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 <bitdev.h>
#include <hal.h>
#include "TBMP.H"
#include "tswitch.h"
#include <graphics/fbsdefs.h>
CTSwitch::CTSwitch(CTestStep* aStep):
CTGraphicsBase(aStep),
iBitmap(NULL),
iDevice(NULL),
iGc(NULL),
iAltDevice(NULL),
iAltGc(NULL),
iSrceBuffer(NULL),
iDestBuffer(NULL)
{
INFO_PRINTF1(_L(""));
}
CTSwitch::~CTSwitch()
{
delete iBitmap;
delete iDevice;
delete iGc;
delete iAltDevice;
delete iAltGc;
delete[] iSrceBuffer;
delete[] iDestBuffer;
}
void CTSwitch::RunTestCaseL(TInt aCurTestCase)
{
((CTSwitchStep*)iStep)->SetTestStepID(KUnknownSYMTestCaseIDName);
switch(aCurTestCase)
{
case 1:
((CTSwitchStep*)iStep)->SetTestStepID(_L("GRAPHICS-BITGDI-0065"));
TestL();
break;
case 2:
((CTSwitchStep*)iStep)->SetTestStepID(KNotATestSYMTestCaseIDName);
((CTSwitchStep*)iStep)->CloseTMSGraphicsStep();
TestComplete();
break;
}
((CTSwitchStep*)iStep)->RecordTestResultL();
}
/**
@SYMTestCaseID GRAPHICS-BITGDI-0065
@SYMDEF
@SYMTestCaseDesc Tests display mode switching
@SYMTestPriority normal
@SYMTestStatus Implemented
@SYMTestActions Creates a bitmap then switches between displaymodes and checks bitmap is not corrupted
@SYMTestExpectedResults Test should perform graphics operations succesfully.
*/
void CTSwitch::TestL()
{
INFO_PRINTF1(_L("Testing display mode switching"));
const TInt KNumDispModes = 12;
TDisplayMode displayModeArray[KNumDispModes] =
{
EGray2, EGray4, EGray16, EGray256,
EColor16, EColor256, EColor4K, EColor64K, EColor16M,
EColor16MU, EColor16MA, EColor16MAP
};
const TPtrC displayModeNameArray[KNumDispModes] =
{
_L("EGray2"), _L("EGray4"), _L("EGray16"), _L("EGray256"),
_L("EColor16"), _L("EColor256"), _L("EColor4K"), _L("EColor64K"), _L("EColor16M"),
_L("EColor16MU"), _L("EColor16MA"), _L("EColor16MAP")
};
iBitmap = new(ELeave) CFbsBitmap;
TInt ret = iBitmap->Load(_L("z:\\system\\data\\tbmp.mbm"),EMbmTbmpTcolor,EFalse);
User::LeaveIfError(ret);
iSrceBuffer = new(ELeave) TRgb[iBitmap->SizeInPixels().iWidth];
iDestBuffer = new(ELeave) TRgb[iBitmap->SizeInPixels().iWidth];
for (TInt dispModeIndex = 0; dispModeIndex < KNumDispModes; dispModeIndex++)
{
TDisplayMode dispMode = displayModeArray[dispModeIndex];
if (!SetModeL(dispMode))
continue;
INFO_PRINTF1(displayModeNameArray[dispModeIndex]);
for (TInt altDispModeIndex = 0; altDispModeIndex < KNumDispModes; altDispModeIndex++)
{
if (dispModeIndex == altDispModeIndex)
continue;
FillScreen();
TDisplayMode altDispMode = displayModeArray[altDispModeIndex];
if (SwitchModeL(altDispMode))
{
INFO_PRINTF1(displayModeNameArray[altDispModeIndex]);
INFO_PRINTF1(_L(" "));
CheckSwitch(dispMode,altDispMode);
}
else
WARN_PRINTF1(_L("Not supported"));
}
INFO_PRINTF1(_L("\r\n"));
}
}
TBool CTSwitch::SetModeL(TDisplayMode aDispMode)
{
delete iDevice;
iDevice = NULL;
delete iGc;
iGc = NULL;
TRAPD(err,iDevice = CFbsScreenDevice::NewL(_L("scdv"),aDispMode));
if (err == KErrNotSupported)
return EFalse;
User::LeaveIfError(err);
User::LeaveIfError(iDevice->CreateContext((CGraphicsContext*&)iGc));
iDevice->ChangeScreenDevice(NULL);
iDevice->SetAutoUpdate(ETrue);
return ETrue;
}
void CTSwitch::FillScreen()
{
TSize size = iDevice->SizeInPixels();
TSize bmpSize = iBitmap->SizeInPixels();
for (TInt height = 0; height < size.iHeight; height += bmpSize.iHeight)
for (TInt width = 0; width < size.iWidth; width += bmpSize.iWidth)
iGc->BitBlt(TPoint(width,height),iBitmap);
}
TBool CTSwitch::SwitchModeL(TDisplayMode aDispMode)
{
delete iAltDevice;
iAltDevice = NULL;
delete iAltGc;
iAltGc = NULL;
TRAPD(err,iAltDevice = CFbsScreenDevice::NewL(_L("scdv"),aDispMode));
if (err == KErrNotSupported)
return EFalse;
User::LeaveIfError(err);
User::LeaveIfError(iAltDevice->CreateContext((CGraphicsContext*&)iAltGc));
iAltDevice->SetAutoUpdate(ETrue);
iAltDevice->ChangeScreenDevice(iDevice);
return ETrue;
}
void CTSwitch::CheckSwitch(TDisplayMode aOldDispMode,TDisplayMode aNewDispMode)
{
TSize size = iDevice->SizeInPixels();
TSize bmpSize = iBitmap->SizeInPixels();
TPtr8 srce((TUint8*)iSrceBuffer,bmpSize.iWidth * sizeof(TRgb),bmpSize.iWidth * sizeof(TRgb));
TPtr8 dest((TUint8*)iDestBuffer,bmpSize.iWidth * sizeof(TRgb),bmpSize.iWidth * sizeof(TRgb));
for (TInt yy = 0; yy < size.iHeight; yy++)
{
for (TInt xx = 0; xx < size.iWidth; xx += bmpSize.iWidth)
{
// Width for scanline as wide as bitmap or remaining width of screen, whichever smallest
TUint lineWidth = Min(bmpSize.iWidth,size.iWidth - xx);
// yy%bmpSize.iHeight used if screen height greater than bitmap
// as it is tessellated across the screen
iBitmap->GetScanLine(srce,TPoint(00,yy%bmpSize.iHeight),lineWidth,ERgb);
iAltDevice->GetScanLine(dest,TPoint(xx,yy),lineWidth,ERgb);
CheckBuffers(aOldDispMode,aNewDispMode,lineWidth,(yy * 2 + xx) & 3); // Last parameter is aDitherOffset
}
}
}
void CTSwitch::CheckBuffers(TDisplayMode aOldDispMode, TDisplayMode aNewDispMode, TUint aLineWidth,TInt aDitherOffset)
{
TRgb* srcePtr = iSrceBuffer;
TRgb* destPtr = iDestBuffer;
for (TUint count = 0; count < aLineWidth; count++)
{
TRgb srce = *srcePtr++;
TRgb dest = *destPtr++;
CheckRgbs(aOldDispMode,srce,aNewDispMode,dest,aDitherOffset ^ (count & 1));
}
}
void CTSwitch::CheckRgbs(TDisplayMode aOldDispMode,TRgb aSrceRgb,TDisplayMode aNewDispMode,TRgb aDestRgb,TInt aDitherOffset)
{
ConvertRgb(aSrceRgb,aOldDispMode,aDitherOffset);
ConvertRgb(aSrceRgb,aNewDispMode,1); // 1 suppresses dithering in EGray2 mode
TEST(aSrceRgb == aDestRgb);
}
void CTSwitch::ConvertRgb(TRgb& aRgb,TDisplayMode aDispMode,TInt aDitherOffset)
{
switch (aDispMode)
{
case EGray2:
{
TInt gray4 = aRgb.Gray4();
if (gray4 == 0)
aRgb = KRgbBlack;
else if (gray4 == 1)
{
if (aDitherOffset == 1 || aDitherOffset == 2)
aRgb = KRgbBlack;
else
aRgb = KRgbWhite;
}
else if (gray4 == 2)
{
if (aDitherOffset == 3)
aRgb = KRgbBlack;
else
aRgb = KRgbWhite;
}
else if (gray4 == 3)
aRgb = KRgbWhite;
}
break;
case EGray4:
aRgb = TRgb::Gray4(aRgb.Gray4());
break;
case EGray16:
aRgb = TRgb::Gray16(aRgb.Gray16());
break;
case EGray256:
aRgb = TRgb::Gray256(aRgb.Gray256());
break;
case EColor16:
aRgb = TRgb::Color16(aRgb.Color16());
break;
case EColor256:
aRgb = TRgb::Color256(aRgb.Color256());
break;
case EColor4K:
aRgb = TRgb::Color4K(aRgb.Color4K());
break;
case EColor64K:
aRgb = TRgb::Color64K(aRgb.Color64K());
break;
default:
break;
}
}
//--------------
__CONSTRUCT_STEP__(Switch)
void CTSwitchStep::TestSetupL()
{
FbsStartup();
User::LeaveIfError(RFbsSession::Connect());
}
void CTSwitchStep::TestClose()
{
RFbsSession::Disconnect();
}