// 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 "openwfcpanics.h"
#include "elementwrapper.h"
#include <WF/wfc.h>
#include <graphics/surfacetypes.h>
#include <hal.h>
CElementWrapper* CElementWrapper::NewL(COpenWfcWrapper& aCOpenWfcWrapper, CElementWrapper*& aCleanupPrevRef)
{
CElementWrapper* wrapper = new (ELeave) CElementWrapper(aCOpenWfcWrapper);
CleanupStack::PushL(wrapper);
wrapper->ConstructL(aCleanupPrevRef);
CleanupStack::Pop(wrapper);
return wrapper;
}
CElementWrapper::CElementWrapper(COpenWfcWrapper& aOpenWfcWrapper):
iUpdateFlags(EUpdate_ALL_ATTRIBS),iOpenWfcWrapper(aOpenWfcWrapper),iGlobalAlpha(0xff),
iFlipped(EFalse),iRotation(MWsElement::EElementAntiClockwise0)
{
}
CElementWrapper::~CElementWrapper()
{
wfcDestroyElement(iOpenWfcWrapper.Device(),iElement);
UnsetSurface(iSurfaceId);
iUpdateFlags = EUpdate_None;
if (iCleanupNext)
{
iCleanupNext->iCleanupPrevRef=iCleanupPrevRef;
}
*iCleanupPrevRef=iCleanupNext;
}
void CElementWrapper::ConstructL(CElementWrapper*& aCleanupPrevRef)
{
if (aCleanupPrevRef)
{
iCleanupNext=aCleanupPrevRef;
iCleanupNext->iCleanupPrevRef=&iCleanupNext;
}
aCleanupPrevRef=this;
iCleanupPrevRef=&aCleanupPrevRef;
iElement=wfcCreateElement(iOpenWfcWrapper.Device(),iOpenWfcWrapper.OnScreenContext(),NULL);
if (iElement==WFC_INVALID_HANDLE)
{ //if context and device are good then only explanation is memory
#ifdef _DEBUG
WFCErrorCode wfcErr =
#endif
wfcGetError(iOpenWfcWrapper.Device());
OPENWFC_ASSERT_DEBUG(wfcErr==WFC_ERROR_OUT_OF_MEMORY,EPanicUnexpectedErrorElementConstruct);
User::Leave(KErrNoMemory);
}
}
TInt CElementWrapper::SetSourceRectangle(const TRect& aSrc)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
//Check aSrc rect is within the bounds of the source image
TInt32 width,height;
HelpStreamGetHeader(&width,&height);
if(aSrc.iTl.iX < 0 || aSrc.iTl.iY < 0 || aSrc.iBr.iX > width || aSrc.iBr.iY > height)
{
return KErrArgument;
}
iSourcRect = aSrc;
iUpdateFlags |= EUpdate_SettingValid|EUpdate_SOURCE_RECTANGLE;
iOpenWfcWrapper.SetCompositionModified();
return KErrNone;
}
TInt CElementWrapper::GetSourceRectangle(TRect& aSrc)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
if (iSourcRect.IsEmpty())
{
//get true source rectangle from surface
TInt32 width,height;
HelpStreamGetHeader(&width,&height);
aSrc.iTl.iX = 0;
aSrc.iTl.iY = 0;
aSrc.iBr.iX = width;
aSrc.iBr.iY = height;
}
else
{
aSrc=iSourcRect;
}
return KErrNone;
}
TInt CElementWrapper::SetSourceFlipping(const TBool aFlip)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
iFlipped = aFlip;
iUpdateFlags |= EUpdate_SettingValid|EUpdate_SOURCE_FLIP;
return KErrNone;
}
TBool CElementWrapper::SourceFlipping() const
{
if(iSurfaceId.IsNull())
return EFalse; //default is not flipped
return iFlipped;
}
TInt CElementWrapper::SetGlobalAlpha(const TInt aAlpha)
{
if (aAlpha!=iGlobalAlpha)
{
if ((aAlpha>=0xff)!=(iGlobalAlpha==0xff))
{
iUpdateFlags |= EUpdate_SettingValid|EUpdate_TRANSPARENCY_TYPES;
}
if (aAlpha < 0)
{
iGlobalAlpha = 0;
}
else
{
iGlobalAlpha = aAlpha > 0xff ? 0xff : aAlpha;
}
iUpdateFlags |= EUpdate_SettingValid|EUpdate_GLOBAL_ALPHA;
}
iOpenWfcWrapper.SetCompositionModified();
return KErrNone;
}
void CElementWrapper::GlobalAlpha(TInt& aAlpha) const
{
aAlpha = iGlobalAlpha;
}
TInt CElementWrapper::SetDestinationRectangle(const TRect& aDest)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
//Check aDest is not out of bounds
if(aDest.iBr.iX < aDest.iTl.iX || aDest.iBr.iY < aDest.iTl.iY)
{
return KErrArgument;
}
TRect compositionDestRect;
TRect lastCompositionDestRect;
GetDestinationRectangle(lastCompositionDestRect);
TInt err = KErrNone;
//always do the translate
err = iOpenWfcWrapper.DisplayPolicy()->MapCoordinates(EApplicationSpace, aDest, ECompositionSpace, compositionDestRect);
if(compositionDestRect != lastCompositionDestRect)
{
iDestinationRect=aDest;
iUpdateFlags |= EUpdate_SettingValid|EUpdate_DESTINATION_RECTANGLE;
iOpenWfcWrapper.SetCompositionModified();
}
return err;
}
TInt CElementWrapper::GetDestinationRectangle(TRect& aDest) const
{
if(iSurfaceId.IsNull())
return KErrGeneral;
aDest=iDestinationRect;
return KErrNone;
}
TInt CElementWrapper::SetDestinationClippingRect(const TRect& aDestClipRect)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
TRect compositionDestClipRect;
TRect lastCompositionDestClipRect;
GetDestinationClippingRect(lastCompositionDestClipRect);
TInt err = KErrNone;
//always do the translate
err = iOpenWfcWrapper.DisplayPolicy()->MapCoordinates(EApplicationSpace, aDestClipRect, ECompositionSpace, compositionDestClipRect);
if(compositionDestClipRect != lastCompositionDestClipRect)
{
TRect destClipRect(aDestClipRect);
//Check if the destination clip rectangle is not empty
if (!destClipRect.IsEmpty())
{
//Calculate the intersection of the destination clipped rectangle
destClipRect.Intersection(iDestinationRect);
if (!destClipRect.IsEmpty())
{
// Check if the clipped rectangle is valid,it doesn't have coordinates
if (destClipRect.iTl.iX < 0 || destClipRect.iTl.iY < 0)
{
return KErrArgument;
}
}
}
if (iDestinationClippingRect != aDestClipRect)
{
iDestinationClippingRect = aDestClipRect;
iUpdateFlags |= EUpdate_SettingValid | EUpdate_DESTINATION_CLIP_RECTANGLE;
iOpenWfcWrapper.SetCompositionModified();
}
err = KErrNone;
}
return err;
}
TInt CElementWrapper::GetDestinationClippingRect(TRect& aDestClipRect) const
{
if(iSurfaceId.IsNull())
return KErrGeneral;
aDestClipRect = iDestinationClippingRect;
return KErrNone;
}
/*
Fast swap of two 32-bit TInt type integers.
@param aA Argument one.
@param aB Argument two.
*/
inline void SwapInt(TInt& aA, TInt& aB)
{
aA ^= aB;
aB ^= aA;
aA ^= aB;
}
/*
Rectangle corner point enumeration.
Consider TopLeft point as 0
Consider TopRight point as 1
Consider BottomRight point as 2
Consider BottomLeft point as 3
*/
enum TRectangleCornerPoint
{
ETopLeft,
ETopRight,
EBottomRight,
EBottomLeft
};
/**
Get Bottom right corner of the rectangle.
@param aRect input rectangle.
@return Bottom right corner point coordinates of rectangle.
*/
inline TPoint BottomRight(const TRect& aRect)
{
return aRect.iBr;
}
/**
Get Top left corner of the rectangle.
@param aRect input rectangle.
@return Top left corner point coordinates of rectangle.
*/
inline TPoint TopLeft(const TRect& aRect)
{
return aRect.iTl;
}
/**
Get Top right corner of the rectangle.
@param aRect input rectangle.
@return Top right corner point coordinates of rectangle.
*/
inline TPoint TopRight(const TRect& aRect)
{
return TPoint(aRect.iBr.iX, aRect.iTl.iY);
}
/**
Get Bottom left corner of the rectangle.
@param aRect input rectangle.
@return Bottom left corner point coordinates of rectangle.
*/
inline TPoint BottomLeft(const TRect& aRect)
{
return TPoint(aRect.iTl.iX, aRect.iBr.iY);
}
/*
Make horizontal flip of the corner point.
*/
inline TRectangleCornerPoint FlipRectangleCorner(TRectangleCornerPoint aSourceRectCorner)
{
return static_cast<TRectangleCornerPoint> (static_cast<TInt> (aSourceRectCorner ^ 0x00000003));
}
/*
Make clockwise rotation of corner point.
*/
inline TRectangleCornerPoint RotateRectangleCorner(TRectangleCornerPoint aSourceRectCorner,const MWsElement::TElementRotation& aElementRotation)
{
return static_cast<TRectangleCornerPoint> ((static_cast<TInt> (aSourceRectCorner) + static_cast<TInt> (aElementRotation)) & 0x00000003);
}
/*
Check if there is an inverted aspect ratio.
*/
inline TBool CheckInvertedAspectRatio(const MWsElement::TElementRotation& aElementRotation)
{
return (aElementRotation & 0x00000001);
}
/**
Compare the dedicated rectangle corner coordinates of two rectangles.
@param aCorner rectangle corner point.
@param aRect1 the first rectangle to compare.
@param aRect2 the second rectangle to compare.
@return ETrue if the checked corner coordinates are the same.
*/
TBool CheckTwoRectangleCorners(TRectangleCornerPoint aCorner,const TRect& aRect1,const TRect& aRect2)
{
aCorner = static_cast<TRectangleCornerPoint> (static_cast<TInt> (aCorner) & 0x00000003); // Normalize rectangle corner value
switch (aCorner)
{
case ETopLeft:
return (TopLeft(aRect1) == TopLeft(aRect2));
case ETopRight:
return (TopRight(aRect1) == TopRight(aRect2));
case EBottomRight:
return (BottomRight(aRect1) == BottomRight(aRect2));
case EBottomLeft:
return (BottomLeft(aRect1) == BottomLeft(aRect2));
default:
return EFalse;
}
}
/**
Calculate the new source rectangle extent when a window is clipped by it parent window.
Destination clipped rectangle should match to the source rectangle with taking into account
flip, scaling and rotation.
@param aDestElementRect destination element rectangle without parent window clipping
@param aDestElementClippedRect destination element rectangle clipped by the parent window.
@param aSrcOriginalElementRect source element rectangle without any clipping changes.
@param aElementFlip horizontal flip flag.
@param aElementRotation target anti clockwise rotation factor.
@return clipped source rectangle.
*/
TRect CElementWrapper::SetSourceDestRect(const TRect& aDestElementRect,const TRect& aDestElementClippedRect,const TRect& aSrcOriginalElementRect,const TBool& aElementFlip,const MWsElement::TElementRotation& aElementRotation) const
{
if ((aSrcOriginalElementRect.Width() == 0) || (aSrcOriginalElementRect.Height() == 0))
{
// There are either width or height equal zero.
return TRect();
}
TRectangleCornerPoint sourceRectangleCorner = ETopLeft;
TRect destElementMovedClippedRect(aDestElementClippedRect);
destElementMovedClippedRect.Intersection(aDestElementRect);
TBool fullFlipRotationScale = EFalse;
// Compare four corner points of Destination moved and Destination moved clipped rectangles.
// Find the first equal corner coordinates for Destination moved and Destination moved clipped rectangles.
// It is the Fixed or non changeable point/corner of the source rectangle.
if (destElementMovedClippedRect.IsEmpty())
{
return TRect();
}
for (sourceRectangleCorner = ETopLeft; ((TInt) sourceRectangleCorner) <= ((TInt) EBottomLeft);)
{
if (CheckTwoRectangleCorners(sourceRectangleCorner, aDestElementRect, destElementMovedClippedRect))
{
break;
}
sourceRectangleCorner = static_cast<TRectangleCornerPoint> ((TInt) sourceRectangleCorner + 1);
}
// There are no equals coordinates, hence, it must be calculated with different by different way
if ((TInt) sourceRectangleCorner > (TInt) EBottomLeft)
{
sourceRectangleCorner = ETopLeft;
fullFlipRotationScale = ETrue;
}
// Clockwise rotate of the detected Fixed point/corner.
sourceRectangleCorner = RotateRectangleCorner(sourceRectangleCorner, aElementRotation);
// If flip flag set, then make horizontal flip of the Fixed point.
if (aElementFlip)
{
sourceRectangleCorner = FlipRectangleCorner(sourceRectangleCorner);
}
// Make scale calculation for the source clipping
TInt dX = 0;
TInt dY = 0;
if (fullFlipRotationScale)
{
dX = ((aDestElementRect.iTl.iX - aDestElementClippedRect.iTl.iX) * aSrcOriginalElementRect.Width()) / aDestElementRect.Width();
dY = ((aDestElementRect.iTl.iY - aDestElementClippedRect.iTl.iY) * aSrcOriginalElementRect.Height()) / aDestElementRect.Height();
}
TInt clipSrcWidth = (destElementMovedClippedRect.Width() * aSrcOriginalElementRect.Width()) / aDestElementRect.Width();
TInt clipSrcHeight = (destElementMovedClippedRect.Height() * aSrcOriginalElementRect.Height()) / aDestElementRect.Height();
TRect resultSourceRect = aSrcOriginalElementRect;
// Swap the clipping width and height if the target was rotated on 90 or 270 degrees.
if (CheckInvertedAspectRatio(aElementRotation))
{
SwapInt(clipSrcWidth, clipSrcHeight);
SwapInt(dX, dY);
}
// Assuming that coordinates of the source Fixed corner/point was not changed due to clipping,
// calculate coordinates of an opposite point to the Fixed corner/point.
// This point must be differ from original source for providing proper clipping visual result.
switch (sourceRectangleCorner)
{
case ETopLeft:
{
// If TopRight of aDestElementRect is not the same as TopRight of aDestElementClippedRect
if (!CheckTwoRectangleCorners(ETopRight, aDestElementRect, destElementMovedClippedRect))
{// calculate point ETopRight
resultSourceRect.iBr.iX = resultSourceRect.iTl.iX + clipSrcWidth;
}
// If BottomLeft of aDestElementRect is not the same as BottomLeft of aDestElementClippedRect
if (!CheckTwoRectangleCorners(EBottomLeft, aDestElementRect, destElementMovedClippedRect))
{// calculate point EBottomLeft
resultSourceRect.iBr.iY = resultSourceRect.iTl.iY + clipSrcHeight;
}
if (fullFlipRotationScale)
{
resultSourceRect.iTl.iX += dX;
resultSourceRect.iTl.iY += dY;
}
}
break;
case ETopRight:
{
// if TopLeft of aDestElementRect is not the same as TopLeft of aDestElementClippedRect
if (!CheckTwoRectangleCorners(ETopLeft, aDestElementRect, destElementMovedClippedRect))
{// calculate point ETopLeft
resultSourceRect.iTl.iX = resultSourceRect.iBr.iX - clipSrcWidth;
}
// if BottomRight of aDestElementRect is not the same as BottomRight of aDestElementClippedRect
if (!CheckTwoRectangleCorners(EBottomRight, aDestElementRect, destElementMovedClippedRect))
{// calculate point EBottomRight
resultSourceRect.iBr.iY = resultSourceRect.iTl.iY + clipSrcHeight;
}
if (fullFlipRotationScale)
{
resultSourceRect.iBr.iX -= dX;
resultSourceRect.iTl.iY += dY;
}
}
break;
case EBottomRight:
{
// if BottomLeft of aDestElementRect is not the same as BottomLeft of aDestElementClippedRect
if (!CheckTwoRectangleCorners(EBottomLeft, aDestElementRect, destElementMovedClippedRect))
{// calculate point EBottomLeft
resultSourceRect.iTl.iX = resultSourceRect.iBr.iX - clipSrcWidth;
}
// if TopRight of aDestElementRect is not the same as TopRight of aDestElementClippedRect
if (!CheckTwoRectangleCorners(ETopRight, aDestElementRect, destElementMovedClippedRect))
{// calculate point ETopRight
resultSourceRect.iTl.iY = resultSourceRect.iBr.iY - clipSrcHeight;
}
if (fullFlipRotationScale)
{
resultSourceRect.iBr.iX -= dX;
resultSourceRect.iBr.iY -= dY;
}
}
break;
case EBottomLeft:
{
// if BottomRight of aDestElementRect is not the same as BottomRight of aDestElementClippedRect don't change width
if (CheckTwoRectangleCorners(EBottomRight, aDestElementRect, destElementMovedClippedRect))
{// calculate point EBottomRight
resultSourceRect.iBr.iX = resultSourceRect.iTl.iX + clipSrcWidth;
}
// if TopLeft of aDestElementRect is not the same as TopLeft of aDestElementClippedRect
if (CheckTwoRectangleCorners(ETopLeft, aDestElementRect, destElementMovedClippedRect))
{// calculate point ETopLeft
resultSourceRect.iTl.iY = resultSourceRect.iBr.iY - clipSrcHeight;
}
if (fullFlipRotationScale)
{
resultSourceRect.iTl.iX += dX;
resultSourceRect.iBr.iY -= dY;
}
}
break;
}
return resultSourceRect;
}
TInt CElementWrapper::SetSourceRotation(const TElementRotation aElementRotation)
{
if(iSurfaceId.IsNull())
return KErrGeneral;
if(aElementRotation < 0 || aElementRotation > 3)
return KErrArgument;
iRotation = aElementRotation;
iUpdateFlags |= EUpdate_SettingValid|EUpdate_SOURCE_ROTATION;
iOpenWfcWrapper.SetCompositionModified();
return KErrNone;
}
MWsElement::TElementRotation CElementWrapper::SourceRotation() const
{
if(iSurfaceId.IsNull())
return EElementAntiClockwise0; //default rotation
return iRotation;
}
TInt CElementWrapper::SetTargetRendererFlags(const TUint32& aTargetRendererFlags)
{
iTargetRendererFlags = aTargetRendererFlags;
if (iTargetRendererFlags & EElementTransparencyGlobalAlpha)
{
iUpdateFlags |= EUpdate_SettingValid|EUpdate_GLOBAL_ALPHA;
}
if (iTargetRendererFlags & EElementTransparencySource)
{
iUpdateFlags |= EUpdate_SettingValid|EUpdate_TRANSPARENCY_TYPES;
}
return KErrNone;
}
TInt CElementWrapper::SetRenderStageFlags(const TUint32& aRenderStageFlags)
{
iRenderStageFlags = aRenderStageFlags;
return KErrNone;
}
void CElementWrapper::GetTargetRendererFlags(TUint32& aTargetRendererFlags) const
{
aTargetRendererFlags = iTargetRendererFlags;
}
void CElementWrapper::GetRenderStageFlags(TUint32& aRenderStageFlags) const
{
aRenderStageFlags = iRenderStageFlags;
}
MWsElement* CElementWrapper::ElementAbove()
{
//Check this element has not already been reequsted to be removed
if (iUpdateFlags&EUpdate_Remove)
{
return NULL;
}
else
{
return iElementAbove;
}
}
MWsElement* CElementWrapper::ElementBelow()
{
//Check this element has not already been reequsted to be removed
if (iUpdateFlags&EUpdate_Remove)
{
return NULL;
}
else
{
return iElementBelow;
}
}
TInt CElementWrapper::ConnectSurface(const TSurfaceId& aSurface)
{
TInt err = KErrNone;
if (aSurface!=iSurfaceId)
{
if (!aSurface.IsNull())
{
if(!iOpenWfcWrapper.IncEltRefRegSource(aSurface))
{
return KErrNotFound;
}
else
{
RSurfaceManager::TInfoBuf buff;
err = err = SurfaceInfo(aSurface, buff);
if (err != KErrNone)
{
return iOpenWfcWrapper.DecEltRefRegSource(aSurface);
}
else
{
iSurfaceSize=buff().iSize;
}
}
}
else
{
iSurfaceSize.SetSize(0,0);
}
UnsetSurface(iSurfaceId);
iSurfaceId=aSurface;
iUpdateFlags |= EUpdate_SettingValid|EUpdate_SOURCE;
if (iSourcRect.IsEmpty())
{
iUpdateFlags |= EUpdate_SettingValid|EUpdate_SOURCE_RECTANGLE;
}
}
else
{ //Note this code is simply here to return the error!
if (!iSurfaceId.IsNull())
{
if (iOpenWfcWrapper.IncEltRefRegSource(iSurfaceId))
{
iOpenWfcWrapper.DecEltRefRegSource(iSurfaceId);
}
else
{
return KErrNotFound;
}
}
}
iOpenWfcWrapper.SetCompositionModified();
return err;
}
const TSurfaceId& CElementWrapper::ConnectedSurface() const
{
return iSurfaceId;
}
/**
* Sets the element source to match the surface ID and optionally locks the reference count until next composition.
**/
void CElementWrapper::SetEltSourceComposed()
{
iUpdateFlags |= EUpdate_SceneCommited;
}
/**
* Sets the element source to match the surface ID and optionally locks the reference count until next composition.
**/
void CElementWrapper::SetEltSource(WFCElement aElement)const
{
WFCSource source = WFC_INVALID_HANDLE;
if (!iSurfaceId.IsNull())
{
source=iOpenWfcWrapper.IncEltRefRegSource(iSurfaceId);
if(source)
{
TInt remains=iOpenWfcWrapper.DecEltRefRegSource(iSurfaceId);
OPENWFC_ASSERT_DEBUG(remains>0,EPanicWfcNoStreamSurface);
}
}
wfcSetElementAttribi(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_SOURCE,source);
}
/**
* Internal method releases the previous registered surface, and clears the caller's member var.
* @return true if any resources released
**/
TBool CElementWrapper::UnsetSurface(TSurfaceId& aSurface)
{
if (!aSurface.IsNull())
{
TInt err = iOpenWfcWrapper.DecEltRefRegSource(aSurface);
OPENWFC_ASSERT_DEBUG(err >= 0,EPanicWfcSourceLookupOnElementRemoval);
aSurface = aSurface.CreateNullId();
return (err == KErrNone); //>0 indicates object count non-zero
}
return EFalse;
}
void CElementWrapper::SetEltTransparencyTypes(WFCElement aElement)const
{
TInt transType = WFC_TRANSPARENCY_NONE;
if (iTargetRendererFlags & EElementTransparencySource)
{
transType |= WFC_TRANSPARENCY_SOURCE;
}
if (iTargetRendererFlags & EElementTransparencyGlobalAlpha)
{
transType |= WFC_TRANSPARENCY_ELEMENT_GLOBAL_ALPHA;
}
wfcSetElementAttribi(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_TRANSPARENCY_TYPES,transType);
}
void CElementWrapper::HelpStreamGetHeader(khronos_int32_t* aWidth, khronos_int32_t* aHeight)const
{
if (aWidth)
{
*aWidth=iSurfaceSize.iWidth;
}
if (aHeight)
{
*aHeight=iSurfaceSize.iHeight;
}
}
/**
* Maps the source rectangle to fp values matching the region and destination rectangle data over a element object.
* This is when the source rectangle changes.
* Only repositions existing elements
**/
void CElementWrapper::SetEltSourceRectangle(WFCElement aElement)
{
TRect srcRect;
GetSourceRectangle(srcRect);
if (!iDestinationClippingRect.IsEmpty())
{
TRect destinationRect=iDestinationRect;
destinationRect.Intersection(iDestinationClippingRect);
if(!destinationRect.IsEmpty())
{
srcRect = SetSourceDestRect(iDestinationRect,destinationRect,srcRect,iFlipped,iRotation);
}
}
float rect[4]={srcRect.iTl.iX,srcRect.iTl.iY,srcRect.Width(),srcRect.Height()};
wfcSetElementAttribfv(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_SOURCE_RECTANGLE,4,rect);
}
void CElementWrapper::SetEltSourceFlip(WFCElement aElement)const
{
wfcSetElementAttribi(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_SOURCE_FLIP, iFlipped);
}
/**
* Maps the region and destination rectangle data into a element object
* taking into account the source rectangle mapping and region data
* @return KErrNone or KErrMemory
**/
void CElementWrapper::SetEltDestinationRectangle(WFCElement aElement)const
{
TRect destinationRect=iDestinationRect;
if (!iDestinationClippingRect.IsEmpty())
{
destinationRect.Intersection(iDestinationClippingRect);
}
float destRect[4]={destinationRect.iTl.iX,destinationRect.iTl.iY,destinationRect.Width()<0?0:destinationRect.Width(),destinationRect.Height()<0?0:destinationRect.Height()};
wfcSetElementAttribfv(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_DESTINATION_RECTANGLE,4,destRect);
LILOG(("### EXIT SetEltDestinationRectangle()"));
}
/**
* Maps the region and destination rectangle data into a element object.
* taking in to account the source rectangle mapping and region data
* @param aOffset an offset ADDED to every destination rectangle
* @return KErrNone or KErrMemory
**/
void CElementWrapper::SetEltDestinationRectangle(WFCElement aElement, const TPoint& aOffset)const
{
TRect destinationRect=iDestinationRect;
if (!iDestinationClippingRect.IsEmpty())
{
destinationRect.Intersection(iDestinationClippingRect);
}
float rect[4]={destinationRect.iTl.iX+aOffset.iX,destinationRect.iTl.iY+aOffset.iY,destinationRect.Width(),destinationRect.Height()};
wfcSetElementAttribfv(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_DESTINATION_RECTANGLE,4,rect);
}
void CElementWrapper::RemoveAfter(CElementWrapper** apElementBelow)
{
iUpdateFlags&=~(EUpdate_Insert|EUpdate_Remove);
if(apElementBelow)
{
*apElementBelow = iElementAbove;
if (iElementAbove)
{
iElementAbove->iElementBelow = iElementBelow;
}
}
iElementBelow = NULL;
iElementAbove = NULL;
}
void CElementWrapper::InsertAfter(CElementWrapper*& aRefElementBelow, CElementWrapper* aElementBelow, TOwfUpdates aUpdateFlag)
{
OPENWFC_ASSERT_DEBUG(aUpdateFlag&(EUpdate_Insert|aUpdateFlag&EUpdate_Remove|aUpdateFlag&EUpdate_Destroy), EPanicUnexpectedErrorElementScene);
iUpdateFlags |= EUpdate_SettingValid|aUpdateFlag;
iElementAbove = aRefElementBelow;
iElementBelow = aElementBelow;
aRefElementBelow = this;
if (iElementAbove)
{
iElementAbove->iElementBelow = this;
}
}
/* Returns a pointer referencing this object from below.
* @return the pointer or null if there is no "below" object
*/
CElementWrapper** CElementWrapper::RefsMyElementBelow()
{
if (iElementBelow)
{
return &iElementBelow->iElementAbove;
}
return NULL;
}
CElementWrapper*& CElementWrapper::MyElementAbove()
{
return iElementAbove;
}
TInt CElementWrapper::WfcRotation(MWsElement::TElementRotation aRotation)
{
switch (aRotation)
{
case EElementAntiClockwise0:
return WFC_ROTATION_0;
case EElementAntiClockwise90:
return WFC_ROTATION_270;
case EElementAntiClockwise180:
return WFC_ROTATION_180;
default: // EElementAntiClockwise270
return WFC_ROTATION_90;
}
}
TBool CElementWrapper::IsNewElementLegal()const
{
//OWF SI will fail if certain illegal element attributes are passed to it.
//Various members must be non-zero:
//destination rectangle
//source
//global alpha
if (iDestinationRect.IsEmpty() || iSurfaceId.IsNull()||iGlobalAlpha==0)
{
return EFalse;
}
//If the source rectangle is set it must be inside the surface size
if (!iSourcRect.IsEmpty())
{
if (iSourcRect.iTl.iX<0 || iSourcRect.iTl.iY<0)
{
return EFalse;
}
TInt32 width;
TInt32 height;
HelpStreamGetHeader(&width,&height);
if (iSourcRect.iBr.iX>width || iSourcRect.iBr.iY>height)
{
return EFalse;
}
}
//If mask is defined and enabled, Mask size must match destination rectangle size
//masks are currently not implemented
//If mask is enabled then source alpha must not be enabled
//masks are currently not implemented
return ETrue;
}
/**
* Flushes any flagged scene or attribute changes into the element objects
* @return EFalse if no flushing occurred - for any reason
**/
TBool CElementWrapper::FlushSceneChanges()
{
TInt updateFlags=iUpdateFlags;
if ((updateFlags&EUpdate_AttributesIllegal) && !(updateFlags&EUpdate_SettingValid))
{
return EFalse;
}
if (updateFlags==EUpdate_None)
{
return EFalse;
}
if (updateFlags&(EUpdate_Remove|EUpdate_Destroy) && (updateFlags&EUpdate_SceneCommited))
{
wfcRemoveElement(iOpenWfcWrapper.Device(),iElement);
}
if (updateFlags&EUpdate_Destroy)
{
return EFalse;
}
if (updateFlags&(EUpdate_Remove|EUpdate_Destroy))
{
iUpdateFlags&=~(EUpdate_Insert|EUpdate_Remove|EUpdate_SceneCommited);
return EFalse;
}
TBool isElementLegal=IsNewElementLegal();
if (!isElementLegal)
{ //If the element would not be legal then it must not be inserted
//It may even need to be removed.
if (updateFlags&EUpdate_SceneCommited)
{ //it is in the scene, remove it
wfcRemoveElement(iOpenWfcWrapper.Device(),iElement);
updateFlags &= ~EUpdate_SceneCommited;
}
//Re-flag the update but also set a flag
//so that we don't bother to check legality again until another attribute change.
updateFlags&=~EUpdate_SettingValid;
updateFlags|=EUpdate_AttributesIllegal;
iUpdateFlags=updateFlags;
LILOG(("### EXIT CElementWrapper::FlushSceneChanges() FALSE"));
return EFalse;
}
WFCElement elementBelow=WFC_INVALID_HANDLE;
if ((updateFlags&(EUpdate_Insert|EUpdate_AttributesIllegal)))
{
if (CElementWrapper* elementWrapperBelow=iElementBelow)
{
while (elementWrapperBelow && elementWrapperBelow->iUpdateFlags&EUpdate_AttributesIllegal)
{
elementWrapperBelow=elementWrapperBelow->iElementBelow;
}
if (elementWrapperBelow)
{
elementBelow=elementWrapperBelow->iElement;
}
}
}
iUpdateFlags = EUpdate_SceneCommited;
if ((updateFlags&~EUpdate_Remove))
{
FlushAttributeChanges(iElement, updateFlags);
if (updateFlags&(EUpdate_Insert|EUpdate_AttributesIllegal))
{
wfcInsertElement(iOpenWfcWrapper.Device(),iElement,elementBelow);
}
}
LILOG(("### EXIT CElementWrapper::FlushSceneChanges() FALSE"));
return ETrue;
}
void CElementWrapper::FlushAttributeChanges(WFCElement aElement, TInt aUpdateFlags)
{
LILOG(("### ENTER FlushAttributeChanges() aStart(%d), aPastMax(%d), uFl(0x%x)", aStart, aPastMax, aUpdateFlags));
//At present all attribute changes are flushed immediately... assert that behaviour.
if (aUpdateFlags&EUpdate_SOURCE_GEOMETRY_SET)
{
SetEltSourceRectangle(aElement);
}
if (aUpdateFlags&(EUpdate_SOURCE|EUpdate_SettingValid))
{
SetEltSource(aElement);
}
if (aUpdateFlags&EUpdate_SOURCE_FLIP)
{
SetEltSourceFlip(aElement);
}
if (aUpdateFlags&EUpdate_SOURCE_ROTATION)
{
TInt wfcRot=WfcRotation(iRotation);
wfcSetElementAttribi(iOpenWfcWrapper.Device(),iElement,WFC_ELEMENT_SOURCE_ROTATION,wfcRot);
}
if (aUpdateFlags&EUpdate_TRANSPARENCY_TYPES)
{
SetEltTransparencyTypes(aElement);
}
if (aUpdateFlags&EUpdate_GLOBAL_ALPHA)
{
wfcSetElementAttribi(iOpenWfcWrapper.Device(),aElement,WFC_ELEMENT_GLOBAL_ALPHA,iGlobalAlpha);
}
if (aUpdateFlags&EUpdate_DESTINATION_RECTANGLE)
{
SetEltDestinationRectangle(aElement);
}
LILOG(("### EXIT FlushAttributeChanges()"));
}
TInt CElementWrapper::ReplicateElements(WFCContext aContext, WFCElement& aPreviousTargetElement,const TPoint& aOffset)
{
if (aContext == WFC_INVALID_HANDLE)
{
return KErrArgument;
}
if (!IsNewElementLegal())
{
return KErrNone;
}
WFCDevice device = iOpenWfcWrapper.Device();
WFCContext onScreenContext = iOpenWfcWrapper.OnScreenContext();
// clean the existing system errors and look for new ones
wfcGetError(device);
WFCSource targetImageSource = wfcCreateSourceFromStream(device, aContext, reinterpret_cast<WFCNativeStreamType>(&iSurfaceId), NULL);
if (targetImageSource == WFC_INVALID_HANDLE)
{
return COpenWfcWrapper::TranslateOpenWfcError(wfcGetError(device));
}
WFCElement targetElement = WFC_INVALID_HANDLE;
// the elements are created but we don't get hold of them for longer than we need
// all elements created now are to be destroyed when composition is completed
targetElement = wfcCreateElement(device, aContext, NULL);
if (targetElement == WFC_INVALID_HANDLE)
{
return COpenWfcWrapper::TranslateOpenWfcError(wfcGetError(device));
}
// we can just flush the attributes to the new elements because the off-screen context attributes
// share the same device with the on-screen context. If this changes make device a parameter!
wfcSetElementAttribi(device,targetElement,WFC_ELEMENT_SOURCE,targetImageSource);
FlushAttributeChanges(targetElement, (EUpdate_ALL_ATTRIBS&~(EUpdate_SOURCE|EUpdate_DESTINATION_RECTANGLE)));
SetEltDestinationRectangle(targetElement, aOffset);
wfcInsertElement(iOpenWfcWrapper.Device(),targetElement,aPreviousTargetElement);
aPreviousTargetElement = targetElement;
return COpenWfcWrapper::TranslateOpenWfcError(wfcGetError(device));
}
TInt CElementWrapper::SurfaceInfo(const TSurfaceId& aSurface, RSurfaceManager::TInfoBuf& aInfo)
{
TInt err = KErrNone;
switch(aSurface.Type())
{
case TSurfaceTypes::ESurfaceManagerSurface:
{
err = Owner().SurfaceManager().SurfaceInfo(aSurface, aInfo);
break;
}
case TSurfaceId::EScreenSurface:
{
TInt screenId = aSurface.iInternal[TSurfaceId::TScreenSurfaceUsage::EScreenField];
TInt width = 0;
err = HAL::Get(screenId, HALData::EDisplayXPixels, width);
if (err != KErrNone)
{
iOpenWfcWrapper.DecEltRefRegSource(aSurface);
return err;
}
TInt height = 0;
err = HAL::Get(screenId, HALData::EDisplayYPixels, height);
if (err != KErrNone)
{
iOpenWfcWrapper.DecEltRefRegSource(aSurface);
return err;
}
aInfo().iSize = TSize(width, height);
#ifdef SYMBIAN_ROTATION_MODE_CHANGES
TInt displayMode = aSurface.iInternal[TSurfaceId::TScreenSurfaceUsage::EHalField];
#else
TInt displayMode = 0;
err = HAL::Get(screenId, HALData::EDisplayMode, displayMode);
if (err != KErrNone)
{
iOpenWfcWrapper.DecEltRefRegSource(aSurface);
return err;
}
#endif
#if defined(SYMBIAN_ROTATION_MODE_CHANGES)
if (displayMode & TSurfaceId::TScreenSurfaceUsage::EHalFlippedFlag) // 90 | 270 degree rotation
{
// Swap dimensions and recalculate stride. Assume no padding for now.
aInfo().iSize.iWidth = height;
aInfo().iSize.iHeight = width;
//"vertical" stride has already been fetched
}
#elif defined(SYMBIAN_ROTATION_CHANGES)
if (aSurface.iInternal[1] & (2 | 8)) // 90 | 270 degree rotation
{
// Swap dimensions and recalculate stride. Assume no padding for now.
aInfo().iSize.iWidth = height;
aInfo().iSize.iHeight = width;
}
#endif
break;
}
default:
err = KErrNotSupported;
}
return err;
}