bsnes/higan/fc/ppu/ppu.hpp

124 lines
2.5 KiB
C++

struct PPU : Thread {
inline auto rate() const -> uint { return Region::PAL() ? 5 : 4; }
inline auto vlines() const -> uint { return Region::PAL() ? 312 : 262; }
//ppu.cpp
static auto Enter() -> void;
auto main() -> void;
auto step(uint clocks) -> void;
auto scanline() -> void;
auto frame() -> void;
auto refresh() -> void;
auto power() -> void;
//memory.cpp
auto readCIRAM(uint11 addr) -> uint8;
auto writeCIRAM(uint11 addr, uint8 data) -> void;
auto readCGRAM(uint5 addr) -> uint8;
auto writeCGRAM(uint5 addr, uint8 data) -> void;
auto readIO(uint16 addr) -> uint8;
auto writeIO(uint16 addr, uint8 data) -> void;
//render.cpp
auto enable() const -> bool;
auto loadCHR(uint16 addr) -> uint8;
auto renderPixel() -> void;
auto renderSprite() -> void;
auto renderScanline() -> void;
//serialization.cpp
auto serialize(serializer&) -> void;
struct IO {
//internal
uint8 mdr;
uint1 field;
uint lx;
uint ly;
uint8 busData;
union {
uint value;
NaturalBitField<uint, 0, 4> tileX;
NaturalBitField<uint, 5, 9> tileY;
NaturalBitField<uint,10,11> nametable;
NaturalBitField<uint,10,10> nametableX;
NaturalBitField<uint,11,11> nametableY;
NaturalBitField<uint,12,14> fineY;
NaturalBitField<uint, 0,14> address;
NaturalBitField<uint, 0, 7> addressLo;
NaturalBitField<uint, 8,14> addressHi;
NaturalBitField<uint,15,15> latch;
NaturalBitField<uint,16,18> fineX;
} v, t;
bool nmiHold;
bool nmiFlag;
//$2000
uint vramIncrement;
uint spriteAddress;
uint bgAddress;
uint spriteHeight;
bool masterSelect;
bool nmiEnable;
//$2001
bool grayscale;
bool bgEdgeEnable;
bool spriteEdgeEnable;
bool bgEnable;
bool spriteEnable;
uint3 emphasis;
//$2002
bool spriteOverflow;
bool spriteZeroHit;
//$2003
uint8 oamAddress;
} io;
struct OAM {
//serialization.cpp
auto serialize(serializer&) -> void;
uint8 id = 64;
uint8 y = 0xff;
uint8 tile = 0xff;
uint8 attr = 0xff;
uint8 x = 0xff;
uint8 tiledataLo = 0;
uint8 tiledataHi = 0;
};
struct Latches {
uint16 nametable;
uint16 attribute;
uint16 tiledataLo;
uint16 tiledataHi;
uint oamIterator;
uint oamCounter;
OAM oam[8]; //primary
OAM soam[8]; //secondary
} latch;
uint8 ciram[2048];
uint8 cgram[32];
uint8 oam[256];
uint32 buffer[256 * 262];
};
extern PPU ppu;