//__________________________________________________________________________________________________ // Common video plugin spec, version #1.0 maintained by F|RES // #ifndef _VIDEO_H_INCLUDED__ #define _VIDEO_H_INCLUDED__ #include "Thread.h" #include "PluginSpecs.h" #include "ExportProlog.h" typedef void (*TSetPEToken)(const unsigned short _token, const int _bSetTokenAcknowledge); typedef void (*TSetPEFinish)(void); typedef unsigned char* (*TGetMemoryPointer)(const unsigned int _iAddress); typedef void (*TVideoLog)(const char* _pMessage, int _bBreak); typedef void (*TSysMessage)(const char *fmt, ...); typedef void (*TRequestWindowSize)(int _iWidth, int _iHeight, bool _bFullscreen); typedef void (*TCopiedToXFB)(void); typedef unsigned int (*TPeekMessages)(void); typedef void (*TUpdateInterrupts)(void); typedef void (*TUpdateFPSDisplay)(const char* text); // sets the window title typedef void (*TKeyPressed)(int keycode, bool shift, bool control); // sets the window title enum EFBAccessType { PEEK_Z = 0, POKE_Z, PEEK_COLOR, POKE_COLOR }; typedef struct { // fifo registers volatile u32 CPBase; volatile u32 CPEnd; u32 CPHiWatermark; u32 CPLoWatermark; volatile u32 CPReadWriteDistance; volatile u32 CPWritePointer; volatile u32 CPReadPointer; volatile u32 CPBreakpoint; // Super Monkey Ball Adventure require this. // Because the read&check-PEToken-loop stays in its JITed block I suppose. // So no possiblity to ack the Token irq by the scheduler until some sort of PPC watchdog do its mess. volatile u16 PEToken; volatile u32 bFF_GPReadEnable; volatile u32 bFF_BPEnable; volatile u32 bFF_GPLinkEnable; volatile u32 bFF_Breakpoint; volatile u32 CPCmdIdle; volatile u32 CPReadIdle; // for GP watchdog hack volatile u32 Fake_GPWDToken; // cicular incrementer } SCPFifoStruct; typedef struct { void *pWindowHandle; TSetPEToken pSetPEToken; TSetPEFinish pSetPEFinish; TGetMemoryPointer pGetMemoryPointer; TVideoLog pLog; TSysMessage pSysMessage; TRequestWindowSize pRequestWindowSize; TCopiedToXFB pCopiedToXFB; TPeekMessages pPeekMessages; TUpdateInterrupts pUpdateInterrupts; TUpdateFPSDisplay pUpdateFPSDisplay; TKeyPressed pKeyPress; SCPFifoStruct *pCPFifo; void *pMemoryBase; bool bWii; bool bUseDualCore; unsigned short *pBBox; // points to four shorts: left, top, right, bottom // TODO: bool *pBBoxActive; // we guess that after a bbox reset, we only need to track bbox size until the corresponding read. } SVideoInitialize; ///////////////////////////////////////////////////////////////////////////////////////////////////// // I N T E R F A C E //////////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////////////////////////////// // __________________________________________________________________________________________________ // Function: Video_Prepare // Purpose: This function is called from the EmuThread before the // emulation has started. It is just for threadsensitive // APIs like OpenGL. // input: none // output: none // EXPORT void CALL Video_Prepare(void); // __________________________________________________________________________________________________ // Function: Video_SendFifoData // Purpose: This function is called to submit fifo data directly - only single core mode calls this. // input: u8 *_uData, u32 len - a block of fifo data. // output: none // EXPORT void CALL Video_SendFifoData(u8* _uData, u32 len); // __________________________________________________________________________________________________ // Function: Video_UpdateXFB // TODO: This DOC IS BROKEN! // Purpose: This function is called when you have to flip the yuv2 // video-buffer. You should ignore this function after you // got the first EFB to XFB copy. // input: pointer to the XFB, width and height of the XFB // output: none // EXPORT void CALL Video_UpdateXFB(u32 _dwXFBAddr, u32 _dwWidth, u32 _dwHeight, s32 _dwYOffset, bool scheduling); // __________________________________________________________________________________________________ // Function: Video_AccessEFB // input: type of access (r/w, z/color, ...), x coord, y coord // output: response to the access request (ex: peek z data at specified coord) // EXPORT u32 CALL Video_AccessEFB(EFBAccessType type, u32 x, u32 y); void Video_OnThreadAccessEFB(); // TODO: Find a more sympathetic place to place this // __________________________________________________________________________________________________ // Function: Video_Screenshot // input: Filename // output: TRUE if all was okay // EXPORT void CALL Video_Screenshot(const char *_szFilename); // __________________________________________________________________________________________________ // Function: Video_EnterLoop // Purpose: Enters the video fifo dispatch loop. This is only used in Dual Core mode. // input: none // output: none // EXPORT void CALL Video_EnterLoop(void); // __________________________________________________________________________________________________ // Function: Video_ExitLoop // Purpose: Exits the video dispatch loop. This is only used in Dual Core mode. // input: none // output: none // EXPORT void CALL Video_ExitLoop(void); // __________________________________________________________________________________________________ // Function: Video_AddMessage // Purpose: Adds a message to the display queue, to be shown forthe specified time // input: pointer to the null-terminated string, time in milliseconds // output: none // EXPORT void CALL Video_AddMessage(const char* pstr, unsigned int milliseconds); #include "ExportEpilog.h" #endif