/***************************************************************************** * * DICal.c * * Copyright (c) 1996 Microsoft Corporation. All Rights Reserved. * * Abstract: * * Functions that manage axis ramps and calibration. * * Structure names begin with "Joy" for historical reasons. * * Contents: * * CCal_CookRange * CCal_RecalcRange * *****************************************************************************/ #include "dinputpr.h" /***************************************************************************** * * The sqiffle for this file. * *****************************************************************************/ #define sqfl sqflCal /***************************************************************************** * * @doc INTERNAL * * @func LONG | CCal_MulDiv | * * High-speed MulDiv for Intel x86 boxes. Otherwise, uses * the standard MulDiv. The values involved are always * nonnegative. * * @parm LONG | lA | * * Multiplicand. * * @parm LONG | lB | * * Multiplier. * * @parm LONG | lC | * * Denominator. * * @returns * * lA * lB / lC, with 64-bit intermediate precision. * *****************************************************************************/ #if defined(_X86_) #pragma warning(disable:4035) /* no return value (duh) */ __declspec(naked) LONG EXTERNAL CCal_MulDiv(LONG lA, LONG lB, LONG lC) { lA; lB; lC; _asm { mov eax, [esp+4] mul dword ptr [esp+8] div dword ptr [esp+12] ret 12 } } #pragma warning(default:4035) #endif /***************************************************************************** * * @doc INTERNAL * * @method void | CCal | CookAxisPOV | * * Cook a piece of POV data into one of five defined data. * * @cwrap PJOYRANGECONVERT | this * * @parm INOUT PLONG | pl | * * On entry, contains the raw value. On exit, contains the * cooked value. (Or the raw value if the axis is raw.) * * @returns * * None. * *****************************************************************************/ #ifdef WINNT void CookAxisPOV( PJOYRANGECONVERT this, LONG UNALIGNED *pl ) { LONG l; /* * figure out which direction this value indicates... */ if( (*pl > this->lMinPOV[JOY_POVVAL_FORWARD]) &&(*pl < this->lMaxPOV[JOY_POVVAL_FORWARD]) ) { l = JOY_POVFORWARD; } else if( (*pl > this->lMinPOV[JOY_POVVAL_BACKWARD]) &&(*pl < this->lMaxPOV[JOY_POVVAL_BACKWARD]) ) { l = JOY_POVBACKWARD; } else if( (*pl > this->lMinPOV[JOY_POVVAL_LEFT]) &&(*pl < this->lMaxPOV[JOY_POVVAL_LEFT]) ) { l = JOY_POVLEFT; } else if( (*pl > this->lMinPOV[JOY_POVVAL_RIGHT]) &&(*pl < this->lMaxPOV[JOY_POVVAL_RIGHT]) ) { l = JOY_POVRIGHT; } else { l = JOY_POVCENTERED; } #if 0 { TCHAR buf[100]; wsprintf(buf, TEXT("calibrated pov: %d\r\n"), l); OutputDebugString(buf); } #endif *pl = l; } #endif /***************************************************************************** * * @doc INTERNAL * * @method void | CCal | CookRange | * * Cook a piece of phys data into a range. * * @cwrap PJOYRANGECONVERT | this * * @parm INOUT PLONG | pl | * * On entry, contains the raw value. On exit, contains the * cooked value. (Or the raw value if the axis is raw.) * * @returns * * None. * *****************************************************************************/ void EXTERNAL CCal_CookRange(PJOYRANGECONVERT this, LONG UNALIGNED *pl) { if (this->fRaw) { /* * Nothing to do! */ } #ifdef WINNT else if ( this->fFakeRaw ) { if( this->dwPmin & 0x80000000 ) { *pl -= (long)this->dwPmin; } } #endif else { #ifdef WINNT if( this->fPolledPOV ) { CookAxisPOV( this, pl ); } else #endif { LONG l; LONG lRc; PCJOYRAMP prmp; l = *pl; /* * Choose the low or high ramp, depending on which side we're in. * * This comparison could've been against Dmax or Dmin or Pc. * We must use Dmax because we jiggered up the rmpHigh so * that it rounds properly, so we can't use the flat part * below rmpHigh.x because it's at the wrong level. */ if (l < this->rmpHigh.x) { prmp = &this->rmpLow; } else { prmp = &this->rmpHigh; } if (l <= prmp->x) { lRc = 0; } else { l -= prmp->x; if ((DWORD)l < prmp->dx) { /* * Note that prmp->dx cannot be zero because it * is greater than something! */ lRc = CCal_MulDiv((DWORD)l, prmp->dy, prmp->dx); } else { lRc = prmp->dy; } } lRc += prmp->y; *pl = lRc; } } } /***************************************************************************** * * @doc INTERNAL * * @method void | CCal | RecalcRange | * * Compute all the values that derive from the user's * range settings. * * Be careful not to create values that will cause us to * divide by zero later. Fortunately, * never divides by zero due to the * clever way it was written. * * @cwrap PJOYRANGECONVERT | this * * @returns * * None. * *****************************************************************************/ void EXTERNAL CCal_RecalcRange(PJOYRANGECONVERT this) { int dx; DWORD dwSat; AssertF(this->dwDz <= RANGEDIVISIONS); AssertF(this->dwSat <= RANGEDIVISIONS); AssertF(this->lMin <= this->lC); AssertF(this->lC <= this->lMax); dwSat = max(this->dwSat, this->dwDz); /* Smin - Bottom of saturation range */ dx = CCal_MulDiv(this->dwPc - this->dwPmin, dwSat, RANGEDIVISIONS); this->rmpLow.x = this->dwPc - dx; /* Dmin - Bottom of dead zone */ dx = CCal_MulDiv(this->dwPc - this->dwPmin, this->dwDz, RANGEDIVISIONS); this->rmpLow.dx = (this->dwPc - dx) - this->rmpLow.x; /* * Establish the vertical extent of the low end of the ramp. */ this->rmpLow.y = this->lMin; this->rmpLow.dy = this->lC - this->lMin; /* Dmax - Top of the dead zone */ dx = CCal_MulDiv(this->dwPmax - this->dwPc, this->dwDz, RANGEDIVISIONS); if ( this->dwPmax > this->dwPc+1 ){ this->rmpHigh.x = this->dwPc + dx + 1; } else { this->rmpHigh.x = this->dwPc + dx; } /* Smax - Top of the saturation range */ dx = CCal_MulDiv(this->dwPmax - this->dwPc, dwSat, RANGEDIVISIONS); this->rmpHigh.dx = (this->dwPc + dx) - this->rmpHigh.x; /* * Establish the vertical extent of the high end of the ramp. * * If the high end is zero, then the entire ramp is zero. * Otherwise, put the bottom at +1 so that when the user * just barely leaves the dead zone, we report a nonzero * value. Note: If we were really clever, we could use * a bias to get "round upwards", but it's not worth it. * */ if ( (this->lMax > this->lC) && (this->dwPmax > this->dwPc+1) ) { this->rmpHigh.y = this->lC + 1; } else { this->rmpHigh.y = this->lC; } this->rmpHigh.dy = this->lMax - this->rmpHigh.y; #if 0 RPF( "Raw: %d Dead Zone: 0x%08x Saturation: 0x%08x", this->fRaw, this->dwDz, this->dwSat ); RPF( "Physical min: 0x%08x max: 0x%08x cen: 0x%08x", this->lMin, this->lMax, this->lC ); RPF( "Logical min: 0x%08x max: 0x%08x cen: 0x%08x", this->dwPmin, this->dwPmax, this->dwPc ); RPF( "Lo ramp X: 0x%08x dX: 0x%08x Y: 0x%08x dY: 0x%08x", this->rmpLow.x, this->rmpLow.dx, this->rmpLow.y, this->rmpLow.dy ); RPF( "Hi ramp X: 0x%08x dX: 0x%08x Y: 0x%08x dY: 0x%08x", this->rmpHigh.x, this->rmpHigh.dx, this->rmpHigh.y, this->rmpHigh.dy ); #endif } /***************************************************************************** * * @doc INTERNAL * * @method HRESULT | CCal | GetProperty | * * Read a property from a calibration structure. * * The caller is permitted to pass a property that doesn't * apply to calibration, in which case * is returned, as it should be. * * @cwrap PJOYRANGECONVERT | this * * @parm REFGUID | rguid | * * The property being retrieved. * * @parm IN REFGUID | rguid | * * The identity of the property to be obtained. * * @parm IN LPDIPROPHEADER | pdiph | * * Points to the portion of a structure * which depends on the property. * * @parm IN DWORD | dwVerion * Version of DirectInput DLL. * * @returns * * if the operation completed successfully. * * nothing happened. The caller will do * the default thing in response to . * *****************************************************************************/ STDMETHODIMP CCal_GetProperty(PJOYRANGECONVERT this, REFGUID rguid, LPDIPROPHEADER pdiph, DWORD dwVersion) { HRESULT hres; LPDIPROPRANGE pdiprg = CONTAINING_RECORD(pdiph, DIPROPRANGE, diph); LPDIPROPDWORD pdipdw = CONTAINING_RECORD(pdiph, DIPROPDWORD, diph); LPDIPROPCAL pdipcal = CONTAINING_RECORD(pdiph, DIPROPCAL , diph); EnterProc(CCal::GetProperty, (_ "pxpx", this, rguid, pdiph, dwVersion)); switch ((DWORD)(UINT_PTR)rguid) { case (DWORD)(UINT_PTR)DIPROP_RANGE: pdiprg->lMin = this->lMin; pdiprg->lMax = this->lMax; hres = S_OK; break; case (DWORD)(UINT_PTR)DIPROP_DEADZONE: pdipdw->dwData = this->dwDz; hres = S_OK; break; case (DWORD)(UINT_PTR)DIPROP_SATURATION: pdipdw->dwData = this->dwSat; hres = S_OK; break; case (DWORD)(UINT_PTR)DIPROP_CALIBRATIONMODE: #ifdef WINNT if( (dwVersion < 0x700) && (dwVersion != 0x5B2) ) { pdipdw->dwData = this->fFakeRaw; } else #endif { pdipdw->dwData = this->fRaw; } hres = S_OK; break; case (DWORD)(UINT_PTR)DIPROP_CALIBRATION: #ifdef WINNT if( (dwVersion < 0x700) && (dwVersion != 0x5B2) && (this->dwPmin & 0x8000) ) { pdipcal->lMin = 0; pdipcal->lMax = (long)this->dwPmax - (long)this->dwPmin; pdipcal->lCenter = CCal_Midpoint(pdipcal->lMin, pdipcal->lMax);; } else #endif { pdipcal->lMin = this->dwPmin; pdipcal->lMax = this->dwPmax; pdipcal->lCenter = this->dwPc; } hres = S_OK; break; default: hres = E_NOTIMPL; break; } ExitOleProc(); return hres; } /***************************************************************************** * * @doc INTERNAL * * @method HRESULT | CCal | SetCalibration | * * The app (hopefully a control panel) is changing the * calibration. * * @cwrap PJOYRANGECONVERT | this * * @parm IN LPCDIPROPINFO | ppropi | * * Information describing the property being set. * * @parm IN LPCDIPROPHEADER | pdiph | * * Points to the portion of a structure * which depends on the property. * * @parm HKEY | hkType | * * Registry key to use calibration information. * * @returns * * if the operation completed successfully. * * nothing happened. The caller will do * the default thing in response to . * *****************************************************************************/ STDMETHODIMP CCal_SetCalibration(PJOYRANGECONVERT this, LPCDIPROPINFO ppropi, LPCDIPROPHEADER pdiph, HKEY hkType) { HRESULT hres; #ifdef WINNT if( ppropi->dwDevType == DIDFT_POV ) { if( this->fPolledPOV ) { LPCDIPROPCALPOV pdipcalpov = CONTAINING_RECORD(pdiph, DIPROPCALPOV, diph); if (hkType) { LPDIPOVCALIBRATION ppov; HKEY hk; /* * We pun a DIPROPCALPOV as a DIPOVCALIBRATION. */ #define CheckField(f) \ CAssertF(FIELD_OFFSET(DIPROPCALPOV, l##f) - cbX(DIPROPHEADER) == \ FIELD_OFFSET(DIPOVCALIBRATION, l##f)) CheckField(Min); CheckField(Max); #undef CheckField ppov = pvAddPvCb(pdipcalpov, cbX(DIPROPHEADER)); AssertF( !memcmp(ppov->lMin, pdipcalpov->lMin, cbX(DIPOVCALIBRATION)) ); AssertF( !memcmp(ppov->lMax, pdipcalpov->lMax, cbX(DIPOVCALIBRATION)) ); hres = CType_OpenIdSubkey(hkType, ppropi->dwDevType, DI_KEY_ALL_ACCESS, &hk); if (SUCCEEDED(hres)) { /* * All 0x0's for calibration is our cue to reset * to default values. */ if( ppov->lMin[0] == ppov->lMin[1] == ppov->lMin[2] == ppov->lMin[3] == ppov->lMin[4] == ppov->lMax[0] == ppov->lMax[1] == ppov->lMax[2] == ppov->lMax[3] == ppov->lMax[4] == 0 ) { RegDeleteValue(hk, TEXT("Calibration")) ; } else { hres = JoyReg_SetValue(hk, TEXT("Calibration"), REG_BINARY, ppov, cbX(DIPOVCALIBRATION)); } RegCloseKey(hk); } } else { hres = S_FALSE; } if (SUCCEEDED(hres)) { memcpy( this->lMinPOV, pdipcalpov->lMin, cbX(pdipcalpov->lMin) ); memcpy( this->lMaxPOV, pdipcalpov->lMax, cbX(pdipcalpov->lMax) ); } } else { hres = E_NOTIMPL; } } else #endif { LPCDIPROPCAL pdipcal = CONTAINING_RECORD(pdiph, DIPROPCAL, diph); if (hkType) { LPDIOBJECTCALIBRATION pcal; HKEY hk; /* * We pun a DIPROPCAL as a DIOBJECTCALIBRATION. */ #define CheckField(f) \ CAssertF(FIELD_OFFSET(DIPROPCAL, l##f) - cbX(DIPROPHEADER) == \ FIELD_OFFSET(DIOBJECTCALIBRATION, l##f)) CheckField(Min); CheckField(Max); CheckField(Center); #undef CheckField pcal = pvAddPvCb(pdipcal, cbX(DIPROPHEADER)); AssertF(pcal->lMin == pdipcal->lMin); AssertF(pcal->lMax == pdipcal->lMax); AssertF(pcal->lCenter == pdipcal->lCenter); hres = CType_OpenIdSubkey(hkType, ppropi->dwDevType, DI_KEY_ALL_ACCESS, &hk); if (SUCCEEDED(hres)) { /* * All 0x0's for calibration is our cue to reset * to default values. */ if( pcal->lMin == pcal->lMax && pcal->lCenter == pcal->lMax && pcal->lMax == 0x0 ) { RegDeleteValue(hk, TEXT("Calibration")) ; } else { hres = JoyReg_SetValue(hk, TEXT("Calibration"), REG_BINARY, pcal, cbX(DIOBJECTCALIBRATION)); } RegCloseKey(hk); } } else { hres = S_FALSE; } if (SUCCEEDED(hres)) { this->dwPmin = pdipcal->lMin; this->dwPmax = pdipcal->lMax; this->dwPc = pdipcal->lCenter; CCal_RecalcRange(this); } } return hres; } /***************************************************************************** * * @doc INTERNAL * * @method HRESULT | CCal | SetProperty | * * Write a property to a calibration structure. * * The caller is permitted to pass a property that doesn't * apply to calibration, in which case * is returned, as it should be. * * @cwrap PJOYRANGECONVERT | this * * @parm IN LPCDIPROPINFO | ppropi | * * Information describing the property being set. * * @parm IN LPDIPROPHEADER | pdiph | * * Points to the portion of a structure * which depends on the property. * * @parm HKEY | hkType | * * Registry key to use if setting calibration information. * * @parm IN DWORD | dwVerion * Version of DirectInput DLL. * * @returns * * if the operation completed successfully. * * nothing happened. The caller will do * the default thing in response to . * *****************************************************************************/ STDMETHODIMP CCal_SetProperty(PJOYRANGECONVERT this, LPCDIPROPINFO ppropi, LPCDIPROPHEADER pdiph, HKEY hkType, DWORD dwVersion) { HRESULT hres; LPCDIPROPRANGE pdiprg = (PCV)pdiph; LPCDIPROPDWORD pdipdw = (PCV)pdiph; LPDWORD pdw; EnterProc(CCal::SetProperty, (_ "pxpx", this, ppropi->pguid, pdiph, dwVersion)); switch ((DWORD)(UINT_PTR)ppropi->pguid) { case (DWORD)(UINT_PTR)DIPROP_RANGE: if (pdiprg->lMin <= pdiprg->lMax) { this->lMin = pdiprg->lMin; this->lMax = pdiprg->lMax; this->lC = CCal_Midpoint(this->lMin, this->lMax); CCal_RecalcRange(this); SquirtSqflPtszV(sqflCal, TEXT("CCal_SetProperty:DIPROP_RANGE: lMin: %08x, lMax: %08x"), this->lMin, this->lMax ); hres = S_OK; } else { RPF("ERROR DIPROP_RANGE: lMin must be <= lMax"); hres = E_INVALIDARG; } break; case (DWORD)(UINT_PTR)DIPROP_DEADZONE: pdw = &this->dwDz; goto finishfraction; case (DWORD)(UINT_PTR)DIPROP_SATURATION: pdw = &this->dwSat; goto finishfraction; finishfraction:; if (pdipdw->dwData <= RANGEDIVISIONS) { *pdw = pdipdw->dwData; CCal_RecalcRange(this); hres = S_OK; } else { RPF("SetProperty: Value must be 0 .. 10000"); hres = E_INVALIDARG; } break; case (DWORD)(UINT_PTR)DIPROP_CALIBRATIONMODE: if ((pdipdw->dwData & ~DIPROPCALIBRATIONMODE_VALID) == 0) { /* * Some applications don't like negative raw data, so * we need cook the data for them instead of giving them * the real raw data. See Manbug: 45898. -qzheng */ #ifdef WINNT if( (dwVersion < 0x700) && (dwVersion != 0x5B2) && (this->dwPmin & 0x8000)) { this->fFakeRaw = pdipdw->dwData; } else #endif { this->fRaw = pdipdw->dwData; } hres = S_OK; } else { RPF("ERROR SetProperty: invalid calibration flags"); hres = E_INVALIDARG; } break; case (DWORD)(UINT_PTR)DIPROP_CALIBRATION: case (DWORD)(UINT_PTR)DIPROP_SPECIFICCALIBRATION: hres = CCal_SetCalibration(this, ppropi, pdiph, hkType); break; default: hres = E_NOTIMPL; break; } ExitOleProc(); return hres; }