view src/video/symbian/EKA2/dsa.cpp @ 4170:092c0bc69155 SDL-1.2

Fixed bug #618 Description From Tim Angus 2008-08-30 12:23:56 (-) [reply] As we all know SDL 1.2 doesn't handle dead keys well since one key press potentially equals two (or more) characters. For example, on many layouts, keying <backquote>,<space> results in <no character>,<backquote><space>. Since the unicode member of the SDL_keysym struct only has room for one character, only one can be returned. On Linux, the first character is returned. On Windows however, unless the exact number of characters generated by the keypress is 1, nothing is returned. The following patch addresses this inconsistency. Updated patch which includes a further fix to the handling of the numpad when numlock is on. This further fix is courtesy Amanieu d'Antras.
author Sam Lantinga <slouken@libsdl.org>
date Mon, 13 Apr 2009 08:42:09 +0000
parents ce8046809062
children
line wrap: on
line source

#include "dsa.h"
#include "sdlepocapi.h"
#include <cdsb.h>


LOCAL_C TInt BytesPerPixel(TDisplayMode aMode)
	{
	return ((TDisplayModeUtils::NumDisplayModeBitsPerPixel(aMode) - 1) >> 3) + 1; 
	}




template<class T>
NONSHARABLE_CLASS(CBitmapSurface) : public T
	{
public:
	CBitmapSurface(RWsSession& aSession);
private:
	void ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice);
	~CBitmapSurface();
	TUint8* LockSurface();
	void UnlockHwSurface();
	void CreateSurfaceL();
	void Wipe(TInt aLength);
	void Free();
	void Update(CFbsBitmap& aBmp);
	TInt ExternalUpdate();
private:
	CFbsBitmap* iBmp;
	CFbsBitmap* iCopyBmp;
	};
	

template<class T>
void CBitmapSurface<T>::ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice)		
	{
	delete iCopyBmp;
	iCopyBmp = NULL;
	iCopyBmp = new (ELeave) CFbsBitmap();
	T::ConstructL(aWindow, aDevice);
	}
	
template<class T>
CBitmapSurface<T>::CBitmapSurface(RWsSession& aSession) : T(aSession)
	{
	}
	
template<class T>
void CBitmapSurface<T>::Free()
	{
	delete iBmp;
	iBmp = NULL;
	T::Free();
	}

template<class T>
CBitmapSurface<T>::~CBitmapSurface()
	{
	__ASSERT_DEBUG(iBmp == NULL, PANIC(KErrNotReady));
	delete iCopyBmp;
	}
	
template<class T>
TUint8* CBitmapSurface<T>::LockSurface()
	{
	iBmp->LockHeap();
	return reinterpret_cast<TUint8*>(iBmp->DataAddress());
	}


template<class T>
void CBitmapSurface<T>::UnlockHwSurface()
	{
	iBmp->UnlockHeap();
	T::SetUpdating(EFalse);
	Update(*iBmp);
	}

	
template<class T>	
void CBitmapSurface<T>::Update(CFbsBitmap& aBmp)
	{
	if(!T::Blitter(aBmp))
		{
		if(T::SwSize() == T::HwRect().Size())
			T::Gc().BitBlt(T::HwRect().iTl, &aBmp);
		else
			T::Gc().DrawBitmap(T::HwRect(), &aBmp);
		}
	T::DrawOverlays();
	T::CompleteUpdate();	
	}
	
template<class T>	
void CBitmapSurface<T>::CreateSurfaceL()
	{
	Free();
	iBmp  = new (ELeave) CFbsBitmap();
	User::LeaveIfError(iBmp->Create(T::SwSize(), T::DisplayMode()));
	T::CreateSurfaceL(*iBmp);
	}

template<class T>
void CBitmapSurface<T>::Wipe(TInt aLength) //dont call in drawing
	{
	iBmp->LockHeap();
	Mem::FillZ(iBmp->DataAddress(), aLength);
	iBmp->UnlockHeap();
	}

template<class T>		
TInt CBitmapSurface<T>::ExternalUpdate()
	{
	if(iCopyBmp->Handle() == 0)
		{
		const TInt err = iCopyBmp->Duplicate(iBmp->Handle());
		if(err != KErrNone)
			return err;
		}
	Update(*iCopyBmp);
	return KErrNone;
	}


//////////////////////////////////////////////////////////////////////



NONSHARABLE_CLASS(CDsaBitgdi) : public CDsa
	{
public:
	CDsaBitgdi(RWsSession& aSession);
protected:
	 void ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice);
	 CBitmapContext& Gc();
	 void CompleteUpdate();
	 ~CDsaBitgdi();
	 void CreateSurfaceL(CFbsBitmap& aBmp);
	 void Free();
	 void UnlockHWSurfaceRequestComplete();
private:
	 void Resume();
	 
	 CFbsBitGc* iGc;
	 CFbsDevice* iDevice;
	 CFbsBitmap* iBitGdiBmp;
	 CWindowGc* iWinGc;
	 RWindow* iWindow;
	 TInt iHandle;
	 };


CDsaBitgdi::CDsaBitgdi(RWsSession& aSession) : CDsa(aSession)
	{
	}

CDsaBitgdi::~CDsaBitgdi()
	{
	delete iWinGc;
	delete iBitGdiBmp;
	}

void CDsaBitgdi::CompleteUpdate()
	{
	EpocSdlEnv::Request(CDsa::ERequestUpdate);
	}

	
void CDsaBitgdi::UnlockHWSurfaceRequestComplete()
	{
	if(iHandle == 0)
		return;
	
	if(iBitGdiBmp == NULL)
		{
		iBitGdiBmp = new CFbsBitmap();
		if(iBitGdiBmp == NULL)
			return;
		iBitGdiBmp->Duplicate(iHandle);
		}
	
	iWindow->Invalidate();
	
	iWindow->BeginRedraw();
	iWinGc->Activate(*iWindow);
	iWinGc->BitBlt(TPoint(0, 0), iBitGdiBmp);
	iWinGc->Deactivate();
	iWindow->EndRedraw();
	}	
	
void CDsaBitgdi::Resume()
	{
	Start();
	}
	
CBitmapContext& CDsaBitgdi::Gc()
 	{
 	return *iGc;
 	}
 	
 void CDsaBitgdi::ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice)
 	{
 	
 	delete iBitGdiBmp;
 	iBitGdiBmp = NULL;
 	delete iWinGc;
 	iWinGc = NULL;
 	iHandle = 0;
 	
 	iWindow = &aWindow;
 	User::LeaveIfError(aDevice.CreateContext(iWinGc));
 	CDsa::ConstructL(aWindow, aDevice);
 	Start();
 	}
 	
void CDsaBitgdi::CreateSurfaceL(CFbsBitmap& aBmp)	
	{
	iDevice = CFbsBitmapDevice::NewL(&aBmp);
	User::LeaveIfError(iDevice->CreateContext(iGc));
	iHandle = aBmp.Handle();
	}
	
void CDsaBitgdi::Free()
	{
	delete iGc;
	iGc = NULL;
	delete iDevice;
	iDevice = NULL;
	}
	
////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////

NONSHARABLE_CLASS(CDsaBase) : public CDsa, public MDirectScreenAccess
	{
protected:	
	inline CDirectScreenAccess& Dsa() const;
	CDsaBase(RWsSession& aSession);
	~CDsaBase();
	void ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice);
	void Stop();
	void Resume();
	CBitmapContext& Gc();
protected:
    CDirectScreenAccess*  iDsa;
private:
	void AbortNow(RDirectScreenAccess::TTerminationReasons aReason);
	void Restart(RDirectScreenAccess::TTerminationReasons aReason);
private:
	void RestartL();
	};


inline CDirectScreenAccess& CDsaBase::Dsa() const
	{
	return *iDsa;
	}
	

CDsaBase::CDsaBase(RWsSession& aSession) : CDsa(aSession)
	{
	}
	
CBitmapContext& CDsaBase::Gc()
	{
	return *Dsa().Gc();
	}
	
void CDsaBase::ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice)
    {
    CDsa::ConstructL(aWindow, aDevice);
    if(iDsa != NULL)
    	{
    	iDsa->Cancel();
    	delete iDsa;
    	iDsa = NULL;
    	}
    	
    iDsa = CDirectScreenAccess::NewL(
    				Session(),
					aDevice,
					aWindow,
					*this);				
    RestartL();
    }	
	
void CDsaBase::Resume()	
	{
	if(Stopped())
		Restart(RDirectScreenAccess::ETerminateRegion);
	}	
	
CDsaBase::~CDsaBase()
	{
	if(iDsa != NULL)
        {
        iDsa->Cancel();
        }
    delete iDsa;
	}
	
	
void CDsaBase::RestartL()
    {
   
    
    iDsa->StartL();	
    
    const RRegion* r = iDsa->DrawingRegion();
    const TRect rect = r->BoundingRect();
    iDsa->Gc()->SetClippingRegion(r);	
   
    if(rect != ScreenRect())
    	{
    	return ;	
   	 	}
   	 	
     
   	SetTargetRect();
	RecreateL();
	
	Start();
    
    
    }

void CDsaBase::AbortNow(RDirectScreenAccess::TTerminationReasons /*aReason*/)
	{
	Stop();
	}
	
void CDsaBase::Restart(RDirectScreenAccess::TTerminationReasons aReason)
	{
	if(aReason == RDirectScreenAccess::ETerminateRegion) //auto restart
		{												
		TRAPD(err, RestartL());
		PANIC_IF_ERROR(err);
		}
	}
	
	
void CDsaBase::Stop()
	{
	CDsa::Stop();
	iDsa->Cancel();
	}
		
    
   ///////////////////////////////////////////////////////////////////////
   /////////////////////////////////////////////////////////////////////// 
NONSHARABLE_CLASS(TDsa)
	{
	public:
		inline TDsa(const CDsa& aDsa);
		inline TBool IsFlip() const;
		inline TBool IsTurn() const;
		inline const TSize& SwSize() const;
		inline void Copy(TUint32* aTarget, const TUint8* aSrc, TInt aBytes, TInt aHeight) const;
	private:
		const CDsa& iDsa;
	};




inline TDsa::TDsa(const CDsa& aDsa) : iDsa(aDsa)
	{	
	}

inline TBool TDsa::IsTurn() const
	{
	return iDsa.iStateFlags & CDsa::EOrientation90;
	}
	
inline TBool TDsa::IsFlip() const
	{
	return iDsa.iStateFlags & CDsa::EOrientation180;
	}	
	
inline const TSize& TDsa::SwSize() const
	{
	return iDsa.SwSize();
	}
		
inline void TDsa::Copy(TUint32* aTarget, const TUint8* aSrc, TInt aBytes, TInt aHeight) const
	{
	iDsa.iCopyFunction(iDsa, aTarget, aSrc, aBytes, aHeight);
	}
	
template<class T, class S>	
void ClipCopy(const TDsa& iDsa, TUint8* aTarget,
 					const TUint8* aSource,
 					const TRect& aUpdateRect,
 					const TRect& aSourceRect)
	{
	const S* source = reinterpret_cast<const S*>(aSource);
	const TInt lineWidth = aSourceRect.Width();
	
	source += (aUpdateRect.iTl.iY * lineWidth); 
	const TInt sourceStartOffset = aUpdateRect.iTl.iX;
	source += sourceStartOffset;
	
	T* targetPtr = reinterpret_cast<T*>(aTarget);
	
	const TInt scanLineWidth = iDsa.SwSize().iWidth;
	
	targetPtr += (aSourceRect.iTl.iY + aUpdateRect.iTl.iY ) * scanLineWidth; 
	const TInt targetStartOffset = (aUpdateRect.iTl.iX + aSourceRect.iTl.iX);
	
	targetPtr += targetStartOffset;
	
	
	const TInt height = aUpdateRect.Height(); 
		
	const TInt lineMove = iDsa.IsTurn() ? 1 : lineWidth;
	const TInt copyLen = aUpdateRect.Width();
	
	
	if(iDsa.IsFlip())
		{
		
		targetPtr += scanLineWidth *  (height - 1);
	
		for(TInt i = 0; i < height; i++) //source is always smaller
			{
			iDsa.Copy(reinterpret_cast<TUint32*>(targetPtr), reinterpret_cast<const TUint8*>(source), copyLen, height);
			source += lineMove;
			targetPtr -= scanLineWidth;
			}
		}
	else
		{
		
		
		for(TInt i = 0; i < height; i++) //source is always smaller
			{
			iDsa.Copy(reinterpret_cast<TUint32*>(targetPtr), reinterpret_cast<const TUint8*>(source), copyLen, height);
			source += lineMove;
			targetPtr += scanLineWidth; // >> 2;
			}
		}

	}
	

 
NONSHARABLE_CLASS(CDsaA) : public CDsaBase
	{
	public:
		CDsaA(RWsSession& aSession);
	protected:
		void ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice);
		void CompleteUpdate();
		void CreateSurfaceL(CFbsBitmap& aBmp);
		void Free();
		void UnlockHWSurfaceRequestComplete();	
	};
	
	
CDsaA::CDsaA(RWsSession& aSession) : CDsaBase(aSession)
	{
	}
	

void CDsaA::ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice)		
	{
	CDsaBase::ConstructL(aWindow, aDevice);
	}
	
void CDsaA::CompleteUpdate()
	{
	iDsa->ScreenDevice()->Update();
	}
	
void CDsaA::CreateSurfaceL(CFbsBitmap& /*aBmp*/)
	{
	}
	
void CDsaA::Free()
	{
	
	}
	
void CDsaA::UnlockHWSurfaceRequestComplete()
	{
	PANIC(KErrNotSupported);
	}	
	
	
	
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////

NONSHARABLE_CLASS(MDsbObs)
	{
	public:
		virtual void SurfaceReady() = 0;
		virtual CDirectScreenBitmap& Dsb() = 0;
	};
	
NONSHARABLE_CLASS(CDsbSurface) : public CActive
	{
	public:
		CDsbSurface(MDsbObs& aDsb);
		TUint8* Address();
		void Complete();
		~CDsbSurface();
	private:
		void RunL();
		void DoCancel();
	private:
		MDsbObs& iDsb; 
		TUint8* iAddress;
	};	

CDsbSurface::CDsbSurface(MDsbObs& aDsb) : CActive(CActive::EPriorityHigh) , iDsb(aDsb)
	{
	CActiveScheduler::Add(this);
	}

CDsbSurface::~CDsbSurface()
	{
	Cancel();
	}
	
void CDsbSurface::Complete()
	{
	if(iAddress != NULL && !IsActive())
		{
		iAddress = NULL;
		SetActive();
		iDsb.Dsb().EndUpdate(iStatus);
		}
	}
	
TUint8* CDsbSurface::Address()
	{
	if(iAddress == NULL && !IsActive())
		{
		TAcceleratedBitmapInfo info;
		if(KErrNone == iDsb.Dsb().BeginUpdate(info))
			iAddress = info.iAddress;
		}
	return iAddress;
	}
	
void CDsbSurface::RunL()
	{
	iDsb.SurfaceReady();
	}

void CDsbSurface::DoCancel()
	{
	//empty
	}
		
NONSHARABLE_CLASS(CDsaB) : public CDsaBase,
 public MDsbObs
	{
	public:
		CDsaB(RWsSession& aSession, TInt aFlags);
	private:
		~CDsaB();
		TUint8* LockSurface();
		void UnlockHWSurfaceRequestComplete();
		void UnlockHwSurface();
		void CreateSurfaceL();
		void Wipe(TInt aLength);
		void RecreateL();
		void ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice);
		CDirectScreenBitmap& Dsb();
		void SurfaceReady();
		TInt ExternalUpdate();
	private:
		CDsbSurface* iSurface1;
		CDsbSurface* iSurface2;
		CDirectScreenBitmap* iDsb;
		TInt iType;
	};

CDsaB::CDsaB(RWsSession& aSession, TInt aFlags) : CDsaBase(aSession), iType(aFlags)
	{
	}


	
void CDsaB::UnlockHWSurfaceRequestComplete()
	{
	iSurface1->Complete();
	if(iSurface2 != NULL)
		iSurface2->Complete();
	}	

void CDsaB::CreateSurfaceL()
	{
	__ASSERT_ALWAYS(SwSize() == HwRect().Size(), PANIC(KErrNotSupported));
	}
	
void CDsaB::Wipe(TInt aLength) //dont call in drawing
	{
	TUint8* addr = LockSurface();
	if(addr != NULL) 
		{
		Mem::FillZ(addr, aLength);
		UnlockHwSurface();
		}
	}
	

void CDsaB::UnlockHwSurface()
	{
	EpocSdlEnv::Request(CDsa::ERequestUpdate);
	}
	
TUint8* CDsaB::LockSurface()
	{
	TUint8* addr =  iSurface1->Address();
	if(addr == NULL && iSurface2 != NULL)
		addr =  iSurface2->Address();
	SetUpdating(addr == NULL);
	return addr;
	}
	
void CDsaB::SurfaceReady()	
	{
	SetUpdating(EFalse);
	}

CDirectScreenBitmap& CDsaB::Dsb()
	{
	return *iDsb;
	}
	
void CDsaB::ConstructL(RWindow& aWindow, CWsScreenDevice& aDevice)
	{
	if(iDsb == NULL)
		iDsb = CDirectScreenBitmap::NewL();	
	CDsaBase::ConstructL(aWindow, aDevice);
	if(iSurface1 == NULL)	
		iSurface1 = new (ELeave) CDsbSurface(*this);
	if(iSurface2 == NULL && iType & CDirectScreenBitmap::EDoubleBuffer)
		iSurface2 = new (ELeave) CDsbSurface(*this);
	}
	
CDsaB::~CDsaB()
	{
	delete iSurface1;
	delete iSurface2;
	delete iDsb;
	}	

void CDsaB::RecreateL()
	{
    iDsb->Close();
    iDsb->Create(HwRect(), CDirectScreenBitmap::TSettingsFlags(iType));
	}
	
TInt CDsaB::ExternalUpdate()
	{
	if(LockSurface())
		{
		UnlockHWSurfaceRequestComplete();
		return KErrNone;
		}
	return KErrNotReady;
	}
		

/////////////////////////////////////////////////////////////////////////////////////////////////////	



CDsa* CDsa::CreateL(RWsSession& aSession)
	{
	if(EpocSdlEnv::Flags(CSDL::EDrawModeDSB))
		{
		TInt flags = CDirectScreenBitmap::ENone;
		if(EpocSdlEnv::Flags(CSDL::EDrawModeDSBDoubleBuffer))
			flags |= CDirectScreenBitmap::EDoubleBuffer;
		if(EpocSdlEnv::Flags(CSDL::EDrawModeDSBIncrementalUpdate))
			flags |= CDirectScreenBitmap::EIncrementalUpdate;
		return new (ELeave) CDsaB(aSession, flags);
		}
	else if(EpocSdlEnv::Flags(CSDL::EDrawModeGdi))
		{
		return new (ELeave) CBitmapSurface<CDsaBitgdi>(aSession);
		}
    else
    	{
        return new (ELeave) CBitmapSurface<CDsaA>(aSession);
		}
	}
	
	
void CDsa::RecreateL()
	{
	}

void CDsa::Free()
	{
	}
	
TSize CDsa::WindowSize() const
	{
	TSize size = iSwSize;
	if(iStateFlags & EOrientation90)
		{
		const TInt tmp = size.iWidth;
		size.iWidth = size.iHeight;
		size.iHeight = tmp;
		}
	return size;
	}
	
void CDsa::SetSuspend()
	{
	iStateFlags |= ESdlThreadSuspend;
	}


void CDsa::SetUpdating(TBool aUpdate)
	{
	if(aUpdate)
		iStateFlags |= EUpdating;
	else
		iStateFlags &= ~EUpdating;
	}


TBool CDsa::Stopped() const
	{
	return (iStateFlags & ESdlThreadExplicitStop);
	}

void CDsa::SetOrientation(CSDL::TOrientationMode aOrientation)
	{
	TInt flags = 0;
	switch(aOrientation)
		{
		case CSDL::EOrientation90:
			flags = EOrientation90;
			break;
		case CSDL::EOrientation180:
			flags = EOrientation180;
			break;
		case CSDL::EOrientation270:
			flags = EOrientation90 | EOrientation180;
			break;
		case CSDL::EOrientation0:
			flags = 0;
			break;
		}
	if(flags != (iStateFlags & EOrientationFlags))
		{
		iStateFlags |= EOrientationChanged;
		iNewFlags = flags; //cannot be set during drawing...
		}
	}

CDsa::~CDsa()
    {
    iOverlays.Close();
    User::Free(iLut256);
    }
         
void CDsa::ConstructL(RWindow& aWindow, CWsScreenDevice& /*aDevice*/)
    {			
	if(iLut256 == NULL)
		iLut256 = (TUint32*) User::AllocL(256 * sizeof(TUint32));
	iTargetMode = aWindow.DisplayMode();
	iTargetBpp = BytesPerPixel(DisplayMode());
	iScreenRect = TRect(aWindow.Position(), aWindow.Size());
	SetTargetRect();
    }
    
void CDsa::DrawOverlays()
	{
	const TInt last = iOverlays.Count() - 1;
	for(TInt i = last; i >= 0 ; i--)
		iOverlays[i].iOverlay->Draw(Gc(), HwRect(), SwSize());
	}

TInt CDsa::AppendOverlay(MOverlay& aOverlay, TInt aPriority)
	{
	TInt i;
	for(i = 0; i < iOverlays.Count() && iOverlays[i].iPriority < aPriority; i++)
		{}
	const TOverlay overlay = {&aOverlay, aPriority};
	return iOverlays.Insert(overlay, i);
	}
	
TInt CDsa::RemoveOverlay(MOverlay& aOverlay)
	{
	for(TInt i = 0; i < iOverlays.Count(); i++)
		{
		if(iOverlays[i].iOverlay == &aOverlay)
			{
			iOverlays.Remove(i);
			return KErrNone;
			}
		}
	return KErrNotFound;
	}

void CDsa::LockPalette(TBool aLock)
	{
	if(aLock)
		iStateFlags |= EPaletteLocked;
	else
		iStateFlags &= ~EPaletteLocked;
	}
TInt CDsa::SetPalette(TInt aFirst, TInt aCount, TUint32* aPalette)
	{
	if(iLut256 == NULL)
		return KErrNotFound;
	const TInt count = aCount - aFirst;
	if(count > 256)
		return KErrArgument;
	if(iStateFlags & EPaletteLocked)
		return KErrNone;
	for(TInt i = aFirst; i < count; i++) //not so busy here:-)
		{
		iLut256[i] = aPalette[i];
		}
	return KErrNone;
	}
	
	


    
CDsa::CDsa(RWsSession& aSession) : 
 	iStateFlags(0),
 	iSession(aSession)
  
	{
//	CActiveScheduler::Add(this);
	iCFTable[0] = CopyMem;
	iCFTable[1] = CopyMemFlipReversed;
	iCFTable[2] = CopyMemReversed;
	iCFTable[3] = CopyMemFlip;	
	
	iCFTable[4] = Copy256;
	iCFTable[5] = Copy256FlipReversed;
	iCFTable[6] = Copy256Reversed;
	iCFTable[7] = Copy256Flip;	
	
	
	iCFTable[8] = CopySlow;
	iCFTable[9] = CopySlowFlipReversed;
	iCFTable[10] = CopySlowReversed;
	iCFTable[11] = CopySlowFlip;	
	}
	
RWsSession& CDsa::Session()
	{
	return iSession;
	}

TInt CDsa::RedrawRequest()
	{
	if(!(iStateFlags & (EUpdating) && (iStateFlags & ERunning)))
		{
		return ExternalUpdate();
		}
	return KErrNotReady;
	}

TUint8* CDsa::LockHwSurface()
	{
	if((iStateFlags & EUpdating) == 0) //else frame is skipped
		{
		return LockSurface();
		}
	return NULL; 
	}

/*	
void CDsa::RunL()
	{
	iStateFlags &= ~EUpdating;
	}
		
	
void CDsa::DoCancel()
	{
	iStateFlags &= ~EUpdating;
	//nothing can do, just wait?
	}
*/	

	
TInt CDsa::AllocSurface(TBool aHwSurface, const TSize& aSize, TDisplayMode aMode)
	{
	if(aHwSurface && aMode != DisplayMode())
		return KErrArgument;
	
	iSourceMode = aMode;
	
	iSourceBpp = BytesPerPixel(aMode);
	
	const TSize size = WindowSize();
	if(aSize.iWidth > size.iWidth)
		return KErrTooBig;
	if(aSize.iHeight > size.iHeight)
		return KErrTooBig;
	
	TRAPD(err, CreateSurfaceL());
	if(err != KErrNone)
		return err;

	SetCopyFunction();
	
	return KErrNone;
	}
	

void CDsa::CreateZoomerL(const TSize& aSize)
	{
	iSwSize = aSize;
	iStateFlags |= EResizeRequest;
	CreateSurfaceL();
	SetTargetRect();
	}
	

/*
void SaveBmp(const TDesC& aName, const TAny* aData, TInt aLength, const TSize& aSz, TDisplayMode aMode)
	{
	CFbsBitmap* s = new CFbsBitmap();
	s->Create(aSz, aMode);
	s->LockHeap();
	TUint32* addr = s->DataAddress();
	Mem::Copy(addr, aData, aLength);
	s->UnlockHeap();
	s->Save(aName);
	s->Reset();
	delete s;
	}
	
void SaveBmp(const TDesC& aName, const TUint32* aData, const TSize& aSz)
	{
	CFbsBitmap* s = new CFbsBitmap();
	s->Create(aSz, EColor64K);
	TBitmapUtil bmp(s);
	bmp.Begin(TPoint(0, 0));
	for(TInt j = 0; j < aSz.iHeight; j++)
		{
		bmp.SetPos(TPoint(0, j));
		for(TInt i = 0; i < aSz.iWidth; i++)
			{
			bmp.SetPixel(*aData);
			aData++;
			bmp.IncXPos();
			}
		}
	bmp.End();
	s->Save(aName);
	s->Reset();
	delete s;
	}	
	
TBuf<16> FooName(TInt aFoo)
	{
	TBuf<16> b;
	b.Format(_L("C:\\pic%d.mbm"), aFoo);
	return b;
	}
	
*/


void CDsa::ClipCopy(TUint8* aTarget,
 					const TUint8* aSource,
 					const TRect& aUpdateRect,
 					const TRect& aSourceRect) const
 		{
 		const TDsa dsa(*this);
 		switch(iSourceBpp)
 			{
 			case 1:
 				::ClipCopy<TUint32, TUint8>(dsa, aTarget, aSource, aUpdateRect, aSourceRect);
 				break;
 			case 2:
 				::ClipCopy<TUint32, TUint16>(dsa, aTarget, aSource, aUpdateRect, aSourceRect);
 				break;
 			case 4:
 				::ClipCopy<TUint32, TUint32>(dsa, aTarget, aSource, aUpdateRect, aSourceRect);
 				break;
 			}
 		}	


void CDsa::Wipe() //dont call in drawing
	{
	if(IsDsaAvailable())
		Wipe(iTargetBpp * SwSize().iWidth * SwSize().iHeight);
	}
	
void CDsa::SetCopyFunction()
	{
	//calculate offset to correct function in iCFTable according to given parameters
	TInt function = 0;
	const TInt KCopyFunctions = 4;
	const TInt KOffsetToNative = 0;
	const TInt KOffsetTo256 = KOffsetToNative + KCopyFunctions;
	const TInt KOffsetToOtherModes = KOffsetTo256 + KCopyFunctions;
	const TInt KOffsetTo90Functions = 1;
	const TInt KOffsetTo180Functions = 2;
	
	if(iSourceMode == DisplayMode())
		function = KOffsetToNative; 		//0
	else if(iSourceMode == EColor256)
		function = KOffsetTo256;			//4
	else
		function = KOffsetToOtherModes; 	//8
	
	if(iStateFlags & EOrientation90)
		function += KOffsetTo90Functions; 	// + 1
	if(iStateFlags & EOrientation180)
		function += KOffsetTo180Functions; 	//+ 2
	
	iCopyFunction = iCFTable[function];
	
	Wipe();
	}
	
inline void Rotate(TRect& aRect)
	{
	const TInt dx = aRect.iBr.iX - aRect.iTl.iX;
	const TInt dy = aRect.iBr.iY - aRect.iTl.iY;

	aRect.iBr.iX = aRect.iTl.iX + dy;
	aRect.iBr.iY = aRect.iTl.iY + dx;
	
	const TInt tmp = aRect.iTl.iX;
	aRect.iTl.iX = aRect.iTl.iY;
	aRect.iTl.iY = tmp;
	}
	
/*	
int bar = 0;
*/	

TBool CDsa::AddUpdateRect(const TUint8* aBits, const TRect& aUpdateRect, const TRect& aRect)
	{

	if(iStateFlags & EOrientationChanged)
		{
		iStateFlags &= ~EOrientationFlags;
		iStateFlags |= iNewFlags;
		SetCopyFunction();
		iStateFlags &= ~EOrientationChanged;
	    EpocSdlEnv::WaitDeviceChange();
	    return EFalse; //skip this frame as data is may be changed
		}

	if(iTargetAddr == NULL)
		{
		iTargetAddr = LockHwSurface();
		}
		
	TUint8* target = iTargetAddr;
	if(target == NULL)
		return EFalse;
	
	
	TRect targetRect = TRect(TPoint(0, 0), SwSize());
	
	TRect sourceRect = aRect;
	TRect updateRect = aUpdateRect;
	
//	TPoint move(0, 0);
	
	
	if(iStateFlags & EOrientation90)
		{
		Rotate(sourceRect);
		Rotate(updateRect);
		}
		
	if(iSourceMode != DisplayMode() ||  targetRect != sourceRect || targetRect != updateRect || ((iStateFlags & EOrientationFlags) != 0))
		{
		sourceRect.Intersection(targetRect); //so source always smaller or equal than target
		//updateRect.Intersection(targetRect);
		ClipCopy(target, aBits, updateRect, sourceRect);
		}
	else
		{
		const TInt byteCount = aRect.Width() * aRect.Height() * iSourceBpp; //this could be stored
		Mem::Copy(target, aBits, byteCount);
		}

	return ETrue;
	}
	
		
void CDsa::UpdateSwSurface()
	{
	iTargetAddr = NULL;
	UnlockHwSurface();	//could be faster if does not use AO, but only check status before redraw, then no context switch needed
	}
	


	
void CDsa::DoStop()
	{
	if(IsDsaAvailable())
		iStateFlags |= ESdlThreadExplicitStop;
	Stop();
	}

	
void CDsa::Stop()
	{
	iStateFlags &= ~ERunning;
	}
	
void CDsa::Start()
	{
    iStateFlags |= ERunning;
	
	iStateFlags &= ~ESdlThreadExplicitStop;
 
    if(iStateFlags & ESdlThreadSuspend)
    	{
    	EpocSdlEnv::Resume();
    	iStateFlags &= ~ ESdlThreadSuspend;
    	}	
    EpocSdlEnv::ObserverEvent(MSDLObserver::EEventWindowReserved);	
	}


TBool CDsa::Blitter(CFbsBitmap& aBmp)
	{
	return iBlitter && iBlitter->BitBlt(Gc(), aBmp, HwRect(), SwSize());	
	}
	
void CDsa::SetBlitter(MBlitter* aBlitter)
	{
	iBlitter = aBlitter;
	}
	
	
TPoint CDsa::WindowCoordinates(const TPoint& aPoint) const	
	{
	TPoint pos = aPoint - iScreenRect.iTl;
	const TSize asz = iScreenRect.Size();
	if(iStateFlags & EOrientation180)
		{
		pos.iX = asz.iWidth - pos.iX;
		pos.iY = asz.iHeight - pos.iY;	
		}	
	if(iStateFlags & EOrientation90)
		{
		pos.iX = aPoint.iY;
		pos.iY = aPoint.iX;	
		}
	pos.iX <<= 16;
	pos.iY <<= 16;
	pos.iX /= asz.iWidth; 
	pos.iY /= asz.iHeight;
	pos.iX *= iSwSize.iWidth;
	pos.iY *= iSwSize.iHeight;
	pos.iX >>= 16;
	pos.iY >>= 16;
	return pos; 	
	}
	
void CDsa::SetTargetRect()
	{
	iTargetRect = iScreenRect;
	if(iStateFlags & EResizeRequest && EpocSdlEnv::Flags(CSDL::EAllowImageResizeKeepRatio))
		{
		const TSize asz = iScreenRect.Size();
		const TSize sz = iSwSize;
		
		TRect rect;
		
		const TInt dh = (sz.iHeight << 16) / sz.iWidth;

		if((asz.iWidth * dh ) >> 16 <= asz.iHeight)
			{
			rect.SetRect(TPoint(0, 0), TSize(asz.iWidth, (asz.iWidth * dh) >> 16));
			}
		else
			{
			const TInt dw = (sz.iWidth << 16) / sz.iHeight;
	    	rect.SetRect(TPoint(0, 0), TSize((asz.iHeight * dw) >> 16, asz.iHeight));
			}
		rect.Move((asz.iWidth - rect.Size().iWidth) >> 1, (asz.iHeight - rect.Size().iHeight) >> 1);  
		
		iTargetRect = rect;
		iTargetRect.Move(iScreenRect.iTl);

		} 
	if(!(iStateFlags & EResizeRequest))
		iSwSize = iScreenRect.Size();

	}
		

/////////////////////////////////////////////////////////////////////////////////////////////////////////////////

void CDsa::Copy256(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	TUint32* target = aTarget;
	const TUint32* endt = target + aBytes; 
	const TUint8* source = aSource;
	while(target < endt)
		{
		*target++ = aDsa.iLut256[*source++]; 
		}
	}
	
void CDsa::Copy256Reversed(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	const TUint32* target = aTarget;
	TUint32* endt = aTarget + aBytes; 
	const TUint8* source = aSource;
	while(target < endt)
		{
		*(--endt) = aDsa.iLut256[*source++]; 
		}
	}	
	
void CDsa::Copy256Flip(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	TUint32* target = aTarget;
	const TUint32* endt = target + aBytes; 
	const TUint8* column = aSource;

	while(target < endt)
		{
		*target++ = aDsa.iLut256[*column];
		column += aLineLen;
		}
	}
	
void CDsa::Copy256FlipReversed(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	const TUint32* target = aTarget;
	TUint32* endt = aTarget + aBytes; 
	const TUint8* column = aSource;

	while(target < endt)
		{
		*(--endt) = aDsa.iLut256[*column];
		column += aLineLen;
		}
	}		

void CDsa::CopyMem(const CDsa& /*aDsa*/, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	const TUint32* src = reinterpret_cast<const TUint32*>(aSource);
	Mem::Copy(aTarget, src, aBytes << 2);
	}
	
void CDsa::CopyMemFlip(const CDsa& /*aDsa*/, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	TUint32* target = aTarget;
	const TUint32* endt = target + aBytes; 
	const TUint32* column = reinterpret_cast<const TUint32*>(aSource);

	while(target < endt)
		{
		*target++ = *column;
		column += aLineLen;
		}
	}
	
void CDsa::CopyMemReversed(const CDsa& /*aDsa*/, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	const TUint32* target = aTarget;
	TUint32* endt = aTarget + aBytes; 
	const TUint32* source = reinterpret_cast<const TUint32*>(aSource);
	while(target < endt)
		{
		*(--endt) = *source++; 
		}
	}	
	
	
void CDsa::CopyMemFlipReversed(const CDsa& /*aDsa*/, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	const TUint32* target = aTarget;
	TUint32* endt = aTarget + aBytes; 
	const TUint32* column = reinterpret_cast<const TUint32*>(aSource);

	while(target < endt)
		{
		*(--endt) = *column;
		column += aLineLen;
		}
	}
			
/*

LOCAL_C TRgb rgb16MA(TInt aValue)
	{
	return TRgb::Color16MA(aValue);
	}
*/	
NONSHARABLE_CLASS(MRgbCopy)
	{
	public:
	virtual void Copy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TBool aReversed) = 0;
	virtual void FlipCopy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen, TBool aReversed) = 0;
	};
	
template <class T>
NONSHARABLE_CLASS(TRgbCopy) : public MRgbCopy
	{
	public:
	TRgbCopy(TDisplayMode aMode);
	void* operator new(TUint aBytes, TAny* aMem);
	void Copy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TBool aReversed);
	void FlipCopy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen, TBool aReversed);
	static TUint32 Gray256(const TUint8& aPixel);
	static TUint32 Color256(const TUint8& aPixel);
	static TUint32 Color4K(const TUint16& aPixel);
	static TUint32 Color64K(const TUint16& aPixel);
	static TUint32 Color16M(const TUint32& aPixel);
	static TUint32 Color16MU(const TUint32& aPixel);
	static TUint32 Color16MA(const TUint32& aPixel);
	private:
		typedef TUint32 (*TRgbFunc) (const T& aValue);
		TRgbFunc iFunc;
	};
		
		
template <class T>		
void* TRgbCopy<T>::operator new(TUint /*aBytes*/, TAny* aMem)
	{
	return aMem;
	}
		
template <class T>
TRgbCopy<T>::TRgbCopy(TDisplayMode aMode)
	{
	switch(aMode)
		{
		case EGray256 : iFunc = (TRgbFunc) Gray256; break;
		case EColor256 : iFunc =  (TRgbFunc) Color256; break;
		case EColor4K : iFunc =  (TRgbFunc) Color4K; break;
		case EColor64K : iFunc =  (TRgbFunc) Color64K; break;
		case EColor16M : iFunc =  (TRgbFunc) Color16M; break;
		case EColor16MU : iFunc =  (TRgbFunc) Color16MU; break;
		case EColor16MA : iFunc =  (TRgbFunc) Color16MA; break;
		default:
			PANIC(KErrNotSupported);
		}
	}
	
template <class T>
void TRgbCopy<T>::Copy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TBool aReversed)
	{
	const T* source = reinterpret_cast<const T*>(aSource);
	TUint32* target = aTarget;
	TUint32* endt = target + aBytes;
	
	if(aReversed)
		{
		while(target < endt)
			{
			const T value = *source++;
			*(--endt) = iFunc(value);//iFunc(value).Value();
			}
		}
	else
		{
		while(target < endt)
			{
			const T value = *source++;
			*target++ = iFunc(value);//iFunc(value).Value();
			}
		}
	}
	
template <class T>
void TRgbCopy<T>::FlipCopy(TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen, TBool aReversed)
	{
	const T* column = reinterpret_cast<const T*>(aSource);
	TUint32* target = aTarget;
	TUint32* endt = target + aBytes;
	
	if(aReversed)
		{
		while(target < endt)
			{
			*(--endt) = iFunc(*column);
			column += aLineLen;
			}
		}
	else
		{
		while(target < endt)
			{
			*target++ = iFunc(*column);
			column += aLineLen;
			}
		}
	}	
		
template <class T> TUint32 TRgbCopy<T>::Gray256(const TUint8& aPixel)
	{
	const TUint32 px = aPixel << 16 | aPixel << 8 | aPixel;
	return px;
	}
	
template <class T> TUint32 TRgbCopy<T>::Color256(const TUint8& aPixel)
	{
	return TRgb::Color256(aPixel).Value();
	}
	
template <class T> TUint32 TRgbCopy<T>::Color4K(const TUint16& aPixel)
	{
	TUint32 col = (aPixel & 0xF00) << 12;
	col |= (aPixel & 0xF00) << 8; 
	
	col |= (aPixel & 0x0F0) << 8;
	col |= (aPixel & 0x0F0);
	
	col |= (aPixel & 0x00F) << 4;
	col |= (aPixel & 0x00F);
	
	return col;
	}
	
template <class T> TUint32 TRgbCopy<T>::Color64K(const TUint16& aPixel)
	{
	TUint32 col = (aPixel & 0xF800)<< 8;
	col |= (aPixel & 0xE000) << 3; 
	
	col |= (aPixel & 0x07E0) << 5;
	col |= (aPixel & 0xC0) >> 1;
	
	col |= (aPixel & 0x07E0) << 3;
	col |= (aPixel & 0x1C) >> 2;
	
	return col;
	}
	
template <class T> TUint32 TRgbCopy<T>::Color16M(const TUint32& aPixel)
	{
	return TRgb::Color16M(aPixel).Value();
	}
	
template <class T> TUint32 TRgbCopy<T>::Color16MU(const TUint32& aPixel)
	{
	return TRgb::Color16MU(aPixel).Value();
	}
	
template <class T> TUint32 TRgbCopy<T>::Color16MA(const TUint32& aPixel)
	{
	return TRgb::Color16MA(aPixel).Value();
	}

typedef TUint64 TStackMem;

LOCAL_C MRgbCopy* GetCopy(TAny* mem, TDisplayMode aMode)
	{
	if(aMode == EColor256 || aMode == EGray256)
		{
		return new (mem) TRgbCopy<TUint8>(aMode);
		}
	if(aMode == EColor4K || aMode == EColor64K)
		{
		return new (mem) TRgbCopy<TUint16>(aMode);
		}
	if(aMode == EColor16M || aMode == EColor16MU || aMode == EColor16MA)
		{
		return new (mem) TRgbCopy<TUint32>(aMode);
		}
	PANIC(KErrNotSupported);
	return NULL;
	}
	

void CDsa::CopySlowFlipReversed(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	TStackMem mem = 0;
	GetCopy(&mem, aDsa.iSourceMode)->FlipCopy(aTarget, aSource, aBytes, aLineLen, ETrue);	
	}
	
void CDsa::CopySlowFlip(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt aLineLen)
	{
	TStackMem mem = 0;
	GetCopy(&mem, aDsa.iSourceMode)->FlipCopy(aTarget, aSource, aBytes, aLineLen, EFalse);
	}
	
void CDsa::CopySlow(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	TStackMem mem = 0;
	GetCopy(&mem, aDsa.iSourceMode)->Copy(aTarget, aSource, aBytes, EFalse);	
	}	

void CDsa::CopySlowReversed(const CDsa& aDsa, TUint32* aTarget, const TUint8* aSource, TInt aBytes, TInt)
	{
	TStackMem mem = 0;
	GetCopy(&mem, aDsa.iSourceMode)->Copy(aTarget, aSource, aBytes, ETrue);	
	}	

////////////////////////////////////////////////////////////////////////////////////////////////////////////////7