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) 1997-2009 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 <fntstore.h>
#include <bitmap.h>
#include <bitstd.h>
#include <bitdev.h>
#include "BITPANIC.H"
#include <bitdraw.h>
#include <graphics/fbsrasterizer.h>
#include "bitgcextradata.h"
/** Clears a rectangular area.
The cleared area is filled with the current brush colour.The function
provides a concrete implementation of the pure virtual function
CBitmapContext::Clear(const TRect& aRect). The function
behaviour is the same as documented in that class. */
EXPORT_C void CFbsBitGc::Clear(const TRect& aRect)
{
if (CheckDevice(aRect))
return;
TRect rcpy(aRect);
rcpy.Move(iOrigin);
if (UserClipRect(rcpy))
return;
TBrushStyle tempbrushstyle = iBrushStyle;
iBrushStyle = ESolidBrush;
SetupDevice();
iDevice->DrawingBegin();
RectFill(rcpy);
iDevice->DrawingEnd();
iBrushStyle = tempbrushstyle;
}
/** Clears the whole bitmap or a rectangular area of a bitmap.
The cleared area is filled with the current brush colour.
The function provides a concrete implementation of the pure virtual function
CBitmapContext::Clear(). The function behaviour is the same as documented
in that class.
@see CBitmapContext::Clear() */
EXPORT_C void CFbsBitGc::Clear()
{
TRect deviceRect;
iDevice->iDrawDevice->GetDrawRect(deviceRect);
if ((iOrigin.iX!=0) || (iOrigin.iY!=0))
{
deviceRect.Move(-iOrigin);
}
Clear(deviceRect);
}
/** Draws a single point.
The point is drawn with the current pen settings using the current
drawing mode.The function provides a concrete implementation of the
pure virtual function CGraphicsContext::Plot(). The
function behaviour is the same as documented in that class. */
EXPORT_C void CFbsBitGc::Plot(const TPoint& aPoint)
{
if (iPenStyle == ENullPen || (iPenSize.iWidth == 0 && iPenSize.iHeight == 0))
return;
CheckDevice();
TRect plotRect(aPoint + iOrigin,TSize(1,1));
plotRect.Grow((iPenSize.iWidth >> 1) + 1,(iPenSize.iHeight >> 1) + 1);
if (!plotRect.Intersects(iUserClipRect))
return;
SetupDevice();
iDevice->DrawingBegin();
DoPlot(aPoint);
iDevice->DrawingEnd();
}
void CFbsBitGc::DoPlot(const TPoint& aPoint)
{
CFbsDrawDevice* drawDevice = iDevice->iDrawDevice;
const TSize oneByOne(1,1);
const TPoint point(aPoint + iOrigin);
TRect temp(point,oneByOne);
if (iPenSize.iWidth > 1 || iPenSize.iHeight > 1)
temp.Grow(iPenSize.iWidth >> 1,iPenSize.iHeight >> 1);
AddRect(temp);
const CGraphicsContext::TPenStyle penStyle = iPenStyle;
iPenStyle = CGraphicsContext::ESolidPen;
#if defined(_DEBUG)
TRect deviceRect;
drawDevice->GetDrawRect(deviceRect);
#endif
const TInt limit = iDefaultRegionPtr->Count();
for (TInt count = 0; count < limit; count++)
{
iClipRect = (*iDefaultRegionPtr)[count];
if (!iClipRect.Intersects(temp))
continue;
iClipRect.Intersection(temp);
if (UserClipRect(iClipRect))
continue;
if (iPenSize == oneByOne)
{
if (iClipRect.Contains(point))
{
BG_ASSERT_DEBUG(point.iX >= deviceRect.iTl.iX, EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(point.iY >= deviceRect.iTl.iY, EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(point.iX <= deviceRect.iBr.iX, EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(point.iY <= deviceRect.iBr.iY, EBitgdiPanicOutOfBounds);
drawDevice->WriteRgb(point.iX,point.iY,iPenColor,iDrawMode);
}
}
else if (iPenSize.iWidth > 0 && iPenSize.iHeight > 0)
PenDrawClipped(point);
drawDevice->UpdateRegion(iClipRect);
}
iPenStyle = penStyle;
}
/** Sets the shadow area.
@param aRegion The region defining the shadow area. */
EXPORT_C void CFbsBitGc::ShadowArea(const TRegion* aRegion)
{
ShadowFadeArea(aRegion,CFbsDrawDevice::EShadow);
}
/** Sets the fade area.
@param aRegion The region defining the fade area. */
EXPORT_C void CFbsBitGc::FadeArea(const TRegion* aRegion)
{
ShadowFadeArea(aRegion,CFbsDrawDevice::EFade);
}
void CFbsBitGc::ShadowFadeArea(const TRegion* aRegion,TInt8 aShadowMode)
{
if (!aRegion || aRegion->CheckError())
return;
CFbsDrawDevice* drawDevice = iDevice->iDrawDevice;
CheckDevice();
TRect deviceRect;
drawDevice->GetDrawRect(deviceRect);
TInt8 shadowMode = iShadowMode;
iShadowMode = aShadowMode;
CGraphicsAccelerator* ga = GraphicsAccelerator();
SetupDevice();
iDevice->DrawingBegin();
const TInt limit = aRegion->Count();
TInt count;
//use Graphics accelerator if available
if(ga)
{
if(iShadowMode & CFbsDrawDevice::EFade)
{
TInt gaOperationResult = KErrUnknown;
iDevice->DrawingEnd();
TGopFadeParams gopFadeParams;
gopFadeParams.iScale = iFadeWhiteMap-iFadeBlackMap+1;
gopFadeParams.iOffset = iFadeBlackMap;
for (count = 0; count < limit; count++)
{
iClipRect = (*aRegion)[count];
iClipRect.Move(iOrigin);
if(!iClipRect.Intersects(deviceRect))
continue;
iClipRect.Intersection(deviceRect);
AddRect(iClipRect);
gaOperationResult = ga->Operation(TGopFadeRect(iClipRect,gopFadeParams));
if(gaOperationResult != KErrNone)
break;
}
if(gaOperationResult == KErrNone)
goto finish;
iDevice->DrawingBegin();
}
}
//use graphics contex
for (count = 0; count < limit; count++)
{
iClipRect = (*aRegion)[count];
iClipRect.Move(iOrigin);
if(!iClipRect.Intersects(deviceRect))
continue;
iClipRect.Intersection(deviceRect);
AddRect(iClipRect);
drawDevice->ShadowArea(iClipRect);
drawDevice->UpdateRegion(iClipRect);
}
iDevice->DrawingEnd();
finish:
iShadowMode = shadowMode;
}
// if iBrushBitmap is an extended bitmap, PrepareRasterizerForExtendedBitmap() must have been called before this method
void CFbsBitGc::ClipFillLine(TPoint aLeft,TPoint aRight)
{
if (iBrushStyle == ENullBrush ||
aLeft.iY < iClipRect.iTl.iY || aLeft.iY >= iClipRect.iBr.iY)
return;
aLeft.iX = Max(aLeft.iX,iClipRect.iTl.iX);
aRight.iX = Min(aRight.iX,iClipRect.iBr.iX-1);
if (aLeft.iX > aRight.iX)
return;
BG_ASSERT_DEBUG(iUserClipRect.Contains(aLeft),EBitgdiPanicOutOfBounds);
TInt xcoord = aLeft.iX;
TInt length = aRight.iX - aLeft.iX + 1;
TPoint origin(iOrigin + iBrushOrigin);
BG_ASSERT_DEBUG(aLeft.iX + length <= iUserClipRect.iBr.iX,EBitgdiPanicOutOfBounds);
CFbsDrawDevice* drawDevice = iDevice->iDrawDevice;
switch(iBrushStyle)
{
case ESolidBrush:
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
return;
case EPatternedBrush:
{
CBitwiseBitmap* brushBitmap = iBrushBitmap.Address();
BG_ASSERT_ALWAYS(iBrushUsed,EBitgdiPanicInvalidBitmap);
BG_ASSERT_ALWAYS(brushBitmap != NULL,EBitgdiPanicInvalidBitmap);
TRect sourcerect(aLeft,TSize(length,1));
sourcerect.Move(-origin);
DoBitBlt(aLeft,brushBitmap,iBrushBitmap.DataAddress(),iBrushBitmap.DataStride(),sourcerect);
return;
}
case EHorizontalHatchBrush:
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
if (Abs((aLeft.iY - origin.iY) % 3) == 2)
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iPenColor,iDrawMode);
return;
case EVerticalHatchBrush:
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
while (Abs((xcoord - origin.iX) % 3) != 2)
xcoord++;
for (; xcoord < aLeft.iX + length; xcoord += 3)
drawDevice->WriteRgb(xcoord,aLeft.iY,iPenColor,iDrawMode);
return;
case ESquareCrossHatchBrush:
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
if (Abs((aLeft.iY - origin.iY) % 3) == 2)
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iPenColor,iDrawMode);
else
{
while (Abs((xcoord - origin.iX) % 3) != 2)
xcoord++;
for (; xcoord < aLeft.iX + length; xcoord += 3)
drawDevice->WriteRgb(xcoord,aLeft.iY,iPenColor,iDrawMode);
}
return;
case EForwardDiagonalHatchBrush:
{
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
TInt diff = (origin.iX + origin.iY - aLeft.iX - aLeft.iY) % 3;
if (diff < 0)
diff += 3;
xcoord += diff;
for (; xcoord < aLeft.iX + length; xcoord += 3)
drawDevice->WriteRgb(xcoord,aLeft.iY,iPenColor,iDrawMode);
}
return;
case ERearwardDiagonalHatchBrush:
{
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
TInt diff = (origin.iX - origin.iY - aLeft.iX + aLeft.iY) % 3;
if (diff < 0)
diff += 3;
xcoord += diff;
for (; xcoord < aLeft.iX + length; xcoord += 3)
drawDevice->WriteRgb(xcoord,aLeft.iY,iPenColor,iDrawMode);
}
return;
case EDiamondCrossHatchBrush:
{
drawDevice->WriteRgbMulti(aLeft.iX,aLeft.iY,length,1,iBrushColor,iDrawMode);
TInt sum = aLeft.iX + aLeft.iY - origin.iX - origin.iY;
for (; xcoord < aLeft.iX + length; xcoord++,sum++)
if ((sum & 1) == 0 && ((sum & 3) != 0 || ((xcoord-origin.iX) & 1) == 1))
drawDevice->WriteRgb(xcoord,aLeft.iY,iPenColor,iDrawMode);
}
return;
default:
return;
}
}
void CFbsBitGc::PenAllocate()
{
iFbsBitGcExtraData->ResetPenArray();
if (iPenSize.iWidth == 1 && iPenSize.iHeight == 1)
return;
const TInt doublepenheight = iPenSize.iHeight << 1;
TInt* penArray = new TInt[doublepenheight];
if (!penArray)
return;
iFbsBitGcExtraData->SetPenArray(penArray);
if (iPenSize.iWidth == 1 || iPenSize.iWidth == 2 || iPenSize.iHeight == 1 || iPenSize.iHeight == 2)
{
TInt* bitGcPenArray = iFbsBitGcExtraData->PenArray();
for (TInt count = 0; count < iPenSize.iHeight; count += 2)
{
bitGcPenArray[doublepenheight - count - 2] = 0;
bitGcPenArray[doublepenheight - count - 1] = iPenSize.iWidth - 1;
bitGcPenArray[count] = 0;
bitGcPenArray[count + 1] = iPenSize.iWidth - 1;
}
}
else
{
TPoint tl,tr,bl,br;
TEllipse ellipse;
ellipse.Construct(TRect(iPenSize));
TInt* bitGcPenArray = iFbsBitGcExtraData->PenArray();
for (TInt count = 0; count < iPenSize.iHeight; count += 2)
{
//coverity[check_return]
//coverity[unchecked_value]
ellipse.NextStep(tl,tr,bl,br);
bitGcPenArray[doublepenheight - count - 2] = bl.iX;
bitGcPenArray[doublepenheight - count - 1] = br.iX;
bitGcPenArray[count] = tl.iX;
bitGcPenArray[count + 1] = tr.iX;
}
}
}
void CFbsBitGc::PenDrawClipped(TPoint aPoint)
{
BG_ASSERT_DEBUG(iPenSize.iWidth > 0,EBitgdiPanicZeroLength);
BG_ASSERT_DEBUG(iPenSize.iHeight > 0,EBitgdiPanicZeroLength);
aPoint.iX -= ((iPenSize.iWidth - 1) >> 1);
aPoint.iY -= ((iPenSize.iHeight - 1) >> 1);
BG_ASSERT_DEBUG(iClipRect.iTl.iX >= iUserClipRect.iTl.iX,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iTl.iY >= iUserClipRect.iTl.iY,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iBr.iX <= iUserClipRect.iBr.iX,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iBr.iY <= iUserClipRect.iBr.iY,EBitgdiPanicOutOfBounds);
CFbsDrawDevice* drawDevice = iDevice->iDrawDevice;
if (iPenSize.iWidth == 1 && iPenSize.iHeight == 1)
{
if (iPenStyle == CGraphicsContext::ESolidPen || (iDotMask & (1 << (iDotParam % iDotLength))))
if (iClipRect.Contains(aPoint))
drawDevice->WriteRgb(aPoint.iX,aPoint.iY,iPenColor,iDrawMode);
}
else if (iFbsBitGcExtraData->PenArray())
{
TInt ycoord = aPoint.iY;
const TInt maxdim = Max(iPenSize.iWidth,iPenSize.iHeight);
const TInt doublepenheight = iPenSize.iHeight << 1;
if (iPenStyle == CGraphicsContext::ESolidPen || (iDotMask & (1 << ((iDotParam / maxdim) % iDotLength))))
{
for (TInt ix = 0; ix < doublepenheight; ycoord++,ix += 2)
{
if (ycoord >= iClipRect.iTl.iY && ycoord < iClipRect.iBr.iY)
{
TInt left = aPoint.iX + iFbsBitGcExtraData->PenArray()[ix];
TInt right = aPoint.iX + iFbsBitGcExtraData->PenArray()[ix+1];
if (left < iClipRect.iTl.iX)
left = iClipRect.iTl.iX;
if (right >= iClipRect.iBr.iX)
right = iClipRect.iBr.iX - 1;
if (left <= right)
drawDevice->WriteRgbMulti(left,ycoord,right - left + 1,1,iPenColor,CGraphicsContext::EDrawModePEN);
}
}
}
}
else
{
TPoint tl,tr,bl,br;
TEllipse ellipse;
ellipse.Construct(TRect(aPoint,iPenSize));
while (!ellipse.NextStep(tl,tr,bl,br))
{
if (tl.iY >= iClipRect.iTl.iY && tl.iY < iClipRect.iBr.iY)
{
if (tl.iX < iClipRect.iTl.iX)
tl.iX = iClipRect.iTl.iX;
if (tr.iX >= iClipRect.iBr.iX)
tr.iX = iClipRect.iBr.iX-1;
if (tl.iX <= tr.iX)
drawDevice->WriteRgbMulti(tl.iX,tl.iY,tr.iX - tl.iX + 1,1,iPenColor,CGraphicsContext::EDrawModePEN);
}
if (bl.iY >= iClipRect.iTl.iY && bl.iY < iClipRect.iBr.iY)
{
if (bl.iX < iClipRect.iTl.iX)
bl.iX = iClipRect.iTl.iX;
if (br.iX >= iClipRect.iBr.iX)
br.iX = iClipRect.iBr.iX - 1;
if (bl.iX <= br.iX)
drawDevice->WriteRgbMulti(bl.iX,bl.iY,br.iX - bl.iX + 1,1,iPenColor,CGraphicsContext::EDrawModePEN);
}
}
if (tl.iY == bl.iY && tl.iY >= iClipRect.iTl.iY && tl.iY < iClipRect.iBr.iY)
{
if (tl.iX < iClipRect.iTl.iX)
tl.iX = iClipRect.iTl.iX;
if (tr.iX >= iClipRect.iBr.iX)
tr.iX = iClipRect.iBr.iX - 1;
if (tl.iX <= tr.iX)
drawDevice->WriteRgbMulti(tl.iX,tl.iY,tr.iX - tl.iX + 1,1,iPenColor,CGraphicsContext::EDrawModePEN);
}
}
}
void CFbsBitGc::PenDrawDeferred(TPoint aPoint,TInt* aArray,TInt aFirstElement)
{
BG_ASSERT_DEBUG(iFbsBitGcExtraData->PenArray(),EBitgdiPanicZeroLength);
BG_ASSERT_DEBUG(iPenSize.iWidth > 0,EBitgdiPanicZeroLength);
BG_ASSERT_DEBUG(iPenSize.iHeight > 0,EBitgdiPanicZeroLength);
BG_ASSERT_DEBUG(iClipRect.iTl.iX >= iUserClipRect.iTl.iX,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iTl.iY >= iUserClipRect.iTl.iY,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iBr.iX <= iUserClipRect.iBr.iX,EBitgdiPanicOutOfBounds);
BG_ASSERT_DEBUG(iClipRect.iBr.iY <= iUserClipRect.iBr.iY,EBitgdiPanicOutOfBounds);
aPoint.iX -= ((iPenSize.iWidth - 1) >> 1);
const TInt doublepenheight = iPenSize.iHeight << 1;
for (TInt ix = 0; ix < doublepenheight; ix++,aFirstElement++)
{
if (aFirstElement == doublepenheight)
aFirstElement = 0;
TInt newval = aPoint.iX + iFbsBitGcExtraData->PenArray()[ix];
if (newval < aArray[aFirstElement])
aArray[aFirstElement] = newval;
ix++;
aFirstElement++;
newval = aPoint.iX + iFbsBitGcExtraData->PenArray()[ix];
if (newval > aArray[aFirstElement])
aArray[aFirstElement] = newval;
}
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CGraphicsContext_2()
{
CBitmapContext::Reserved_CGraphicsContext_2();
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CBitmapContext_1()
{
CBitmapContext::Reserved_CBitmapContext_1();
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CBitmapContext_2()
{
CBitmapContext::Reserved_CBitmapContext_2();
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CBitmapContext_3()
{
CBitmapContext::Reserved_CBitmapContext_3();
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CFbsBitGc_1()
{
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CFbsBitGc_2()
{
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CFbsBitGc_3()
{
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CFbsBitGc_4()
{
}
//Default implementation of reserved virtual
EXPORT_C void CFbsBitGc::Reserved_CFbsBitGc_5()
{
}