InstructionPage base_page_;
InstructionPage ed_page_;
InstructionPage fd_page_;
InstructionPage dd_page_;
InstructionPage cb_page_;
InstructionPage fdcb_page_;
InstructionPage ddcb_page_;
/*!
Gets the flags register.
@see set_flags
@returns The current value of the flags register.
*/
uint8_t get_flags() {
uint8_t result =
(sign_result_ & Flag::Sign) |
(zero_result_ ? 0 : Flag::Zero) |
(bit53_result_ & (Flag::Bit5 | Flag::Bit3)) |
(half_carry_result_ & Flag::HalfCarry) |
(parity_overflow_result_ & Flag::Parity) |
subtract_flag_ |
(carry_result_ & Flag::Carry);
return result;
}
/*!
Sets the flags register.
@see set_flags
@param flags The new value of the flags register.
*/
void set_flags(uint8_t flags) {
sign_result_ = flags;
zero_result_ = (flags & Flag::Zero) ^ Flag::Zero;
bit53_result_ = flags;
half_carry_result_ = flags;
parity_overflow_result_ = flags;
subtract_flag_ = flags & Flag::Subtract;
carry_result_ = flags;
}
virtual void assemble_page(InstructionPage &target, InstructionTable &table, bool add_offsets) = 0;
virtual void copy_program(const MicroOp *source, std::vector<MicroOp> &destination) = 0;
void assemble_fetch_decode_execute(InstructionPage &target, int length);
void assemble_ed_page(InstructionPage &target);
void assemble_cb_page(InstructionPage &target, RegisterPair &index, bool add_offsets);
void assemble_base_page(InstructionPage &target, RegisterPair &index, bool add_offsets, InstructionPage &cb_page);
};