bsnes/higan/sfc/cpu/cpu.hpp

250 lines
5.0 KiB
C++

struct CPU : Processor::R65816, Thread, PPUcounter {
auto interruptPending() const -> bool override;
auto pio() const -> uint8;
auto joylatch() const -> bool;
CPU();
auto synchronizeSMP() -> void;
auto synchronizePPU() -> void;
auto synchronizeCoprocessors() -> void;
auto synchronizePeripherals() -> void;
auto readPort(uint2 port) const -> uint8;
auto writePort(uint2 port, uint8 data) -> void;
static auto Enter() -> void;
auto main() -> void;
auto load(Markup::Node) -> bool;
auto power() -> void;
auto reset() -> void;
//dma.cpp
auto dmaStep(uint clocks) -> void;
auto dmaTransferValid(uint8 bbus, uint24 abus) -> bool;
auto dmaAddressValid(uint24 abus) -> bool;
auto dmaRead(uint24 abus) -> uint8;
auto dmaWrite(bool valid, uint addr = 0, uint8 data = 0) -> void;
auto dmaTransfer(bool direction, uint8 bbus, uint24 abus) -> void;
inline auto dmaAddressB(uint n, uint channel) -> uint8;
inline auto dmaAddress(uint n) -> uint24;
inline auto hdmaAddress(uint n) -> uint24;
inline auto hdmaIndirectAddress(uint n) -> uint24;
inline auto dmaEnabledChannels() -> uint;
inline auto hdmaActive(uint n) -> bool;
inline auto hdmaActiveAfter(uint s) -> bool;
inline auto hdmaEnabledChannels() -> uint;
inline auto hdmaActiveChannels() -> uint;
auto dmaRun() -> void;
auto hdmaUpdate(uint n) -> void;
auto hdmaRun() -> void;
auto hdmaInitReset() -> void;
auto hdmaInit() -> void;
//memory.cpp
auto idle() -> void override;
auto read(uint24 addr) -> uint8 override;
auto write(uint24 addr, uint8 data) -> void override;
alwaysinline auto speed(uint24 addr) const -> uint;
auto readDisassembler(uint24 addr) -> uint8 override;
//io.cpp
auto readAPU(uint24 addr, uint8 data) -> uint8;
auto readCPU(uint24 addr, uint8 data) -> uint8;
auto readDMA(uint24 addr, uint8 data) -> uint8;
auto writeAPU(uint24 addr, uint8 data) -> void;
auto writeCPU(uint24 addr, uint8 data) -> void;
auto writeDMA(uint24 addr, uint8 data) -> void;
//timing.cpp
auto dmaCounter() const -> uint;
auto step(uint clocks) -> void;
auto scanline() -> void;
alwaysinline auto aluEdge() -> void;
alwaysinline auto dmaEdge() -> void;
alwaysinline auto lastCycle() -> void;
//irq.cpp
alwaysinline auto pollInterrupts() -> void;
auto nmitimenUpdate(uint8 data) -> void;
auto rdnmi() -> bool;
auto timeup() -> bool;
alwaysinline auto nmiTest() -> bool;
alwaysinline auto irqTest() -> bool;
//joypad.cpp
auto stepAutoJoypadPoll() -> void;
//serialization.cpp
auto serialize(serializer&) -> void;
uint8 wram[128 * 1024];
vector<Thread*> coprocessors;
vector<Thread*> peripherals;
privileged:
uint version = 2; //allowed: 1, 2
struct Status {
bool interruptPending;
uint clockCount;
uint lineClocks;
//timing
bool irqLock;
uint dramRefreshPosition;
bool dramRefreshed;
uint hdmaInitPosition;
bool hdmaInitTriggered;
uint hdmaPosition;
bool hdmaTriggered;
bool nmiValid;
bool nmiLine;
bool nmiTransition;
bool nmiPending;
bool nmiHold;
bool irqValid;
bool irqLine;
bool irqTransition;
bool irqPending;
bool irqHold;
bool powerPending;
bool resetPending;
//DMA
bool dmaActive;
uint dmaCounter;
uint dmaClocks;
bool dmaPending;
bool hdmaPending;
bool hdmaMode; //0 = init, 1 = run
//auto joypad polling
bool autoJoypadActive;
bool autoJoypadLatch;
uint autoJoypadCounter;
uint autoJoypadClock;
} status;
struct IO {
//$2140-217f
uint8 port[4];
//$2181-$2183
uint17 wramAddress;
//$4016-$4017
bool joypadStrobeLatch;
//$4200
bool nmiEnabled;
bool hirqEnabled;
bool virqEnabled;
bool autoJoypadPoll;
//$4201
uint8 pio;
//$4202-$4203
uint8 wrmpya;
uint8 wrmpyb;
//$4204-$4206
uint16 wrdiva;
uint8 wrdivb;
//$4207-$420a
uint9 hirqPos;
uint9 virqPos;
//$420d
uint romSpeed;
//$4214-$4217
uint16 rddiv;
uint16 rdmpy;
//$4218-$421f
uint16 joy1;
uint16 joy2;
uint16 joy3;
uint16 joy4;
} io;
struct ALU {
uint mpyctr;
uint divctr;
uint shift;
} alu;
struct Channel {
//$420b
bool dmaEnabled;
//$420c
bool hdmaEnabled;
//$43x0
bool direction;
bool indirect;
bool unused;
bool reverseTransfer;
bool fixedTransfer;
uint3 transferMode;
//$43x1
uint8 targetAddress;
//$43x2-$43x3
uint16 sourceAddress;
//$43x4
uint8 sourceBank;
//$43x5-$43x6
union {
uint16 transferSize;
uint16 indirectAddress;
};
//$43x7
uint8 indirectBank;
//$43x8-$43x9
uint16 hdmaAddress;
//$43xa
uint8 lineCounter;
//$43xb/$43xf
uint8 unknown;
//internal state
bool hdmaCompleted;
bool hdmaDoTransfer;
Channel() : transferSize(0) {}
} channel[8];
struct Pipe {
bool valid;
uint addr;
uint8 data;
} pipe;
};
extern CPU cpu;