// Copyright (c) 1998-2010 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32\drivers\xyin\d_xyin.cpp
// Generic digitiser driver
//
//
#include <drivers/xyin.h>
#include <kernel/kern_priv.h>
#include <hal_data.h>
_LIT(KLitDigitiser,"Digitiser");
LOCAL_C void sampleDfc(TAny* aPtr)
{
((DDigitiser*)aPtr)->ProcessRawSample();
}
LOCAL_C void penUpDfc(TAny* aPtr)
{
((DDigitiser*)aPtr)->ProcessPenUp();
}
LOCAL_C TInt halFunction(TAny* aPtr, TInt aFunction, TAny* a1, TAny* a2)
{
DDigitiser* pH=(DDigitiser*)aPtr;
return pH->HalFunction(aFunction,a1,a2);
}
LOCAL_C void rxMsg(TAny* aPtr)
{
DDigitiser& h=*(DDigitiser*)aPtr;
TMessageBase* pM=h.iMsgQ.iMessage;
if (pM)
h.HandleMsg(pM);
}
DDigitiser::DDigitiser()
: DPowerHandler(KLitDigitiser),
iMsgQ(rxMsg,this,NULL,1),
iSampleDfc(sampleDfc,this,5),
iPenUpDfc(penUpDfc,this,5),
iOrientation(HALData::EDigitiserOrientation_default)
{
// iBufferIndex=0;
// iLastPos=TPoint(0,0);
// iState=EIdle;
// iCount=0;
// iPointerOn=EFalse
}
TInt DDigitiser::Create()
{
TInt r=DoCreate(); // do hardware-dependent initialisation
if (r!=KErrNone)
return r;
__ASSERT_DEBUG(iDfcQ, Kern::Fault("DDigitiser::Create iDfcQ not set", __LINE__));
iMsgQ.SetDfcQ(iDfcQ);
iSampleDfc.SetDfcQ(iDfcQ);
iPenUpDfc.SetDfcQ(iDfcQ);
TInt n=iCfg.iPenUpDiscard; // number of samples to delay
iBuffer=(TPoint*)Kern::Alloc(n*sizeof(TPoint));
if (!iBuffer)
return KErrNoMemory;
// install the HAL function
r=Kern::AddHalEntry(EHalGroupDigitiser,halFunction,this);
if (r!=KErrNone)
return r;
iMsgQ.Receive();
// wait for pen down
WaitForPenDown();
return r;
}
void DDigitiser::RawSampleValid()
//
// Called by hardware-dependent code when a raw sample is available
//
{
iSampleDfc.Add();
}
void DDigitiser::PenUp()
//
// Called by hardware-dependent code when the pen goes up
//
{
iPenUpDfc.Add();
}
void DDigitiser::ProcessRawSample()
//
// DFC to process a raw sample
//
{
TPoint p;
TInt r;
TBool ok=SamplesToPoint(p);
if (!ok)
{
// wait for pen to stabilise
__KTRACE_XY2(Kern::Printf("BS"));
WaitForPenUpDebounce();
return;
}
__KTRACE_XY2(Kern::Printf("GS (%d,%d) %d",p.iX,p.iY,iState));
switch (iState)
{
case EIdle:
// pen has just gone down
iCount=iCfg.iPenDownDiscard;
iState=EDiscardOnPenDown;
// fall through
case EDiscardOnPenDown:
if (iCount)
{
// still discarding
iCount--;
break;
}
iState=EBufferFilling;
iBufferIndex=0;
iCount=iCfg.iPenUpDiscard;
// fall through
case EBufferFilling:
if (iCount)
{
// buffer still filling
iCount--;
iBuffer[iBufferIndex++]=p;
if (iBufferIndex==iCfg.iPenUpDiscard)
iBufferIndex=0;
break;
}
iState=EBufferFull;
// fall through
case EBufferFull:
r=DelayAndConvertSample(p,iLastPos);
if (r!=KErrNone)
break; // off the screen, so don't issue Pen Down Event
iState=EPenDown;
ResetPenMoveFilter();
IssuePenDownEvent();
break;
case EPenDown:
r=DelayAndConvertSample(p,p);
if (r!=KErrNone)
{
iState=EIdle; // off the screen, so treat as pen-up
IssuePenUpEvent();
break;
}
FilterPenMove(p);
break;
};
WaitForPenUp(); // request another sample from the hardware
}
void DDigitiser::ProcessPenUp()
//
// DFC to process pen-up events
//
{
__KTRACE_XY2(Kern::Printf("up %d",iState));
switch (iState)
{
case EIdle:
case EDiscardOnPenDown:
case EBufferFilling:
case EBufferFull:
iState=EIdle;
break;
case EPenDown:
iState=EIdle;
IssuePenUpEvent();
break;
}
WaitForPenDown(); // tell the hardware to watch for another pen-down
}
TBool DDigitiser::SamplesToPoint(TPoint& aPoint)
//
// Average and validate the raw samples from the hardware
//
{
#if defined(__DIGITISER_DEBUG2__)
TBuf<80> buf;
#endif
TInt i;
TInt minx=KMaxTInt;
TInt miny=KMaxTInt;
TInt maxx=KMinTInt;
TInt maxy=KMinTInt;
TInt sumx=0;
TInt sumy=0;
TInt n=iCfg.iNumXYSamples;
for (i=0; i<n; i++)
{
TInt x=iX[i];
if (x<minx)
minx=x;
if (x>maxx)
maxx=x;
sumx+=x;
TInt y=iY[i];
if (y<miny)
miny=y;
if (y>maxy)
maxy=y;
sumy+=y;
// __KTRACE_XY2(buf.AppendFormat(_L("(%d,%d) "),x,y));
__KTRACE_XY2(Kern::Printf("(%d,%d) ",x,y));
}
// __KTRACE_XY2(Kern::Printf("%S", buf));
TInt spreadx=maxx-minx;
TInt spready=maxy-miny;
if (iCfg.iDisregardMinMax)
{
sumx-=minx; // disregard extremal values in average
sumx-=maxx;
sumy-=miny;
sumy-=maxy;
n-=2;
}
sumx/=n; // average the values
sumy/=n;
if (spreadx<iCfg.iSpreadX && spready<iCfg.iSpreadY && sumx>=iCfg.iMinX && sumx<=iCfg.iMaxX && sumy>=iCfg.iMinY && sumy<=iCfg.iMaxY)
{
// samples are OK
aPoint.iX=sumx;
aPoint.iY=sumy;
return ETrue;
}
// samples are dodgy
return EFalse;
}
TInt DDigitiser::DelayAndConvertSample(const TPoint& aSample, TPoint& aScreenPoint)
//
// Pass a sample through the delay line and convert to screen coordinates
//
{
if (iCfg.iPenUpDiscard != 0)
{
TPoint p=iBuffer[iBufferIndex]; // sample leaving delay line
iBuffer[iBufferIndex++]=aSample; // sample entering delay line
if (iBufferIndex==iCfg.iPenUpDiscard)
iBufferIndex=0;
return DigitiserToScreen(p,aScreenPoint);
}
return DigitiserToScreen(aSample,aScreenPoint);
}
void DDigitiser::IssuePenDownEvent()
{
TRawEvent e;
e.Set(TRawEvent::EButton1Down,iLastPos.iX,iLastPos.iY);
Kern::AddEvent(e);
__KTRACE_XY2(Kern::Printf("D %d,%d",e.Pos().iX,e.Pos().iY));
}
void DDigitiser::IssuePenUpEvent()
{
TRawEvent e;
e.Set(TRawEvent::EButton1Up,iLastPos.iX,iLastPos.iY);
Kern::AddEvent(e);
__KTRACE_XY2(Kern::Printf("U %d,%d",e.Pos().iX,e.Pos().iY));
}
void DDigitiser::IssuePenMoveEvent(const TPoint& aPoint)
{
TRawEvent e;
e.Set(TRawEvent::EPointerMove,aPoint.iX,aPoint.iY);
Kern::AddEvent(e);
__KTRACE_XY2(Kern::Printf("M %d,%d",e.Pos().iX,e.Pos().iY));
}
void DDigitiser::HandleMsg(TMessageBase* aMsg)
{
if (aMsg->iValue)
DigitiserOn();
else
DigitiserOff();
aMsg->Complete(KErrNone,ETrue);
}
TInt DDigitiser::HalFunction(TInt aFunction, TAny* a1, TAny* a2)
{
TInt r=KErrNone;
__KTRACE_OPT(KEXTENSION,Kern::Printf("HalFunction %d", aFunction));
switch(aFunction)
{
case EDigitiserHalXYInfo:
{
TPckgBuf<TDigitiserInfoV01> vPckg;
DigitiserInfo(vPckg());
Kern::InfoCopy(*(TDes8*)a1,vPckg);
break;
}
case EDigitiserHalSetXYInputCalibration:
{
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EDigitiserHalSetXYInputCalibration")))
return KErrPermissionDenied;
TDigitizerCalibration cal;
kumemget32(&cal,a1,sizeof(TDigitizerCalibration));
r=SetXYInputCalibration(cal);
break;
}
case EDigitiserHalCalibrationPoints:
TDigitizerCalibration cal;
r=CalibrationPoints(cal);
kumemput32(a1,&cal,sizeof(TDigitizerCalibration));
break;
case EDigitiserHalSaveXYInputCalibration:
r=SaveXYInputCalibration();
break;
case EDigitiserHalRestoreXYInputCalibration:
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EDigitiserHalRestoreXYInputCalibration")))
return KErrPermissionDenied;
r=RestoreXYInputCalibration((TDigitizerCalibrationType)(TInt)a1);
break;
case EDigitiserHalSetXYState:
{
if(!Kern::CurrentThreadHasCapability(ECapabilityPowerMgmt,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EDigitiserHalSetXYState")))
return KErrPermissionDenied;
if ((TBool)a1)
{
TThreadMessage& m=Kern::Message();
m.iValue = ETrue;
m.SendReceive(&iMsgQ);
}
else
{
TThreadMessage& m=Kern::Message();
m.iValue = EFalse;
m.SendReceive(&iMsgQ);
}
}
break;
case EDigitiserHalXYState:
kumemput32(a1, (TBool*)&iPointerOn, sizeof(TBool));
break;
// a2 = TBool aSet (ETrue for setting, EFalse for retrieval)
// a1 = TDigitizerOrientation (set)
// a1 = &TDigitizerOrientation (get)
case EDigitiserOrientation:
if ((TBool)a2)
{
// Set the orientation attribute
// In case user thread, check it has WDD capability
if(!Kern::CurrentThreadHasCapability(ECapabilityWriteDeviceData,__PLATSEC_DIAGNOSTIC_STRING("Checked by Hal function EDigitiserOrientation")))
return KErrPermissionDenied;
iOrientation = (TInt)a1;
}
else
{
// Get the orientation attribute, safe copy it into user memory
kumemput32(a1, &iOrientation, sizeof(TInt));
}
break;
default:
r=KErrNotSupported;
break;
}
return r;
}
DECLARE_STANDARD_EXTENSION()
{
__KTRACE_OPT(KEXTENSION,Kern::Printf("Starting digitiser driver"));
if (Kern::SuperPage().iCpuId & KCpuIdISS)
return KErrNone; // no digitiser on ARMULATOR
DDigitiser* pD=DDigitiser::New();
TInt r=KErrNoMemory;
if (pD)
r=pD->Create();
__KTRACE_OPT(KEXTENSION,Kern::Printf("Returning %d",r));
return r;
}
#ifdef __BUILD_DEVICE_DRIVER__
class DDigitiserPdd : public DPhysicalDevice
{
public:
virtual TInt Install();
virtual void GetCaps(TDes8& aDes) const;
virtual TInt Create(DBase*& aChannel, TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
virtual TInt Validate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
};
_LIT(KPddName,"XYInput");
TInt DDigitiserPdd::Install()
{
return SetName(&KPddName);
}
void DDigitiserPdd::GetCaps(TDes8&) const
{
}
TInt DDigitiserPdd::Create(DBase*& aChannel, TInt, const TDesC8*, const TVersion&)
{
aChannel=NULL;
return KErrNone;
}
TInt DDigitiserPdd::Validate(TInt, const TDesC8*, const TVersion&)
{
return KErrNotSupported;
}
DECLARE_EXTENSION_PDD()
{
return new DDigitiserPdd;
}
#endif