Add MMP files to build libOpenVG_sw.lib which uses LINKAS to redirect to libOpenVG.dll (and
the same for libEGL_sw.lib and libOpenVGU_sw.lib).
Only the libEGL_sw.lib redirection isn't activated - this can't happen until there is a merged
libEGL.dll which supports the OpenWF synchronisation and also implements the graphical support functions.
The overall aim is to eliminate the *_sw.dll implementations, at least as a compile-time way of choosing
a software-only implementation.The correct way to choose is to put the right set of libraries into a ROM
with suitable renaming, and in the emulator to use the "switching DLL" technique to pick the right set.
As the Symbian Foundation doesn't have any alternative implementations, we don't need the switching DLLs
and we can build directly to the correct name.
// 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 "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 "rendertarget.h"
#include <graphics/directgdidriver.h>
#include <graphics/sgutils.h>
#include "panic.h"
#include <bitdraworigin.h>
#include <bitdrawinterfaceid.h>
#include "utils.h"
#if defined(__WINS__) && defined(_DEBUG)
#include "osbwin.h"
#endif
RWsOffScreenImageTarget::RWsOffScreenImageTarget()
{
}
void RWsOffScreenImageTarget::OpenL(TUint32 aUsage, TSgCpuAccess aCpuAccess, TUidPixelFormat aPixelFormat, const TSize& aSize, TInt aScreenNumber)
{
CDirectGdiDriver* theDGdiDriver = CDirectGdiDriver::Static();
if(!theDGdiDriver)
{
User::Leave(KErrNotReady);
}
iImageInfos[CRenderTarget::ENormalAspectRatio].iUsage = aUsage;
iImageInfos[CRenderTarget::ENormalAspectRatio].iPixelFormat = aPixelFormat;
iImageInfos[CRenderTarget::ENormalAspectRatio].iSizeInPixels = aSize;
iImageInfos[CRenderTarget::ENormalAspectRatio].iCpuAccess = aCpuAccess;
iImageInfos[CRenderTarget::ENormalAspectRatio].iScreenId = aScreenNumber;
iImageInfos[CRenderTarget::EInvertedAspectRatio] = iImageInfos[CRenderTarget::ENormalAspectRatio];
iImageInfos[CRenderTarget::EInvertedAspectRatio].iSizeInPixels.SetSize(aSize.iHeight, aSize.iWidth);
const TInt KImageCount = 1;
User::LeaveIfError(RSgImageCollection::Create(iImageInfos, KImageCount, iImageCollections, CRenderTarget::EAspectRatioCount));
for(TInt ii = 0; ii < CRenderTarget::EAspectRatioCount; ii++)
{
User::LeaveIfError(iImageCollections[ii].GetInfo(iImageInfos[ii])); //should be the same as requested, this is just belt and braces
User::LeaveIfError(iImageCollections[ii].OpenImage(0, iImages[ii]));
iImageTargets[ii] = RDirectGdiImageTarget(*theDGdiDriver);
User::LeaveIfError(iImageTargets[ii].Create(iImages[ii]));
}
}
void RWsOffScreenImageTarget::Close()
{
for(TInt ii = 0; ii < CRenderTarget::EAspectRatioCount; ii++)
{
iImageTargets[ii].Close();
iImages[ii].Close();
iImageCollections[ii].Close();
}
}
/**
Create and construct render target. The function creates RSgImage and target associated with it.
DirectGc wrapper will also be created at this stage.
*/
CRenderTarget* CRenderTarget::NewL(MWsIniFile* aIniFile, TUint32 aUsage, TSgCpuAccess aCpuAccess, TDisplayMode aDisplayMode, const TSize& aSize, TInt aScreenNumber)
{
CRenderTarget* self=new(ELeave) CRenderTarget();
CleanupStack::PushL(self);
self->ConstructL(aIniFile, aUsage, aCpuAccess, aDisplayMode, aSize, aScreenNumber);
CleanupStack::Pop(self);
return self;
}
inline CRenderTarget::CRenderTarget()
: iCurrentAspectRatio(ENormalAspectRatio)
{}
CRenderTarget::~CRenderTarget()
{
delete iDirectGdiGcWrapper;
iTarget.Close();
#if defined(__WINS__) && defined(_DEBUG)
delete iOsbWin;
#endif
}
/**
Construct render target. The function creates RSgImage and target associated with it.
DirectGc wrapper will also be created at this stage.
*/
#if defined(__WINS__) && defined(_DEBUG)
void CRenderTarget::ConstructL(MWsIniFile* aIniFile, TUint32 aUsage, TSgCpuAccess aCpuAccess, TDisplayMode aDisplayMode, const TSize& aSize, TInt aScreenNumber)
#else
void CRenderTarget::ConstructL(MWsIniFile* /*aIniFile*/, TUint32 aUsage, TSgCpuAccess aCpuAccess, TDisplayMode aDisplayMode, const TSize& aSize, TInt aScreenNumber)
#endif
{
CDirectGdiDriver* theDGdiDriver = CDirectGdiDriver::Static();
if(!theDGdiDriver)
{
User::Leave(KErrNotReady);
}
iTarget.OpenL(aUsage, aCpuAccess, SgUtils::DisplayModeToPixelFormat(aDisplayMode), aSize, aScreenNumber);
iDirectGdiGcWrapper = CDirectGdiGcWrapper::NewL();
User::LeaveIfError(iDirectGdiGcWrapper->DirectGdiGc().Activate(iTarget.iImageTargets[iCurrentAspectRatio]));
#if defined(__WINS__) && defined(_DEBUG)
_LIT(KDebugOsb, "DEBUGOSB");
if(aIniFile->FindVar(aScreenNumber, KDebugOsb))
{
_LIT(KDebugOsbTitleFormatBackBuffer, "Screen %d, back buffer ");
_LIT(KDebugOsbTitleFormatScreen, "Screen %d, display buffer");
TBuf<32> title;
title.Format(((aUsage & ESgUsageScreenSource) ? KDebugOsbTitleFormatScreen : KDebugOsbTitleFormatBackBuffer), aScreenNumber);
iOsbWin = CDebugOsbWin::NewL(title, aSize);
}
#endif
}
TAny* CRenderTarget::ResolveObjectInterface(TUint aTypeId)
{
switch(aTypeId)
{
case MWsUiBuffer::EWsObjectInterfaceId:
return static_cast<MWsUiBuffer*>(this);
}
return DirectGdiGc()->ResolveObjectInterface(aTypeId);
}
TInt CRenderTarget::MapReadWrite(TAny*& aDataAddress, TInt& aDataStride)
{
CDirectGdiDriver* driver = CDirectGdiDriver::Static();
if(driver)
driver->Finish();
return Image().MapReadWrite(aDataAddress, aDataStride);
}
TInt CRenderTarget::MapWriteOnly(TAny*& aDataAddress, TInt& aDataStride)
{
CDirectGdiDriver* driver = CDirectGdiDriver::Static();
if(driver)
driver->Finish();
return Image().MapWriteOnly(aDataAddress, aDataStride);
}
TInt CRenderTarget::MapReadOnly(const TAny*& aDataAddress, TInt& aDataStride) const
{
CDirectGdiDriver* driver = CDirectGdiDriver::Static();
if(driver)
driver->Finish();
return Image().MapReadOnly(aDataAddress, aDataStride);
}
TInt CRenderTarget::Unmap()
{
return Image().Unmap();
}
TInt CRenderTarget::Unmap() const
{
return Image().Unmap();
}
TUidPixelFormat CRenderTarget::PixelFormat() const
{
return ImageInfo().iPixelFormat;
}
TSize CRenderTarget::SizeInPixels() const
{
return ImageInfo().iSizeInPixels;
}
TDisplayMode CRenderTarget::DisplayMode() const
{
return SgUtils::PixelFormatToDisplayMode(PixelFormat());
}
const TSurfaceId& CRenderTarget::SurfaceId() const
{
return ImageCollection().SurfaceId();
}
const TSgDrawableId& CRenderTarget::ImageId(TAspectRatio aAspectRatio) const
{
return iTarget.iImages[aAspectRatio].Id();
}
void CRenderTarget::SetAspectRatio(TAspectRatio aAspectRatio)
{
STD_ASSERT_DEBUG(aAspectRatio == ENormalAspectRatio || aAspectRatio == EInvertedAspectRatio, EPluginPanicTemp);
if(aAspectRatio != iCurrentAspectRatio)
{
iCurrentAspectRatio = aAspectRatio;
iDirectGdiGcWrapper->Reset();
}
iDirectGdiGcWrapper->DirectGdiGc().Activate(iTarget.iImageTargets[iCurrentAspectRatio]);
}
TInt CRenderTarget::SetDrawDeviceOffset(TPoint& aOrigin)
{
//set the offset on both wrappers
MDrawDeviceOrigin* originInterface=NULL;
TInt result= iDirectGdiGcWrapper->DirectGdiGc().GetInterface(TUid::Uid(KDrawDeviceOriginInterfaceID),reinterpret_cast<TAny*&>(originInterface));
if (result>=KErrNone && originInterface!=NULL)
{
result=originInterface->Set(aOrigin);
}
if (result>=KErrNone)
{
iOffset=aOrigin;
iDirectGdiGcWrapper->DirectGdiGc().Activate(iTarget.iImageTargets[iCurrentAspectRatio]);
}
return result;
}
TInt CRenderTarget::AllocNewTarget(RWsOffScreenImageTarget& aNewTarget, const TSize& aNewSize)
{
TRAPD(err,
aNewTarget.OpenL(
iTarget.iImageInfos[CRenderTarget::ENormalAspectRatio].iUsage,
iTarget.iImageInfos[CRenderTarget::ENormalAspectRatio].iCpuAccess,
iTarget.iImageInfos[CRenderTarget::ENormalAspectRatio].iPixelFormat,
aNewSize,
iTarget.iImageInfos[CRenderTarget::ENormalAspectRatio].iScreenId))
return err;
}
void CRenderTarget::SwitchTarget(RWsOffScreenImageTarget& aNewTarget)
{
iTarget.Close();
iTarget = aNewTarget;
iDirectGdiGcWrapper->DirectGdiGc().Activate(iTarget.iImageTargets[iCurrentAspectRatio]);
}
void CRenderTarget::GetPixel(TRgb& aColor, const TPoint& aPixel) const
{
const TAny* dataAddress = NULL;
TInt dataStride;
const TInt err = MapReadOnly(dataAddress, dataStride);
if(!err)
{
const TUidPixelFormat pixelFormat = PixelFormat();
const TInt bpp = SgUtils::MinDataStride(1, pixelFormat);
const TUint32 offset = aPixel.iY * dataStride / bpp + aPixel.iX;
switch(pixelFormat)
{
case EUidPixelFormatARGB_8888_PRE:
case EUidPixelFormatARGB_8888:
{
const TInt32* dataAddress1 = static_cast<const TInt32*>(dataAddress) + offset;
const TInt32 colValue = *dataAddress1;
aColor.SetInternal(colValue);
}
break;
case EUidPixelFormatRGB_565:
{
const TInt16* dataAddress1 = static_cast<const TInt16*>(dataAddress) + offset;
const TInt16 colValue = *dataAddress1;
aColor = TRgb::Color64K((TInt)colValue);
}
break;
}
Unmap();
}
}
void CRenderTarget::GetScanLine(TDes8& aScanLine, const TPoint& aStartPixel, TInt aPixelLength, TDisplayMode aDispMode) const
{
TRect rectSrc(aStartPixel, TSize(aPixelLength, 1));
const TRect rectClientArea(SizeInPixels());
rectSrc.Intersection(rectClientArea);
if(rectSrc.IsEmpty())
return;
const TUidPixelFormat pixelFormatSource = PixelFormat();
const TUidPixelFormat pixelFormatDest = SgUtils::DisplayModeToPixelFormat(aDispMode);
if((pixelFormatSource == EUidPixelFormatUnknown) || (pixelFormatDest == EUidPixelFormatUnknown))
return;
aPixelLength = rectSrc.Width();
const TInt dataStrideDest = SgUtils::MinDataStride(aPixelLength, pixelFormatDest);
if(dataStrideDest <= 0)
return;
const TAny* dataAddressSource = NULL;
TInt dataStrideSource;
const TInt err = MapReadOnly(dataAddressSource, dataStrideSource);
if(!err)
{
aScanLine.SetLength(dataStrideDest);
SgUtils::TransferPixels(const_cast<TUint8*>(aScanLine.Ptr()), dataStrideDest, pixelFormatDest,
dataAddressSource, dataStrideSource, pixelFormatSource, rectSrc);
Unmap();
}
}
TBool CRenderTarget::RectCompare(const TRect& aRect1, const TRect& aRect2) const
{
const TAny* startDataAddress = NULL;
TInt dataStride;
const TRect clientRect(SizeInPixels());
TRect rect1 = aRect1;
TRect rect2 = aRect2;
rect1.Intersection(clientRect);
rect2.Intersection(clientRect);
if(rect1.IsEmpty() || rect2.IsEmpty() || (rect1 != aRect1) || (rect2 != aRect2) ||
(rect1.Width() != rect2.Width()) || (rect1.Height() != rect2.Height()))
return EFalse;
TUidPixelFormat pixelFormat = PixelFormat();
if(pixelFormat == EUidPixelFormatUnknown)
return EFalse;
TInt bpp = SgUtils::MinDataStride(1, pixelFormat);
if(bpp == 0)
return EFalse;
TInt err = MapReadOnly(startDataAddress, dataStride);
if(err != KErrNone)
return EFalse;
TBool res = ETrue;
TPoint startPoint1 = rect1.iTl;
TPoint startPoint2 = rect2.iTl;
const TInt length1 = SgUtils::MinDataStride(rect1.Width(), pixelFormat);
const TInt length2 = SgUtils::MinDataStride(rect2.Width(), pixelFormat);
for(; (startPoint1.iY < rect1.iBr.iY) && (startPoint2.iY < rect2.iBr.iY); startPoint1.iY++, startPoint2.iY++)
{
const TUint8* dataAddress1 = DataAddress(startDataAddress, startPoint1, dataStride, bpp);
const TUint8* dataAddress2 = DataAddress(startDataAddress, startPoint2, dataStride, bpp);
if(Mem::Compare(dataAddress1, length1, dataAddress2, length2) != 0)
{
res = EFalse;
break;
}
}
Unmap();
return res;
}
void CRenderTarget::CopyToBitmapL(CFbsBitmap* aBitmap, const TRect& aRect) const
{
const TUidPixelFormat pixelFormatDest = SgUtils::DisplayModeToPixelFormat(aBitmap->DisplayMode());
const TUidPixelFormat pixelFormatSrc = PixelFormat();
if((pixelFormatSrc == EUidPixelFormatUnknown) || (pixelFormatDest == EUidPixelFormatUnknown))
User::LeaveIfError(KErrNotSupported);
aBitmap->BeginDataAccess();
const TSize sizeDest = aBitmap->SizeInPixels();
TRect rectSrc = aRect;
rectSrc.Intersection(TRect(SizeInPixels()));
if(rectSrc.IsEmpty())
return;
if(rectSrc.Height() > sizeDest.iHeight)
{
rectSrc.SetHeight(sizeDest.iHeight);
}
if(rectSrc.Width() > sizeDest.iWidth)
{
rectSrc.SetWidth(sizeDest.iWidth);
}
const TAny* dataAddressSrc = NULL;
TInt dataStrideSrc;
User::LeaveIfError(MapReadOnly(dataAddressSrc, dataStrideSrc));
SgUtils::TransferPixels(aBitmap->DataAddress(), aBitmap->DataStride(), pixelFormatDest,
dataAddressSrc, dataStrideSrc, pixelFormatSrc, rectSrc);
aBitmap->EndDataAccess();
Unmap();
}
/*
Helper function to obtain the address of the buffer
*/
const TUint8* CRenderTarget::DataAddress(const TAny* aStartDataAddress, const TPoint& aStartPoint, TInt aDataStride, TInt aBpp) const
{
const TInt offset = aStartPoint.iX * aBpp + aStartPoint.iY * aDataStride;
const TUint8* dataAddress = static_cast<TUint8*>(const_cast<TAny*> (aStartDataAddress));
return(dataAddress + offset);
}
#if defined(__WINS__) && defined(_DEBUG)
void CRenderTarget::UpdateDebugWin()
{
if (iOsbWin)
{
const TAny* dataAddress = NULL;
TInt dataStride;
const TInt err = MapReadOnly(dataAddress, dataStride);
if(!err)
{
const TUint32* dataAddress1 = static_cast<const TUint32*>(dataAddress);
iOsbWin->Refresh(SizeInPixels(), DisplayMode(), dataAddress1);
Unmap();
}
}
}
#endif