Fix def files so that the implementation agnostic interface definition has no non-standards defined entry points, and change the eglrefimpl specific implementation to place its private entry points high up in the ordinal order space in the implementation region, not the standards based entrypoints region.
// Copyright (c) 2003-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "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:
//
#include "offscreenbitmap.h"
#include "inifile.h"
#include "panics.h"
#include "ScrDev.H"
#include "server.h"
#include "wstop.h"
#include "rootwin.h"
#if defined(__WINS__) && defined(_DEBUG)
#include "../../debuglog/osbwin.h"
#endif
GLREF_D TDisplayMode ParseDisplayMode(const TDesC& aModeName);
CWsOffScreenBitmap* CWsOffScreenBitmap::NewL(CScreen* aScreen)
{
CWsOffScreenBitmap* self=new(ELeave) CWsOffScreenBitmap(aScreen);
CleanupStack::PushL(self);
self->ConstructL();
CleanupStack::Pop(self);
return self;
}
inline CWsOffScreenBitmap::CWsOffScreenBitmap(CScreen* aScreen) :iScreen(aScreen)
{}
CWsOffScreenBitmap::~CWsOffScreenBitmap()
{
delete iBitmapGc;
delete iBitmap;
iObserver = NULL;
#if defined(__WINS__) && defined(_DEBUG)
delete iOsbWin;
#endif
delete iBitmapDevice;
}
template <class T>
LOCAL_C inline void Swap(T& aLeft, T& aRight)
{ T temp=aLeft;aLeft=aRight;aRight=temp;}
template <class T>
LOCAL_C inline TBool SwapIfLeftIsBigger(T& aLeft, T& aRight)
{if (aLeft>aRight) { ::Swap(aLeft, aRight); return (aRight>aLeft);} return (aLeft>aRight);}
void CWsOffScreenBitmap::ConstructL()
{
_LIT(KFlickerBufferMode,"FLICKERBUFFERMODE");
TPtrC flickerBufferModeName;
TDisplayMode displayMode = ENone;
if (WsIniFile->FindVar(iScreen->ScreenNumber(), KFlickerBufferMode, flickerBufferModeName))
displayMode = ParseDisplayMode(flickerBufferModeName);
if (displayMode == ENone)
displayMode = iScreen->DisplayMode();
WS_ASSERT_DEBUG(displayMode!=ENone, EWsPanicNoDisplayModeFound);
iBitmap=new(ELeave) CFbsBitmap;
TSize screenSize=iScreen->ScreenDevice()->SizeInPixels();
TBool haveSwapped=SwapIfLeftIsBigger(screenSize.iWidth, screenSize.iHeight);
User::LeaveIfError(iBitmap->Create(screenSize,displayMode));
if (haveSwapped)
{
iBitmap->SwapWidthAndHeight();
}
User::LeaveIfError(iBitmap->SetDisplayMode(iScreen->DisplayMode()));
iBitmapDevice=CFbsBitmapDevice::NewL(iBitmap);
User::LeaveIfError(iBitmapDevice->CreateContext(iBitmapGc));
TSizeMode sizeMode = iScreen->ScreenSizeModeData(iScreen->ScreenSizeMode());
TSize osbSize(iBitmap->SizeInPixels());
TSize osbTwips(sizeMode.iScreenTwipsSize);
if (osbSize!=sizeMode.iScreenSize)
{
// The specified screen twips size is for the specified screen pixel size, however the OSB
// is potentially larger as it needs to hold the maximum possible screen size, so we need
// to scale the twips size up correspondingly.
osbTwips.iWidth=sizeMode.iScreenTwipsSize.iWidth*osbSize.iWidth/sizeMode.iScreenSize.iWidth;
osbTwips.iHeight=sizeMode.iScreenTwipsSize.iHeight*osbSize.iHeight/sizeMode.iScreenSize.iHeight;
}
iBitmap->SetSizeInTwips(osbTwips);
# if defined(__WINS__) && defined(_DEBUG)
_LIT(KDebugOsb,"DEBUGOSB");
if (WsIniFile->FindVar(iScreen->ScreenNumber(),KDebugOsb))
{
_LIT(KDebugOsbTitleFormat, "Screen %d, offscreen bitmap");
TBuf<32> title;
title.Format(KDebugOsbTitleFormat, iScreen->ScreenNumber());
iOsbWin = CDebugOsbWin::NewL(title, iBitmap->SizeInPixels());
}
# endif
}
TInt CWsOffScreenBitmap::DisplayModeChanged(TBool aSwapWidthAndHeight)
{
TInt err=KErrNone;
if (aSwapWidthAndHeight)
{
err=iBitmapDevice->SwapWidthAndHeight();
WS_ASSERT_DEBUG(err==KErrNone, EWsCreatedOffScreenBitmapInWrongDimensions);
iBitmapGc->Activate(iBitmapDevice);
}
return err;
}
void CWsOffScreenBitmap::SetObserver(MWsFlickerFreeBufferObserver* aObserver)
{
iObserver = aObserver;
}
MWsFlickerFreeBufferObserver * CWsOffScreenBitmap::Observer()
{
return iObserver;
}
CFbsBitmap* CWsOffScreenBitmap::Bitmap()
{
CFbsBitmap* bmp = iRedirectBuffer? iRedirectBuffer->GetBitmap() : iBitmap;
WS_ASSERT_DEBUG(bmp!=NULL, EWsPanicTemp);
return bmp;
}
CFbsDevice* CWsOffScreenBitmap::BitmapDevice()
{
CFbsDevice* device = static_cast<CFbsDevice*>(GetBitGcCurrent()->Device());
WS_ASSERT_DEBUG(device!=NULL, EWsPanicNullDeviceHandle);
return device;
}
// This function updates the OffScreenBitmap and TransparencyManager's device and GC
// Note: Here the OffScreenBitmap's scale is not considered.
void CWsOffScreenBitmap::UpdateGc(const TBool aSwapWidthAndHeight)
{
if (aSwapWidthAndHeight)
{
iBitmapDevice->SwapWidthAndHeight();
}
iBitmapDevice->SetScalingFactor(iScreen->CurrentScreenModeScaledOrigin(),1,1,1,1);
iBitmapGc->Activate(iBitmapDevice);
}
#if defined(__WINS__) && defined(_DEBUG)
void CWsOffScreenBitmap::Update()
{
if (iOsbWin)
{
iBitmap->LockHeap();
iOsbWin->Refresh(iBitmap->SizeInPixels(), iBitmap->DisplayMode(), iBitmap->DataAddress());
iBitmap->UnlockHeap();
}
}
#endif
/**
Implementing MWsBackBuffer interface
*/
CFbsBitmap* CWsOffScreenBitmap::GetBitmap()
{
return iBitmap;
}
CFbsBitGc* CWsOffScreenBitmap::GetBitGc()
{
return iBitmapGc;
}
CFbsBitGc* CWsOffScreenBitmap::GetBitGcCurrent()
{
CFbsBitGc* gc = iRedirectGc? iRedirectGc : (iRedirectBuffer? iRedirectBuffer->GetBitGc() : iBitmapGc);
WS_ASSERT_DEBUG(gc!=NULL, EWsPanicTemp);
return gc;
}
TInt CWsOffScreenBitmap::SetBitGc(CFbsBitGc* aBitGc)
{
if (iRedirectBuffer)
return KErrInUse;
if (aBitGc && (aBitGc==iBitmapGc || aBitGc==iRedirectGc))
return KErrAlreadyExists;
if (aBitGc && !aBitGc->Device())
return KErrArgument;
iRedirectGc = aBitGc;
return KErrNone;
}
TInt CWsOffScreenBitmap::RedirectTo(MWsBackBuffer* aTarget)
{
if (iRedirectGc)
return KErrInUse;
if (aTarget && aTarget==iRedirectBuffer)
return KErrAlreadyExists;
if ( aTarget && iScreen->HasVisibleDirectOnQueue() )
return KErrInUse;
if (aTarget &&
(
!aTarget->GetBitmap()||
!aTarget->GetBitGc() ||
(aTarget->GetBitGc() && !aTarget->GetBitGc()->Device())
)
)
return KErrArgument;
iRedirectBuffer = aTarget;
return KErrNone;
}
TAny* CWsOffScreenBitmap::ResolveObjectInterface(TUint aTypeId)
{
switch (aTypeId)
{
case MWsBackBuffer::EWsObjectInterfaceId:
return static_cast<MWsBackBuffer *>(this);
}
return NULL;
}