bsnes/higan/gba/ppu/ppu.hpp

223 lines
4.4 KiB
C++

struct PPU : Thread, IO {
PPU();
~PPU();
inline auto blank() -> bool;
static auto Enter() -> void;
auto step(uint clocks) -> void;
auto main() -> void;
auto frame() -> void;
auto refresh() -> void;
auto power() -> void;
auto readIO(uint32 addr) -> uint8;
auto writeIO(uint32 addr, uint8 byte) -> void;
auto readVRAM(uint mode, uint32 addr) -> uint32;
auto writeVRAM(uint mode, uint32 addr, uint32 word) -> void;
auto readPRAM(uint mode, uint32 addr) -> uint32;
auto writePRAM(uint mode, uint32 addr, uint32 word) -> void;
auto readOAM(uint mode, uint32 addr) -> uint32;
auto writeOAM(uint mode, uint32 addr, uint32 word) -> void;
auto readObjectVRAM(uint addr) const -> uint8;
auto serialize(serializer&) -> void;
uint8 vram[96 * 1024];
uint16 pram[512];
uint32* output;
private:
//note: I/O register order is {BG0-BG3, OBJ, SFX}
//however; layer ordering is {OBJ, BG0-BG3, SFX}
enum : uint { OBJ = 0, BG0 = 1, BG1 = 2, BG2 = 3, BG3 = 4, SFX = 5 };
enum : uint { IN0 = 0, IN1 = 1, IN2 = 2, OUT = 3 };
struct IO {
uint1 gameBoyColorMode;
uint1 forceBlank;
uint1 greenSwap;
uint1 vblank;
uint1 hblank;
uint1 vcoincidence;
uint1 irqvblank;
uint1 irqhblank;
uint1 irqvcoincidence;
uint8 vcompare;
uint16 vcounter;
} io;
struct Pixel {
uint1 enable;
uint2 priority;
uint15 color;
//OBJ only
uint1 translucent;
uint1 mosaic;
uint1 window; //IN2
};
struct Background {
auto scanline(uint y) -> void;
auto run(uint x, uint y) -> void;
auto linear(uint x, uint y) -> void;
auto affine(uint x, uint y) -> void;
auto bitmap(uint x, uint y) -> void;
auto power(uint id) -> void;
auto serialize(serializer&) -> void;
uint id; //BG0, BG1, BG2, BG3
struct IO {
static uint3 mode;
static uint1 frame;
static uint5 mosaicWidth;
static uint5 mosaicHeight;
uint1 enable;
uint2 priority;
uint2 characterBase;
uint2 unused;
uint1 mosaic;
uint1 colorMode;
uint5 screenBase;
uint1 affineWrap; //BG2, BG3 only
uint2 screenSize;
uint9 hoffset;
uint9 voffset;
//BG2, BG3 only
int16 pa;
int16 pb;
int16 pc;
int16 pd;
int28 x;
int28 y;
//internal
int28 lx;
int28 ly;
} io;
Pixel output;
Pixel mosaic;
uint mosaicOffset;
uint hmosaic;
uint vmosaic;
int28 fx;
int28 fy;
} bg0, bg1, bg2, bg3;
struct Objects {
auto scanline(uint y) -> void;
auto run(uint x, uint y) -> void;
auto power() -> void;
auto serialize(serializer&) -> void;
struct IO {
uint1 enable;
uint1 hblank; //1 = allow access to OAM during Hblank
uint1 mapping; //0 = two-dimensional, 1 = one-dimensional
uint5 mosaicWidth;
uint5 mosaicHeight;
} io;
Pixel buffer[240];
Pixel output;
Pixel mosaic;
uint mosaicOffset;
} objects;
struct Window {
auto run(uint x, uint y) -> void;
auto power(uint id) -> void;
auto serialize(serializer&) -> void;
uint id; //IN0, IN1, IN2, OUT
struct IO {
uint1 enable;
uint1 active[6];
//IN0, IN1 only
uint8 x1;
uint8 x2;
uint8 y1;
uint8 y2;
} io;
uint1 output; //IN0, IN1, IN2 only
} window0, window1, window2, window3;
struct Screen {
auto run(uint x, uint y) -> uint15;
auto blend(uint15 above, uint eva, uint15 below, uint evb) -> uint15;
auto power() -> void;
auto serialize(serializer&) -> void;
struct IO {
uint2 blendMode;
uint1 blendAbove[6];
uint1 blendBelow[6];
uint5 blendEVA;
uint5 blendEVB;
uint5 blendEVY;
} io;
} screen;
struct Object {
auto serialize(serializer&) -> void;
uint8 y;
uint1 affine;
uint1 affineSize;
uint2 mode;
uint1 mosaic;
uint1 colors; //0 = 16, 1 = 256
uint2 shape; //0 = square, 1 = horizontal, 2 = vertical
uint9 x;
uint5 affineParam;
uint1 hflip;
uint1 vflip;
uint2 size;
uint10 character;
uint2 priority;
uint4 palette;
//ancillary data
uint width;
uint height;
} object[128];
struct ObjectParam {
auto serialize(serializer&) -> void;
int16 pa;
int16 pb;
int16 pc;
int16 pd;
} objectParam[32];
};
extern PPU ppu;