Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 2008-2009 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:
// e32test\digitiser\t_traweventdigitiser.cpp
// Overview:
// Test the TRawEvent APIS and events associated with the Digitiser and also verify the BTRACEs (manually)
// API Information:
// UserSvr
// Details:
// - Test the following 6 Events types
// 1. EPointerMove
// 2. EPointer3DInRange,
// 3. EPointer3DOutOfRange,
// 4. EPointer3DTilt,
// 5. EPointer3DRotation,
// 6. EPointer3DTiltAndMove,
// Platforms/Drives/Compatibility:
// All.
// Assumptions/Requirement/Pre-requisites:
// Failures and causes:
//
//
#include <e32test.h>
#include <e32svr.h>
#include <e32cmn.h>
#include <e32cmn_private.h>
LOCAL_D RTest test(_L("t_TRawEventDigitiser"));
class TestTRawDigitiserEvent
{
public:
TestTRawDigitiserEvent(TRawEvent::TType aType,TInt aX,TInt aY,TInt aZ,TInt aScanCode,TInt aPhi,TInt aTheta,TInt aAlpha,TUint8 aPointerNumber,TUint8 iTip);
void TestEvents();
private:
TRawEvent::TType iType;
TInt iX;
TInt iY;
TInt iZ;
TInt iScanCode;
TInt iPhi;
TInt iTheta;
TInt iAlpha;
TUint8 iPointerNumber;
TUint8 iTip;
TRawEvent iDigitiser3DEvent;
};
TestTRawDigitiserEvent::TestTRawDigitiserEvent(TRawEvent::TType aType,TInt aX,TInt aY,TInt aZ,TInt aScanCode,TInt aPhi,TInt aTheta,TInt aAlpha,TUint8 aPointerNumber,TUint8 aTip):iType(aType),iX(aX),iY(aY),iZ(aZ),iScanCode(aScanCode),iPhi(aPhi),iTheta(aTheta),iAlpha(aAlpha),iPointerNumber(aPointerNumber),iTip(aTip)
{}
void TestTRawDigitiserEvent::TestEvents()
{
test(iDigitiser3DEvent.Type()==0);
iDigitiser3DEvent.Set(iType);
test(iDigitiser3DEvent.Type()==iType);
iDigitiser3DEvent.SetPointerNumber(iPointerNumber);
test(iPointerNumber == iDigitiser3DEvent.PointerNumber());
iDigitiser3DEvent.Set(iType,iScanCode);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EKeyDown);
test(iScanCode==iDigitiser3DEvent.ScanCode());
iDigitiser3DEvent.Set(iType,iX,iY);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointerMove);
test(TPoint(iX,iY)==iDigitiser3DEvent.Pos());
iDigitiser3DEvent.Set(iType,iX,iY,iZ);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointerMove);
test(TPoint3D(iX,iY,iZ)==iDigitiser3DEvent.Pos3D());
iDigitiser3DEvent.SetTip(iTip);
test(TBool(iTip) == iDigitiser3DEvent.IsTip());
iDigitiser3DEvent.SetTilt(iType,iPhi,iTheta);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointer3DTilt);
TAngle3D rawEventAnge3D=iDigitiser3DEvent.Tilt();
test((rawEventAnge3D.iPhi==iPhi) && (rawEventAnge3D.iTheta==iTheta)) ;
iDigitiser3DEvent.SetRotation(iType,iAlpha);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointer3DRotation);
test(iAlpha == iDigitiser3DEvent.Rotation());
iDigitiser3DEvent.Set(iType,iX+1,iY+1,iZ+1,iPhi+1,iTheta+1,iAlpha+1);
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointer3DTiltAndMove);
test(TPoint3D(iX+1,iY+1,iZ+1)==iDigitiser3DEvent.Pos3D());
rawEventAnge3D=iDigitiser3DEvent.Tilt();
test((rawEventAnge3D.iPhi==iPhi+1) &&(rawEventAnge3D.iTheta==iTheta+1));
test((iAlpha+1) == iDigitiser3DEvent.Rotation());
iDigitiser3DEvent.Set(iType,iX+2,iY+2,iZ+2,static_cast<TUint8>(iPointerNumber+1));
//Set the Type temporarily to get through the assertion
iDigitiser3DEvent.Set(TRawEvent::EPointer3DTiltAndMove);
test(TPoint3D(iX+2,iY+2,iZ+2)==iDigitiser3DEvent.Pos3D());
test((iPointerNumber+1) == iDigitiser3DEvent.PointerNumber());
UserSvr::AddEvent(iDigitiser3DEvent);
}
GLDEF_C TInt E32Main()
//
//
{
test.Title();
test.Start(_L("Testing Digitiser Events"));
TestTRawDigitiserEvent digitiserEvent1(TRawEvent::EPointerMove, -890,-123, -823,455,2563,156,62,3,1);
TestTRawDigitiserEvent digitiserEvent2(TRawEvent::EPointer3DInRange, 23,45,23,1,2,6,4,2,1);
TestTRawDigitiserEvent digitiserEvent3(TRawEvent::EPointer3DOutOfRange, 23,45,23,1,2,6,4,2,0);
TestTRawDigitiserEvent digitiserEvent4(TRawEvent::EPointer3DTilt, 23,45,23,1,2,6,4,2,1);
TestTRawDigitiserEvent digitiserEvent5(TRawEvent::EPointer3DRotation, 23,45,23,1,2,6,4,2,1);
TestTRawDigitiserEvent digitiserEvent6(TRawEvent::EPointer3DTiltAndMove, 23,45,23,1,2,6,4,2,0);
digitiserEvent1.TestEvents();
digitiserEvent2.TestEvents();
digitiserEvent3.TestEvents();
digitiserEvent4.TestEvents();
digitiserEvent5.TestEvents();
digitiserEvent6.TestEvents();
test.Printf(_L("T_TRAWEVENTDIGITISER: TEST Successfully Completed\n"));
test.End();
test.Close();
return KErrNone;
}