bsnes/higan/pce/vdc/vdc.hpp

203 lines
3.6 KiB
C++

//Hudson Soft HuC6270 -- Video Display Controller
struct VDC : Thread {
inline auto bus() const -> uint9 { return data; }
inline auto irqLine() const -> bool { return irq.line; }
static auto Enter() -> void;
auto main() -> void;
auto step(uint clocks) -> void;
auto scanline() -> void;
auto frame() -> void;
auto power() -> void;
//io.cpp
auto read(uint2 addr) -> uint8;
auto write(uint2 addr, uint8 data) -> void;
private:
uint9 data;
struct VRAM {
//memory.cpp
auto read(uint16 addr) -> uint16;
auto write(uint16 addr, uint16 data) -> void;
uint16 addressRead;
uint16 addressWrite;
uint16 addressIncrement;
uint16 dataRead;
uint16 dataWrite;
private:
uint16 data[0x8000];
} vram;
struct SATB {
//memory.cpp
auto read(uint8 addr) -> uint16;
auto write(uint8 addr, uint16 data) -> void;
private:
uint16 data[0x100];
} satb;
struct Timing {
uint5 horizontalSyncWidth;
uint7 horizontalDisplayStart;
uint7 horizontalDisplayLength;
uint7 horizontalDisplayEnd;
uint5 verticalSyncWidth;
uint8 verticalDisplayStart;
uint9 verticalDisplayLength;
uint8 verticalDisplayEnd;
bool vpulse;
bool hpulse;
uint hclock;
uint vclock;
uint hoffset;
uint voffset;
uint hstart;
uint vstart;
uint hlength;
uint vlength;
} timing;
struct IRQ {
enum class Line : uint {
Collision,
Overflow,
LineCoincidence,
Vblank,
TransferVRAM,
TransferSATB,
};
//irq.cpp
auto poll() -> void;
auto raise(Line) -> void;
auto lower() -> void;
bool enableCollision;
bool enableOverflow;
bool enableLineCoincidence;
bool enableVblank;
bool enableTransferVRAM;
bool enableTransferSATB;
bool pendingCollision;
bool pendingOverflow;
bool pendingLineCoincidence;
bool pendingVblank;
bool pendingTransferVRAM;
bool pendingTransferSATB;
bool line;
} irq;
struct DMA {
VDC* vdc = nullptr;
//dma.cpp
auto step(uint clocks) -> void;
auto vramStart() -> void;
auto satbStart() -> void;
auto satbQueue() -> void;
bool sourceIncrementMode;
bool targetIncrementMode;
bool satbRepeat;
uint16 source;
uint16 target;
uint16 length;
uint16 satbSource;
bool vramActive;
bool satbActive;
bool satbPending;
uint16 satbOffset;
} dma;
struct Background {
VDC* vdc = nullptr;
//background.cpp
auto scanline(uint y) -> void;
auto run(uint x, uint y) -> void;
bool enable;
uint10 hscroll;
uint9 vscroll;
uint9 vcounter;
uint8 width;
uint8 height;
uint10 hoffset;
uint9 voffset;
uint4 color;
uint4 palette;
} background;
struct Sprite {
VDC* vdc = nullptr;
//sprite.cpp
auto scanline(uint y) -> void;
auto run(uint x, uint y) -> void;
bool enable;
struct Object {
uint10 y;
uint10 x;
bool mode;
uint10 pattern;
uint4 palette;
bool priority;
uint width;
bool hflip;
uint height;
bool vflip;
bool first;
};
array<Object, 64> objects;
uint4 color;
uint4 palette;
bool priority;
} sprite;
struct IO {
uint5 address;
//$0005 CR (W)
uint2 externalSync;
uint2 displayOutput;
bool dramRefresh;
//$0006 RCR
uint10 lineCoincidence;
//$0009 MWR
uint2 vramAccess;
uint2 spriteAccess;
bool cgMode;
//$0400 CR
bool colorBlur;
bool grayscale;
} io;
};
extern VDC vdc0;
extern VDC vdc1;