//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 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;