void CRecognizerContainer::ViewFinderStartStop()
{
	CALLSTACKITEM_N(_CL("CRecognizerContainer"), _CL("ViewFinderStartStop"));
	Reporting().DebugLog(_L("ViewFinderStartStop"));

	started=true;

	if (!iVCS || !iTakingPicture) {
		delete iVCS; iVCS=0; iBitmap=0;
		iVCS=new (ELeave) CVisualCodeSystem(AppContext());
		iVCS->ConstructL();
		iVCS->AddObserver(this);
	}
	if (iTakingPicture) {
		if (iBitmap) {
			CFbsBitmap* temp=iBitmap;
			iBitmap=new (ELeave) CFbsBitmap;
			owns_bitmap=true;
			User::LeaveIfError(iBitmap->Duplicate(temp->Handle()));
		}
		delete iVCS; iVCS=0;
		iTakingPicture=FALSE;
	} else {
		iTakingPicture = TRUE;
		// start with: updates on, translation off, rotation off, low-quality recognition on
		iVCS->Start(TRUE, FALSE, FALSE, TRUE);
	}
}
void CMMABitmapWindow::SetDestinationBitmapL(CFbsBitmap* aBitmap)
{
    CFbsBitmap* bitmap = new(ELeave)CFbsBitmap();
    CleanupStack::PushL(bitmap);
    User::LeaveIfError(bitmap->Duplicate(aBitmap->Handle()));

    // create context for bitmap
    CFbsBitmapDevice* bitmapDevice = CFbsBitmapDevice::NewL(aBitmap);
    CleanupStack::PushL(bitmapDevice);


    CGraphicsContext* bitmapContext = NULL;
    User::LeaveIfError(bitmapDevice->CreateContext(bitmapContext));

    CleanupStack::Pop(bitmapDevice);   // bitmapDevice
    CleanupStack::Pop(bitmap);   // bitmap

    delete iBitmap;
    iBitmap = bitmap;
    delete iBitmapDevice;
    iBitmapDevice = bitmapDevice;
    delete iBitmapContext;
    iBitmapContext = bitmapContext;

    if (iDrawRect.IsEmpty())
    {
        iDrawRect.SetSize(iBitmap->SizeInPixels());
    }
}
void CMMABitmapWindow::DrawFrameL(const CFbsBitmap* aBitmap)
{
    if (iBitmap)
    {
        // leave in this function will panic thread
        CFbsBitmap* bitmap = new(ELeave)CFbsBitmap();
        CleanupStack::PushL(bitmap);
        User::LeaveIfError(bitmap->Duplicate(aBitmap->Handle()));
        // set incoming bitmap display mode to 16MA
        if (EColor16MU == bitmap->DisplayMode())
        {
            bitmap->SetDisplayMode(EColor16MA);
        }
        AknIconUtils::ScaleBitmapL(iDrawRect, iBitmap, bitmap);
        CleanupStack::PopAndDestroy(bitmap);
    }
}
示例#4
0
/**
	@SYMTestCaseID
	GRAPHICS-FBSERV-0512

	@SYMTestCaseDesc
	Creates bitmaps in different ways and checks if memory allocation succeeded 

	@SYMTestActions
	Creates normal size bitmaps, large bitmaps, loads bitmaps, loads shared bitmaps,
	duplicated bitmaps, resizes bitmaps, compresses bitmaps, externalized bitmaps to write store, 
	internalizes bitmaps back again from write store. All ways of creating bitmaps are tested
	against Out Of Memory error conditions	

	@SYMTestExpectedResults
	Test should pass
*/
void CTAlloc::BitmapsL()
	{
	TInt heapMarkCheckFlag;	
	if( !iStep->GetIntFromConfig(KDefaultSectionName, KFbsHeapMarkCheckFlag, heapMarkCheckFlag) )
		{
		INFO_PRINTF1(_L("Error reading ini file"));
		User::Leave(KErrNotFound);
		}
	
	CFbsBitmap iBitmap;
	CFbsBitmap iBitmap2;

	iTestBitmapName = KTestBitmapOnZ;
	TInt ret = iBitmap.Load(iTestBitmapName,ETfbs,NULL);
	TEST2(ret, KErrNone);

	ret = iBitmap.Create(KLargeSize,EColor256); // Expand server caches
	TEST2(ret, KErrNone);
	iBitmap.Reset();

	TInt count;

// Create bitmap
	INFO_PRINTF1(_L("CFbsBitmap::Create()\r\n"));
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}
		ret = iBitmap.Create(KSmallSize,EColor256);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMark);
				iFbs->SendCommand(EFbsMessUserMark);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMark);
				iFbs->SendCommand(EFbsMessUserMark);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret=iBitmap.Create(KSmallSize,EGray2);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

// Create (large)
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Create(KLargeSize,EColor256);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Create(KLargeSize,EColor256);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

// Load
	INFO_PRINTF1(_L("CFbsBitmap::Load()\r\n"));
	ret = iBitmap.Load(iTestBitmapName,ETfbs,NULL);
	TEST2(ret, KErrNone);
	iBitmap.Reset();
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Load(iTestBitmapName,ETfbs,NULL);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Load(iTestBitmapName,ETfbs,NULL);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
	}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

// Load (shared)
	INFO_PRINTF1(_L("CFbsBitmap::Load() - shared \r\n"));
	
	// Do an initial load to ensure the StreamId cache does not get updated whilst OOM testing
	ret = iBitmap.Load(iTestBitmapName,ETfbs,ETrue);
	TEST2(ret, KErrNone);
	iBitmap.Reset();
	
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Load(iTestBitmapName,ETfbs,ETrue);
		
		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			continue;
			}
		else if (ret != KErrNone)
			TEST2(ret, KErrNone);
			
		ret = iBitmap2.Load(iTestBitmapName,ETfbs,ETrue);	
			
		if (ret == KErrNoMemory)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			continue;
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();	
			iBitmap2.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);		
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Load(iTestBitmapName,ETfbs,ETrue);
		
		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			continue;
			}
		else if (ret != KErrNone)
			TEST2(ret, KErrNone);
			
		ret = iBitmap2.Load(iTestBitmapName,ETfbs,ETrue);

		if (ret == KErrNoMemory)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			continue;
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			iBitmap2.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
	}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);
	
	
// Duplicate
	CFbsBitmap bmpalt;
	ret = bmpalt.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::Duplicate()\r\n"));
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Duplicate(bmpalt.Handle());

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==1);
	ret = bmpalt.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Duplicate(bmpalt.Handle());

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	bmpalt.Reset();
	TEST(iFbs->ResourceCount()==0);

// Resize
	// force fbserv to do a resize. This makes the pile to insert an index in it's array
	// If the array is empty when the tests below are run then the insert will look like a mem leak
	ret=iBitmap.Create(KLargeSize,EColor256);
	iBitmap.Resize(KLargeSizeAlt);
	iBitmap.Reset();
	
	ret=iBitmap.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::Resize()\r\n"));
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Resize(KSmallSizeAlt);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);
	
	
	// force fbserv to do a resize. This makes the pile to insert an index in it's array
	// If the array is empty when the tests below are run then the insert will look like a mem leak
	ret=iBitmap.Create(KLargeSize,EColor256);
	iBitmap.Resize(KLargeSizeAlt);
	iBitmap.Reset();
	
	ret=iBitmap.Create(KLargeSize,EColor256);
	TEST2(ret, KErrNone);

	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Resize(KLargeSizeAlt);

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

// Compress
	ret=iBitmap.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::Compress()\r\n"));
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Compress();

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	ret=iBitmap.Create(KLargeSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::Compress()\r\n"));
	for (count = 1; ; count++)
		{
		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		ret = iBitmap.Compress();

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

// WriteStore creation
	RFs fs;
	ret=fs.Connect();
	TEST2(ret, KErrNone);
	CDirectFileStore* writestore=NULL;

	//Construct filename using the thread id to enable concurrent test runs.
	_LIT(KSbmFileName,"c:\\tall_");
	TBuf<36> buf(KSbmFileName);
	TThreadId threadId = RThread().Id();
	TUint64 id = threadId.Id();
	TBuf<20> threadIdBuf;
	threadIdBuf.Num(id);
	buf.Append(threadIdBuf);
	buf.Append(_L(".sbm"));
	
	TRAP(ret,writestore=CDirectFileStore::ReplaceL(fs,buf,EFileStream|EFileWrite));
	TEST2(ret, KErrNone);
	TUidType uidtype(KDirectFileStoreLayoutUid,KMultiBitmapFileImageUid);
	TRAP(ret,writestore->SetTypeL(uidtype));
	TEST2(ret, KErrNone);

	RStoreWriteStream writestrm;
	TStreamId headerid(0);
	TRAP(ret,headerid=writestrm.CreateL(*writestore));
	TEST2(ret, KErrNone);
	TRAP(ret,writestore->SetRootL(headerid));
	TEST2(ret, KErrNone);

// Externalize
	ret=iBitmap.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::ExternalizeL()\r\n"));
	for (count = 1; ; count++)
		{
		__UHEAP_SETFAIL(RHeap::EDeterministic,count);
		__UHEAP_MARK;

		TRAP(ret,iBitmap.ExternalizeL(writestrm));

		if (ret == KErrNoMemory)
			{
			__UHEAP_MARKEND;
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			__UHEAP_MARKEND;
			break;
			}
		else 
			{
			__UHEAP_MARKEND;
			TEST2(ret, KErrNone);
			}
		}

	__UHEAP_RESET;
	TEST(iFbs->ResourceCount()==0);

// ExternalizeRectangle
	ret=iBitmap.Create(KSmallSize,EColor256);
	TEST2(ret, KErrNone);

	INFO_PRINTF1(_L("CFbsBitmap::ExternalizeRectangleL()\r\n"));
	for (count = 1; ; count++)
		{
		__UHEAP_SETFAIL(RHeap::EDeterministic,count);
		__UHEAP_MARK;

		TRAP(ret,iBitmap.ExternalizeRectangleL(writestrm,TRect(3,3,7,7)));

		if (ret == KErrNoMemory)
			{
			__UHEAP_MARKEND;
			}
		else if (ret == KErrNone)
			{
			__UHEAP_MARKEND;
			break;
			}
		else 
			{
			__UHEAP_MARKEND;
			TEST2(ret, KErrNone);
			}
		}

	__UHEAP_RESET;
	writestrm.Close();
	delete writestore;
	iBitmap.Reset();
	TEST(iFbs->ResourceCount()==0);

// Internalize
	INFO_PRINTF1(_L("CFbsBitmap::InternalizeL()\r\n"));
	for (count = 1; ; count++)
		{
		// ReadStore creation
		CDirectFileStore* readstore=NULL;
		TRAP(ret,readstore=CDirectFileStore::OpenL(fs,buf,EFileStream|EFileRead|EFileShareAny));
		TEST2(ret, KErrNone);
		RStoreReadStream readstrm;
		headerid=readstore->Root();
		TRAP(ret,readstrm.OpenL(*readstore,headerid));
		TEST2(ret, KErrNone);

		iFbs->SendCommand(EFbsMessDefaultAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		TRAP(ret,iBitmap.InternalizeL(readstrm));

		readstrm.Close();
		delete readstore;

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	for (count = 1; ; count++)
		{
		// ReadStore re-creation
		CDirectFileStore* readstore=NULL;
//		TRAP(ret,readstore=CDirectFileStore::OpenL(fs,_L("c:\\tall.sbm"),EFileStream|EFileRead|EFileShareAny));
		TRAP(ret,readstore=CDirectFileStore::OpenL(fs,buf,EFileStream|EFileRead|EFileShareAny));
		TEST2(ret, KErrNone);
		headerid=readstore->Root();
		RStoreReadStream readstrm;
		TRAP(ret,readstrm.OpenL(*readstore,headerid));
		TEST2(ret, KErrNone);

		iFbs->SendCommand(EFbsMessUserAllocFail,count);
		if(heapMarkCheckFlag)
			{
			iFbs->SendCommand(EFbsMessDefaultMark);
			iFbs->SendCommand(EFbsMessUserMark);
			}

		TRAP(ret,iBitmap.InternalizeL(readstrm));

		readstrm.Close();
		delete readstore;

		if (ret == KErrNoMemory)
			{
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			}
		else if (ret == KErrNone)
			{
			iBitmap.Reset();
			if(heapMarkCheckFlag)
				{
				iFbs->SendCommand(EFbsMessDefaultMarkEnd);
				iFbs->SendCommand(EFbsMessUserMarkEnd);
				}
			break;
			}
		else 
			TEST2(ret, KErrNone);
		}

	iFbs->SendCommand(EFbsMessDefaultAllocFail,0);
	iFbs->SendCommand(EFbsMessUserAllocFail,0);
	TEST(iFbs->ResourceCount()==0);

	fs.Delete(buf);
	fs.Close();
	}
EXPORT_C void AknsUtils::CreateAppIconLC(
    MAknsSkinInstance* aInstance, TUid aAppUid,
    TAknsAppIconType aType,
    CFbsBitmap*& aBitmap, CFbsBitmap*& aMask )
    {
    aBitmap = NULL;
    aMask = NULL;

    if (!aInstance)
        {
        User::Leave(KErrArgument);
        }

    TSize legacySize( 42, 29 );
    TInt bitmapIndex( 0 );
    TInt maskIndex( 1 );
    if( aType == EAknsAppIconTypeContext )
        {
        legacySize = TSize( 44, 44 );
        bitmapIndex = 2;
        maskIndex = 3;
        }
    else if( aType != EAknsAppIconTypeList )
        {
        User::Leave( KErrArgument );
        }

    // Make the forthcoming pushes safe (up to level 2)
    CleanupStack::PushL( static_cast<TAny*>(NULL) );
    CleanupStack::PushL( static_cast<TAny*>(NULL) );
    CleanupStack::Pop( 2 );

    // 1. Check if the icon has been configured.
    TInt ret = KErrNone;
    TBool configuredIcon = EFalse;
    //
    CAknsAppSkinInstance* apskin = static_cast<CAknsAppSkinInstance*>(aInstance);
    if ( apskin )
        {
        TInt config = apskin->IsIconConfiguredL( aAppUid );
        if ( config > 0 )
        configuredIcon = ETrue;
        }

    if ( !configuredIcon )
        {
        // 2. Skin-originating icon
        ret = GetAppIconFromSkin( aInstance, aAppUid, legacySize, aBitmap, aMask );
        if( ret == KErrNone )
            {
            // These pushes are safe
            CleanupStack::PushL( aBitmap ); // (1)
            CleanupStack::PushL( aMask ); // (2)
            return;
            }
        }
    // Cache connected apparc session for future reuse, if not already cached
    // This is done per appskininstance when necessary...
    if (!apskin->iCachedApaSession)
        {
        apskin->iCachedApaSession = new (ELeave) RApaLsSession;
        User::LeaveIfError(apskin->iCachedApaSession->Connect());
        }

    RApaLsSession* lsSession = apskin->iCachedApaSession;

    TBool forceDefaultIcon = EFalse;

    TApaAppInfo appInfo;
    TFileName filename;
    // 3. New appicon framework
    HBufC* filenameBuf = NULL;
    TBool javaIcon = EFalse;
    ret = lsSession->GetAppIcon( aAppUid, filenameBuf );
    if( filenameBuf )
        {
        filename.Copy( *filenameBuf );
        delete filenameBuf;
        }
    if( ret == KErrNone )
        {
        ret = lsSession->GetAppInfo( appInfo, aAppUid );
        }
    if( (ret==KErrNone) && (filename.Length()>2) &&
        (appInfo.iFullName.Length()>2) )
        {
        // Correct drive letter, if necessary
        if( appInfo.iFullName[1]==':' )
            {
            if( filename[1]==':' )
                {
                filename[0] = appInfo.iFullName[0];
                }
            else if( filename[0]=='\\' )
                {
                filename.Insert( 0, appInfo.iFullName.Left(2) );
                }
            }

        // check if the icon is java icon
        javaIcon = AknsJavaUtils::IsJavaIcon(filename);

        if( AknIconUtils::IsMifFile( filename ) )
            {
            // SVG icon
            // SVG always has only one icon
            bitmapIndex = 0;
            maskIndex = 1;
            AknIconUtils::ValidateLogicalAppIconId( filename,
                bitmapIndex, maskIndex );

            if (javaIcon)
                {
                AknsJavaUtils::CreateIconLC(*lsSession, aAppUid, aBitmap,
                    aMask, bitmapIndex, maskIndex ); // aBitmap, aMask (2)
                }
            else
                {
                AknIconUtils::CreateIconLC( aBitmap, aMask, filename,
                    bitmapIndex, maskIndex ); // aBitmap, aMask (2)
                }
            AknInternalIconUtils::SetAppIcon(aBitmap); //icon case
            return;
            }
        else
            {
            // MBM icon
            AknIconUtils::ValidateLogicalAppIconId( filename,
                bitmapIndex, maskIndex );
            TRAP( ret, AknIconUtils::CreateIconL( aBitmap, aMask, filename,
                bitmapIndex, maskIndex ) );
            if( ret == KErrNone )
                {
                // These pushes are safe
                CleanupStack::PushL( aBitmap ); // (1)
                CleanupStack::PushL( aMask ); // (2)
                }
            else
                {
                bitmapIndex = 0;
                maskIndex = 1;
                AknIconUtils::ValidateLogicalAppIconId( filename,
                    bitmapIndex, maskIndex );
                AknIconUtils::CreateIconLC( aBitmap, aMask, filename,
                    bitmapIndex, maskIndex ); // aBitmap, aMask (2)
                }
            AknInternalIconUtils::SetAppIcon(aBitmap); //icon case
            return;
            }
        }
    else if( ret!=KErrNotSupported )
        {
        // New framework, but no icon defined
        forceDefaultIcon = ETrue;
        }

    CApaMaskedBitmap* apaBmp = CApaMaskedBitmap::NewLC(); // apaBmp (1)
    // 3. Old (AIF-based) framework
    if( !forceDefaultIcon )
        {
        TInt apaErr = lsSession->GetAppIcon( aAppUid, legacySize, *apaBmp );
        // Use default icon if APPARC did not initialize icon bitmaps
        if( apaErr || (!apaBmp) || (!apaBmp->Mask()) ||
            (!apaBmp->Handle()) || (!apaBmp->Mask()->Handle()) )
            {
            forceDefaultIcon = ETrue;
            }
        }

    if( forceDefaultIcon )
        {
        // Default icon
        CleanupStack::PopAndDestroy( 1 ); // apaBmp (0)
        TAknsItemID iid = KAknsIIDQgnMenuUnknownLst;
        bitmapIndex = EMbmAvkonQgn_menu_unknown_lst;
        maskIndex = EMbmAvkonQgn_menu_unknown_lst_mask;
        if( aType == EAknsAppIconTypeContext )
            {
            iid = KAknsIIDQgnMenuUnknownCxt;
            bitmapIndex = EMbmAvkonQgn_menu_unknown_cxt;
            maskIndex = EMbmAvkonQgn_menu_unknown_cxt_mask;
            }
        AknsUtils::CreateIconLC( aInstance, iid, aBitmap, aMask,
            AknIconUtils::AvkonIconFileName(), bitmapIndex, maskIndex ); // aBitmap, aMask (2)
        }
    else
        {
        // AIF-based icon
        CFbsBitmap* iconOwnedBitmap = new (ELeave) CFbsBitmap();
        CleanupStack::PushL( iconOwnedBitmap ); // iob (3)
        CFbsBitmap* iconOwnedMask = new (ELeave) CFbsBitmap();
        CleanupStack::PushL( iconOwnedMask ); // iom (4)
        User::LeaveIfError(
            iconOwnedBitmap->Duplicate( apaBmp->Handle() ) );
        User::LeaveIfError(
            iconOwnedMask->Duplicate( apaBmp->Mask()->Handle() ) );

        CAknIcon* tmpIcon = CAknIcon::NewL();
        CleanupStack::Pop( 2 ); // iom, iob (2)
        CleanupStack::PopAndDestroy( 1 ); // apaBmp (0)

        // Ownership is transferred
        tmpIcon->SetBitmap( iconOwnedBitmap );
        tmpIcon->SetMask( iconOwnedMask );
        // Ownership of tmpIcon is transferred
        CAknIcon* appIcon = AknIconUtils::CreateIconL( tmpIcon );

        aBitmap = appIcon->Bitmap();
        aMask = appIcon->Mask();
        // Detach and delete
        appIcon->SetBitmap( NULL );
        appIcon->SetMask( NULL );
        delete appIcon;

        // These are both safe
        CleanupStack::PushL( aBitmap ); // (1)
        CleanupStack::PushL( aMask ); // (2)
        }
    }