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) 2007-2009 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 "directgdiadapter.h"
#include "swdirectgdiengine.h"
/**
@see MDirectGdiEngine::CopyRect()
*/
void CSwDirectGdiEngine::CopyRect(const TPoint& aOffset, const TRect& aRect)
{
TRect deviceRect;
iDrawDevice->GetDrawRect(deviceRect);
const TPoint back(TPoint(0,0) - aOffset);
TRect rcpy(aRect);
rcpy.Move(iOrigin);
rcpy.Intersection(deviceRect);
((TRegion*)iDefaultRegionPtr)->Sort(aOffset);
TRect targetRect(rcpy);
targetRect.Move(aOffset);
targetRect.BoundingRect(rcpy);
TRect clipRect(0,0,0,0);
const TInt limit = iDefaultRegionPtr->Count();
for(TInt count = 0; count < limit; count++)
{
clipRect = (*iDefaultRegionPtr)[count];
clipRect.Move(back);
if (!clipRect.Intersects(rcpy))
{
continue;
}
clipRect.Intersection(rcpy);
DirectGdi::TDrawMode drawMode = iDrawMode;
iDrawMode = DirectGdi::EDrawModeWriteAlpha;
DoCopyRect(aOffset, clipRect);
iDrawMode = drawMode; // restore the previous draw mode
clipRect.Move(aOffset);
iDrawDevice->UpdateRegion(clipRect);
}
}
/**
@see CopyRect()
@panic DGDIAdapter 1013, if aRect or aOffset are outside of the destination bounds (debug only).
*/
void CSwDirectGdiEngine::DoCopyRect(const TPoint& aOffset, const TRect& aRect)
{
#ifdef _DEBUG
TRect deviceRect;
iDrawDevice->GetDrawRect(deviceRect);
#endif
GRAPHICS_ASSERT_DEBUG(aRect.iTl.iX >= deviceRect.iTl.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(aRect.iTl.iY >= deviceRect.iTl.iY, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(aRect.iBr.iX <= deviceRect.iBr.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(aRect.iBr.iY <= deviceRect.iBr.iY, EDirectGdiPanicOutOfBounds);
TRect offsetRect(aRect);
offsetRect.Move(aOffset);
GRAPHICS_ASSERT_DEBUG(offsetRect.iTl.iX >= deviceRect.iTl.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(offsetRect.iTl.iY >= deviceRect.iTl.iY, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(offsetRect.iBr.iX <= deviceRect.iBr.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(offsetRect.iBr.iY <= deviceRect.iBr.iY, EDirectGdiPanicOutOfBounds);
TInt y1 = aRect.iTl.iY;
TInt y2 = aRect.iBr.iY;
TInt yinc = 1; // default y2>y1
if (aOffset.iY > 0) // y1>y2
{
y1 = aRect.iBr.iY - 1;
y2 = aRect.iTl.iY - 1;
yinc = -1;
}
const TInt width = aRect.Width();
const TInt xoffset = aRect.iTl.iX + aOffset.iX;
const TDisplayMode dispMode = ScanLineBufferDisplayMode(iDrawDevice);
TUint32* scanLineBuffer = iDrawDevice->ScanLineBuffer();
for (TInt row = y1; row != y2; row += yinc)
{
iDrawDevice->ReadLine(aRect.iTl.iX, row, width, scanLineBuffer, dispMode);
iDrawDevice->WriteLine(xoffset, row + aOffset.iY, width, scanLineBuffer, GcDrawMode(iDrawMode));
}
}
/**
@see MDirectGdiEngine::DrawRect()
*/
void CSwDirectGdiEngine::DrawRect(const TRect& aRect)
{
TRect rcpy(aRect);
iBrushBitmap.BeginDataAccess();
if ((iPenSize.iWidth == 1) && (iPenSize.iHeight == 1) && iPenStyle != DirectGdi::ENullPen)
{
const TInt width = rcpy.Width();
const TInt height = rcpy.Height();
const TPoint currentLinePosition = iLinePosition;
if (iPenStyle != DirectGdi::ESolidPen)
{
iDotParam = 0;
}
DoDrawLine(rcpy.iTl,TPoint(rcpy.iBr.iX,rcpy.iTl.iY),ETrue); // top
if (height > 2 && width > 1)
{
DoDrawLine(TPoint(rcpy.iBr.iX-1,rcpy.iTl.iY+1),TPoint(rcpy.iBr.iX-1,rcpy.iBr.iY-1),ETrue); // right
}
if (height > 1)
{
DoDrawLine(TPoint(rcpy.iBr.iX-1,rcpy.iBr.iY-1),TPoint(rcpy.iTl.iX-1,rcpy.iBr.iY-1),ETrue); // bottom
}
if (height > 2)
{
DoDrawLine(TPoint(rcpy.iTl.iX,rcpy.iBr.iY-2),rcpy.iTl,ETrue); // left
}
// Restore internal line position in case it has been modified by DoDrawLine().
// DrawRect() should not be modifying it.
iLinePosition = currentLinePosition;
if (width < 3 || height < 3)
{
goto nofill;
}
rcpy.Shrink(1,1);
rcpy.Move(iOrigin);
}
else if ((iPenStyle != DirectGdi::ENullPen) && (iPenSize.iWidth >= 1 && iPenSize.iHeight >= 1))
{
rcpy.Move(iOrigin);
const DirectGdi::TBrushStyle tempbrushstyle = iBrushStyle;
const TRgb tempbrushColor = iBrushColor;
const DirectGdi::TDrawMode tempdrawmode = iDrawMode;
const TInt halfpenwidth = (iPenSize.iWidth - 1) >> 1;
const TInt halfpenheight = (iPenSize.iHeight - 1) >> 1;
const TInt otherhalfwidth = (iPenSize.iWidth >> 1) + 1;
const TInt otherhalfheight = (iPenSize.iHeight >> 1) + 1;
rcpy.iBr.iX--;
rcpy.iBr.iY--;
if (((rcpy.iBr.iY - rcpy.iTl.iY) <= (iPenSize.iHeight + 1)) || ((rcpy.iBr.iX - rcpy.iTl.iX) <= (iPenSize.iWidth + 1)))
{
iBrushColor = iPenColor;
iBrushStyle = DirectGdi::ESolidBrush;
if(iDrawMode != DirectGdi::EDrawModeWriteAlpha)
{
iDrawMode = DirectGdi::EDrawModePEN;
}
rcpy.iTl.iX -= halfpenwidth;
rcpy.iTl.iY -= halfpenheight;
rcpy.iBr.iX += otherhalfwidth;
rcpy.iBr.iY += otherhalfheight;
RectFill(rcpy);
}
else
{
// In the event the pen outline is semi-transparent, we must do the fill first so that the
// outline is blended over the top.
RectFill(rcpy);
iBrushColor = iPenColor;
iBrushStyle = DirectGdi::ESolidBrush;
if(iDrawMode != DirectGdi::EDrawModeWriteAlpha)
{
iDrawMode = DirectGdi::EDrawModePEN;
}
RectFill(TRect(rcpy.iTl.iX - halfpenwidth,rcpy.iTl.iY - halfpenheight,rcpy.iBr.iX + otherhalfwidth,rcpy.iTl.iY + otherhalfheight)); // top
RectFill(TRect(rcpy.iTl.iX - halfpenwidth,rcpy.iTl.iY + otherhalfheight,rcpy.iTl.iX + otherhalfwidth,rcpy.iBr.iY - halfpenheight)); // left
RectFill(TRect(rcpy.iBr.iX - halfpenwidth,rcpy.iTl.iY + otherhalfheight,rcpy.iBr.iX + otherhalfwidth,rcpy.iBr.iY - halfpenheight)); // right
RectFill(TRect(rcpy.iTl.iX - halfpenwidth,rcpy.iBr.iY - halfpenheight,rcpy.iBr.iX + otherhalfwidth,rcpy.iBr.iY + otherhalfheight)); // bottom
}
iBrushStyle = tempbrushstyle;
iBrushColor = tempbrushColor;
iDrawMode = tempdrawmode;
goto nofill;
}
else
{
rcpy.Move(iOrigin);
}
RectFill(rcpy);
nofill:
iBrushBitmap.EndDataAccess(ETrue);
}
/**
Fills the given area using the current brush.
@param aRect The area to fill.
@panic DGDIAdapter 1013, if the a clipping rectangle is fully outside of the destination bounds (debug only).
@panic DGDIAdapter 7, if using EPatternedBrush with no brush pattern bitmap.
*/
void CSwDirectGdiEngine::RectFill(const TRect& aRect)
{
if (aRect.IsEmpty() || iBrushStyle == DirectGdi::ENullBrush)
{
return;
}
const TPoint origin = iOrigin + iBrushOrigin;
const TInt limit = iDefaultRegionPtr->Count();
TRect clipRect(0,0,0,0);
for (TInt count = 0; count < limit; count++)
{
clipRect = (*iDefaultRegionPtr)[count];
if (!clipRect.Intersects(aRect))
{
continue;
}
clipRect.Intersection(aRect);
#ifdef _DEBUG
TRect deviceRect;
iDrawDevice->GetDrawRect(deviceRect);
GRAPHICS_ASSERT_DEBUG(clipRect.iTl.iX >= deviceRect.iTl.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(clipRect.iTl.iY >= deviceRect.iTl.iY, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(clipRect.iBr.iX <= deviceRect.iBr.iX, EDirectGdiPanicOutOfBounds);
GRAPHICS_ASSERT_DEBUG(clipRect.iBr.iY <= deviceRect.iBr.iY, EDirectGdiPanicOutOfBounds);
#endif
TInt xcoord = clipRect.iTl.iX;
TInt ycoord = clipRect.iTl.iY;
const CGraphicsContext::TDrawMode drawMode = GcDrawMode(iDrawMode);
switch(iBrushStyle)
{
case DirectGdi::ESolidBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
break;
case DirectGdi::EPatternedBrush:
{
iBrushBitmap.BeginDataAccess();
CBitwiseBitmap* brushbitmap = iBrushBitmap.Address();
GRAPHICS_ASSERT_ALWAYS(brushbitmap != NULL, EDirectGdiPanicInvalidBitmap);
TRect sourcerect(clipRect);
sourcerect.Move(-origin);
DoBitBlt(clipRect.iTl,brushbitmap,iBrushBitmap.DataAddress(),iBrushBitmap.DataStride(),sourcerect);
iBrushBitmap.EndDataAccess(ETrue);
break;
}
case DirectGdi::EHorizontalHatchBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
while (Abs((ycoord - origin.iY) % 3) != 2)
{
ycoord++;
}
for (; ycoord < clipRect.iBr.iY; ycoord += 3)
{
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,ycoord,clipRect.Width(),1,iPenColor,drawMode);
}
break;
case DirectGdi::EVerticalHatchBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
while (Abs((xcoord - origin.iX) % 3) != 2)
{
xcoord++;
}
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgbMulti(xcoord,clipRect.iTl.iY,1,clipRect.Height(),iPenColor,drawMode);
}
break;
case DirectGdi::ESquareCrossHatchBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
while (Abs((ycoord - origin.iY) % 3) != 2)
{
ycoord++;
}
for (; ycoord < clipRect.iBr.iY; ycoord += 3) // horizontal lines
{
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,ycoord,clipRect.Width(),1,iPenColor,drawMode);
}
ycoord = clipRect.iTl.iY;
while (Abs((ycoord - origin.iY) % 3) != 2 && ycoord < clipRect.iBr.iY) // above the top horizontal line
{
xcoord = clipRect.iTl.iX;
while (Abs((xcoord - origin.iX) % 3) != 2)
{
xcoord++;
}
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgb(xcoord,ycoord,iPenColor,drawMode);
}
ycoord++;
}
ycoord += 3;
for (; ycoord < clipRect.iBr.iY; ycoord += 3) // between the top and bottom horizontals
{
xcoord = clipRect.iTl.iX;
while (Abs((xcoord - origin.iX) % 3) != 2)
{
xcoord++;
}
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgbMulti(xcoord,ycoord - 2,1,2,iPenColor,drawMode);
}
}
ycoord -= 3;
while (ycoord < clipRect.iBr.iY) // below the bottom horizontal
{
xcoord = clipRect.iTl.iX;
while (Abs((xcoord - origin.iX) % 3) != 2)
{
xcoord++;
}
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgb(xcoord,ycoord,iPenColor,drawMode);
}
ycoord++;
}
break;
case DirectGdi::EForwardDiagonalHatchBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
for (; ycoord < clipRect.iBr.iY; ycoord++)
{
xcoord = clipRect.iTl.iX;
TInt diff = (origin.iX + origin.iY - xcoord - ycoord) % 3;
if (diff < 0)
{
diff += 3;
}
xcoord += diff;
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgb(xcoord,ycoord,iPenColor,drawMode);
}
}
break;
case DirectGdi::ERearwardDiagonalHatchBrush:
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
for (; ycoord < clipRect.iBr.iY; ycoord++)
{
xcoord = clipRect.iTl.iX;
TInt diff = (origin.iX - origin.iY - xcoord + ycoord) % 3;
if (diff < 0)
{
diff += 3;
}
xcoord += diff;
for (; xcoord < clipRect.iBr.iX; xcoord += 3)
{
iDrawDevice->WriteRgb(xcoord,ycoord,iPenColor,drawMode);
}
}
break;
case DirectGdi::EDiamondCrossHatchBrush:
{
iDrawDevice->WriteRgbMulti(clipRect.iTl.iX,clipRect.iTl.iY,
clipRect.Width(),clipRect.Height(),iBrushColor,drawMode);
TInt sum = xcoord + ycoord - origin.iX - origin.iY;
for (; ycoord < clipRect.iBr.iY; ycoord++,sum++)
{
TInt currentsum = sum;
for (xcoord = clipRect.iTl.iX; xcoord < clipRect.iBr.iX; xcoord++,currentsum++)
{
if((currentsum & 1) == 0 && ((currentsum & 3) != 0 || ((xcoord-origin.iX) & 1) == 1))
{
iDrawDevice->WriteRgb(xcoord,ycoord,iPenColor,drawMode);
}
}
}
break;
}
default:
return;
}
iDrawDevice->UpdateRegion(clipRect);
}
}