/*****************/ /*** Pad Stuff ***/ /*****************/ #include #include "system/global.h" #include "pad/pads.H" #ifndef __SYSTEM_GSTATE_H__ #include "system\gstate.h" #endif #ifndef __PAD_VIBE_H__ #include "pad\vibe.h" #endif /*****************************************************************************/ // Yay! Automatic key-repeat stuff! #define TYPOMATIC_DELAY 30 #define TYPOMATIC_RATE 15 /*****************************************************************************/ /*****************************************************************************/ sPadData PadData[2]; u8 PadBuffer[2][34]; u8 PadAlign[6]={0,1,0xFF,0xFF,0xFF,0xFF}; u8 PadMotor[2][2]; int PadRepeatTimers[2][16]; typedef struct { int m_vibrationTurnedOn; u8 m_intensityValue; } PadVibeData; #ifdef __USER_CDBUILD__ static PadVibeData s_padVibeData[2]={{true,0},{true,0}}; #else static PadVibeData s_padVibeData[2]={{false,0},{false,0}}; #endif int PadVibrationActive[2]={false,false}; u8 PadVibrationIntensityValues[2]; /*****************************************************************************/ // 701 // 6 2 // 543 u16 PADAngeDirTable[16]= { 0, // 0 (ONE/8)*0, // 1 U (ONE/8)*2, // 2 R (ONE/8)*1, // 3 UR (ONE/8)*4, // 4 D 0, // 5 UD !! (ONE/8)*3, // 6 DR 0, // 7 DUR !! (ONE/8)*6, // 8 L (ONE/8)*7, // 9 UL 0, // 10 LR !! 0, // 11 LUR !! (ONE/8)*5, // 12 DL 0, // 13 LUD 0, // 14 LDR 0, // 15 LDUR }; /*****************************************************************************/ void VibrationHandler(int _port); /*****************************************************************************/ void PadInitShock(int Port) { int offs,maxID,set; if(!PadData[Port].Active)return; // ReInit Dual Shock if required VSync(20); maxID = PadInfoMode(0x00,InfoModeIdTable,-1); VSync(5); for(offs=0;offsOld=Pad->Held; Held=Pad->Held=Val; Pad->Down=(Held^Old)&Held; Pad->Up=(Held^0xffff)&Old; } /*****************************************************************************/ const s16 AnalogThresh=64; void Pad2Digital(sPadData *Pad) { u16 Button; // Buttons Button = ~((Pad->Button1<<8) | Pad->Button2); // Motion if (Pad->IsAnalogue) { s16 XOfs=Pad->Analog2-127; s16 YOfs=Pad->Analog3-127; if (XOfs<-AnalogThresh) Button|=PAD_LEFT; else if (XOfs>+AnalogThresh) Button|=PAD_RIGHT; if (YOfs<-AnalogThresh) Button|=PAD_UP; else if (YOfs>+AnalogThresh) Button|=PAD_DOWN; } PadSetVals(Pad,Button); } /*****************************************************************************/ int PadIsDualShock(int Port) { return (PadData[Port].IsAnalogue==2); } /*****************************************************************************/ void ReadController(int Port) { u8 *PadBuf=&PadBuffer[Port][0]; sPadData *Pad=&PadData[Port]; int PortShift=Port<<4; int intensity; Pad->IsAnalogue=0; Pad->Status=PadGetState(PortShift); if ((Pad->Status==PadStateDiscon) || PadBuf[0]) { Pad->Active=0; Pad->Type=0; return; } Pad->Active=1; Pad->Type = PadBuf[1]>>4; Pad->Button1 = PadBuf[2]; Pad->Button2 = PadBuf[3]; Pad->Analog0 = PadBuf[4]; Pad->Analog1 = PadBuf[5]; Pad->Analog2 = PadBuf[6]; Pad->Analog3 = PadBuf[7]; switch( Pad->Type ) { case PsxPadTypeNone: break; case PsxPadTypeMouse: // Sony Mouse Pad->Dx = Pad->Analog0; Pad->Dy = Pad->Analog1; if ( Pad->Dx & 0x80) Pad->Dx|= 0xffffff80; if ( Pad->Dy & 0x80) Pad->Dy|= 0xffffff80; break; case PsxPadTypeNegiCon: // Namco negCon // Steering wheel // Sankyo Pachinko controler break; case PsxPadTypeKonamiGun: // Light Gun break; case PsxPadTypeStandard: // Standard Sony PAD controller intensity=s_padVibeData[Port].m_intensityValue; Pad->Motor0=intensity&1; Pad->Motor1=intensity&0xff; Pad2Digital(Pad); break; case PsxPadTypeAnalogStick: case PsxPadTypeAnalogController:// Analog 2-stick if (PadInfoMode(0,InfoModeCurExID,0)==7) Pad->IsAnalogue=2; else Pad->IsAnalogue=1; // Set vibration values ( motor 0 is 0..1, motor 1 is 0..255 ) intensity=s_padVibeData[Port].m_intensityValue; Pad->Motor0=intensity&1; Pad->Motor1=intensity&0xff; Pad2Digital(Pad); break; case PsxPadTypeNamcoGun: break; default: break; } if (Pad->Status == PadStateFindPad) { Pad->Send = 0; } if ( Pad->Send==0 ) { PadSetAct(PortShift,&(Pad->Motor0),2); if (Pad->Status == PadStateFindCTP1) { Pad->Send = 1; } if (Pad->Status == PadStateStable) { if (PadSetActAlign(PortShift,PadAlign)) Pad->Send = 1; } } } /*****************************************************************************/ u16 PadGetUp(int Port) { return(PadData[Port].Up); } /*****************************************************************************/ u16 PadGetDown(int Port) { return(PadData[Port].Down); } /*****************************************************************************/ u16 PadGetHeld(int Port) { return(PadData[Port].Held); } /*****************************************************************************/ u16 PadGetRepeat(int Port) { return(PadData[Port].Repeat); } /*****************************************************************************/ void PadClear(int Port) { PadData[Port].Up=PadData[Port].Down=PadData[Port].Held=PadData[Port].Old=0; PadData[Port].Dx=PadData[Port].Dy=0; } /*****************************************************************************/ void UpdateRepeats(int _port) { int frames,pad,i,mask,*repeatTimers; u16 *repeatFlags; frames=GameState::getFramesSinceLast(); pad=PadGetHeld(_port); mask=1; repeatTimers=PadRepeatTimers[_port]; repeatFlags=&PadData[_port].Repeat; *repeatFlags=0; for(i=0;i<16;i++) { if(pad&mask) { if(*repeatTimers) { *repeatTimers-=frames; if(*repeatTimers<=0) { *repeatFlags|=mask; *repeatTimers=TYPOMATIC_RATE; } } else { *repeatFlags|=mask; *repeatTimers=TYPOMATIC_DELAY; } } else { *repeatTimers=0; } mask<<=1; repeatTimers++; } } void PadUpdate() { PadData[0].Dx= PadData[1].Dx=0; PadData[0].Dy= PadData[1].Dy=0; PadData[0].Dx1=PadData[1].Dx1=0; PadData[0].Dy1=PadData[1].Dy1=0; ReadController(0); ReadController(1); UpdateRepeats(0); UpdateRepeats(1); VibrationHandler(0); VibrationHandler(1); } /*****************************************************************************/ u16 PadGetPadAngle(u16 Pad, s16 angleAdjust) { return((PADAngeDirTable[Pad>>PAD_DIR_SHIFT]+((ONE/4)*2)+angleAdjust)&(ONE-1)); } /*****************************************************************************/ bool PadIsConnected(int port) { sPadData *pad=&PadData[port]; return pad->Status!=PadStateDiscon&&pad->Type; } /*****************************************************************************/ void PadSetVibrationIsTurnedOn(int _port,int _status) { s_padVibeData[_port].m_vibrationTurnedOn=_status; } int PadGetVibrationIsTurnedOn(int _port) { return s_padVibeData[_port].m_vibrationTurnedOn; } /*---------------------------------------------------------------------- Function: VibrationHandler Purpose: Params: Returns: ---------------------------------------------------------------------- */ void VibrationHandler(int _port) { PadVibeData *pvd; int i; pvd=s_padVibeData; for(i=0;i<2;i++) { pvd->m_intensityValue=pvd->m_vibrationTurnedOn?CPadVibrationManager::getCurrentVibrationIntensity(i):0; pvd++; } } /*****************************************************************************/ int CPadConfig::s_configNumber=-1; CPadConfig::sPadConfigTable *CPadConfig::s_cfg=NULL; CPadConfig::sPadConfigTable CPadConfig::s_padConfigs[NUM_PAD_CONFIGS]= { // Config A {{ 0, // PAD_CFG_NONE PAD_LEFT, // PAD_CFG_LEFT PAD_RIGHT, // PAD_CFG_RIGHT PAD_UP, // PAD_CFG_UP PAD_DOWN, // PAD_CFG_DOWN PAD_SQUARE, // PAD_CFG_FIRE PAD_TRIANGLE, // PAD_CFG_CATCH PAD_CROSS, // PAD_CFG_JUMP PAD_CIRCLE, // PAD_CFG_WEAPONCHANGE }}, // Config B {{ 0, // PAD_CFG_NONE PAD_LEFT, // PAD_CFG_LEFT PAD_RIGHT, // PAD_CFG_RIGHT PAD_UP, // PAD_CFG_UP PAD_DOWN, // PAD_CFG_DOWN PAD_CROSS, // PAD_CFG_FIRE PAD_TRIANGLE, // PAD_CFG_CATCH PAD_SQUARE, // PAD_CFG_JUMP PAD_CIRCLE, // PAD_CFG_WEAPONCHANGE }}, // Config C {{ 0, // PAD_CFG_NONE PAD_LEFT, // PAD_CFG_LEFT PAD_RIGHT, // PAD_CFG_RIGHT PAD_UP, // PAD_CFG_UP PAD_DOWN, // PAD_CFG_DOWN PAD_SQUARE, // PAD_CFG_FIRE PAD_CIRCLE, // PAD_CFG_CATCH PAD_CROSS, // PAD_CFG_JUMP PAD_TRIANGLE, // PAD_CFG_WEAPONCHANGE }}, }; void CPadConfig::setConfig(int _config) { ASSERT(_configm_buttons[_but]); }