Exemplo n.º 1
0
// From MTest:
void CTestCase::ExecuteL (TTestResult& aResult)
    {
    TInt error = ExecuteImplL();
    aResult.iResult = error;
    // add the possible failure or error to the result
    
    if (error == KErrCppUnitAssertionFailed)
        {
        CAssertFailure* assertFailure = AssertFailureFromTlsL ();
        CleanupStack::PushL(assertFailure);
        TBuf16 <0x80> convertBuf;
        TBuf16 <256> temporaryBuf;
        convertBuf.Copy(assertFailure->What());
        temporaryBuf.Append(convertBuf);
        temporaryBuf.AppendFormat(_L(" at Line %i of "), assertFailure->LineNumber()); 
        convertBuf.Copy(assertFailure->FileName());
        if (convertBuf.Length() + temporaryBuf.Length() >= 0x80)
            {
            TBuf <0x80> printBuf;
            printBuf = convertBuf.Right(0x80 - temporaryBuf.Length() - 1 -3 );
            convertBuf = _L("...");
            convertBuf.Append(printBuf);
            }
        temporaryBuf.Append(convertBuf);
        aResult.iResultDes = temporaryBuf;
        CleanupStack::PopAndDestroy(assertFailure); 
        }
    }
Exemplo n.º 2
0
//*******************************************************************************
// Method      : CTestAppConsole::QueryIPAddress()
// Purpose     : 
// Parameters  : 
// Return Value: 
//*******************************************************************************
void CTestAppConsole::QueryIPAddress()
    {    
    TBuf16<80> line;
    
    // Query IP address and parse it
    TUint32 address;
    RArray<TUint32> values;
    TInt inputErr( 0 );
    
    iConsole->Printf( _L("\nINPUT IP (use dot as a separator): ") );
    iConsole->Printf( _L("\nPress enter if IP not needed in tests\n\n") );
    GetStringFromConsole( line );
    	
    if ( line.Length() != 0 )
        {
        TInt dotIndex( 0 );
        TBool dotExist = ETrue;

        while ( dotExist )
            {
            dotIndex = line.Locate( '.' );

            // True if last attribute value
            if( KErrNotFound == dotIndex  )
                {
                dotExist = EFalse;
                dotIndex = line.Length();
                }

            TUint8 number;
            TLex16 lex = line.Mid( 0, dotIndex );

            inputErr = lex.Val( number, EDecimal );
                
            if ( !inputErr )
                {
                values.AppendL( number );
                }
                
            if( dotExist )
                {
                line.Delete( 0, dotIndex + 1 );
                }
            }
            
        if ( !inputErr && values.Count() == 4 )
            {
            address = INET_ADDR( values[0], values[1], values[2], values[3] );
            iNetsettings.iRemoteAddress.SetAddress( address );    
            }
	    }
    }
Exemplo n.º 3
0
HBufC* CPluginUtils::ConvertUtfToUnicodeL( const TDesC8& aUtf7 )
	{

	RBuf output;
	CleanupClosePushL( output );
	
	TBuf16<20> outputBuffer;
	TPtrC8 remainderOfUtf7( aUtf7 );

	for(;;)
		{
		const TInt returnValue = CnvUtfConverter::ConvertToUnicodeFromUtf8(outputBuffer, remainderOfUtf7);
		if (returnValue==CnvUtfConverter::EErrorIllFormedInput)
			return NULL;
		else if (returnValue<0)
			return NULL;
        
		output.ReAllocL( output.Length() + outputBuffer.Length() );
		output.Append( outputBuffer );

        if (returnValue == 0)
            break;

        remainderOfUtf7.Set(remainderOfUtf7.Right(returnValue));
		}

	HBufC* ret = output.AllocL();
	
	CleanupStack::PopAndDestroy( &output );
	return ret;
	}
void CAknEcsNote::SetEmergencyNumber( const TDesC& aMatchedNumber )
    {
    TRect screen(iAvkonAppUi->ApplicationRect());
    TAknLayoutRect mainPane;
    mainPane.LayoutRect(screen, AKN_LAYOUT_WINDOW_main_pane(screen, 0, 1, 1));
    TAknLayoutRect popupNoteWindow;
    AknLayoutUtils::TAknCbaLocation cbaLocation( AknLayoutUtils::CbaLocation() );
	TInt variety( 0 );
    if ( cbaLocation == AknLayoutUtils::EAknCbaLocationRight )
		{
		variety = 5;
		}
	else if ( cbaLocation == AknLayoutUtils::EAknCbaLocationLeft )
		{
		variety = 8;
		}
	else
		{
		variety = 2;
		}

    popupNoteWindow.LayoutRect(mainPane.Rect(), AknLayoutScalable_Avkon::popup_note_window( variety ));
    TAknLayoutText textRect;
    textRect.LayoutText(popupNoteWindow.Rect(), AKN_LAYOUT_TEXT_Note_pop_up_window_texts_Line_1(4));

    // Size of a temporary buffer that contains new lines, spaces and 
    // emergency number for a note.
    TBuf16<KAknEcsMaxMatchingLength+80> number;
    number.Append('\n');
    number.Append('\n');

    TInt spaceCharWidthInPixels = textRect.Font()->CharWidthInPixels(' ');
    if (spaceCharWidthInPixels < 1)
        {
        // Avoid divide by zero situation even the space char would have zero length.
        spaceCharWidthInPixels = 1;
        }
    
    TInt length = (textRect.TextRect().Width() - textRect.Font()->TextWidthInPixels(aMatchedNumber))
                    / spaceCharWidthInPixels;

    const TInt matchedNumberLength = aMatchedNumber.Length();
    const TInt numberLength = number.Length();
    const TInt numberMaxLength = number.MaxLength();
    
    if ( numberLength + length + matchedNumberLength > numberMaxLength)
        {
        // To make sure that buffer overflow does not happen.
        length = numberMaxLength - numberLength - matchedNumberLength;
        }
    for (int i = 0; i < length ; i++)
        {
        number.Append(' ');
        }

    number.Append(aMatchedNumber);
    TRAP_IGNORE(SetTextL(number));

    }
/**
 * Returns bluetooth friendly name
 * Output: bluetooth friendly name
 */
std::wstring *S60BluetoothPlatformControl::getBluetoothName()
{
    TBuf16<KMaxBluetoothNameLen> bluetoothName;

    JELOG2(EJavaBluetooth);
    TInt error = RProperty::Get(KPropertyUidBluetoothCategory,
                                KPropertyKeyBluetoothGetDeviceName, bluetoothName);

    if (error != KErrNone || (0 == bluetoothName.Length()))
    {
        ELOG(EJavaBluetooth, "Bluetooth friendly name was not set");
        return NULL;
    }
    std::wstring *deviceName =
        new std::wstring((wchar_t*) bluetoothName.Ptr());

    deviceName->resize(bluetoothName.Length());
    return deviceName;
}
Exemplo n.º 6
0
GLDEF_C TInt E32Main()
    {
	TBuf16<512> cmd;
	User::CommandLine(cmd);
	if(cmd.Length() && TChar(cmd[0]).IsDigit())
		{
		TInt function = -1;
		TInt arg1 = -1;
		TInt arg2 = -1;
		TLex lex(cmd);

		lex.Val(function);
		lex.SkipSpace();
		lex.Val(arg1);
		lex.SkipSpace();
		lex.Val(arg2);
		return DoTestProcess(function,arg1,arg2);
		}

	test.Title();

	if((!PlatSec::ConfigSetting(PlatSec::EPlatSecProcessIsolation))||(!PlatSec::ConfigSetting(PlatSec::EPlatSecEnforcement)))
		{
		test.Start(_L("TESTS NOT RUN - PlatSecProcessIsolation is not enforced"));
		test.End();
		return 0;
		}

	test(SyncMutex.CreateGlobal(KSyncMutext)==KErrNone);
	
	test.Start(_L("Test SetJustInTime"));
	TestSetJustInTime();

	test.Next(_L("Test Rename"));
	TestRename();

	test.Next(_L("Test Kill, Panic and Teminate"));
	TestKill();

	test.Next(_L("Test Resume"));
	TestResume();

	test.Next(_L("Test SetPriority"));
	TestSetPriority();


	SyncMutex.Close();
	test.End();

	return(0);
    }
Exemplo n.º 7
0
void CDebugLogPrint::WriteToLog8L(const TDesC8 &aDes, const TDesC8 &aDes2)
	{
	TBuf16<256> buf;
	TInt pos=aDes.LocateReverse(' ');
	if (pos<0)
		pos=0;
	buf.Copy(aDes.Mid(pos));
	buf.Append(' ');
	TInt bufLen=buf.Length();
	TPtr16 ptr(&buf[bufLen],buf.MaxLength()-bufLen);
	ptr.Copy(aDes2);
	buf.SetLength(bufLen+aDes2.Length());
	_LIT(KDebugFormatString, "%S");
	RDebug::Print(KDebugFormatString, &buf);	
	}
/**
 * Returns bluetooth address
 * Output: bluetooth address
 */
std::wstring *S60BluetoothPlatformControl::getBluetoothAddress()
{
    TPckgBuf<TBTDevAddr> localDeviceBluetoothAddress;
    TBuf16<20> bluetoothAddress;

    JELOG2(EJavaBluetooth);
    TInt error = RProperty::Get(KPropertyUidBluetoothCategory,
                                KPropertyKeyBluetoothGetLocalDeviceAddress,
                                localDeviceBluetoothAddress);

    if (error != KErrNone)
    {
        return NULL;
    }

    localDeviceBluetoothAddress().GetReadable(bluetoothAddress);
    std::wstring *deviceAddress =
        new std::wstring((wchar_t*) bluetoothAddress.Ptr());
    deviceAddress->resize(bluetoothAddress.Length());
    return deviceAddress;
}
Exemplo n.º 9
0
//*******************************************************************************
// Method      : CTestAppConsole::QueryNetworkSettings()
// Purpose     : 
// Parameters  : 
// Return Value: 
//*******************************************************************************
void CTestAppConsole::QueryNetworkSettings()
    {
    TBuf16<80> line;
    
    iConsole->Printf( _L("\nQUERYING NETWORK SETTINGS") );
    iConsole->Printf( _L("\nPress enter to use existing value") );
    
    TUint iap( KTestIapId );
    TInt inputErr( 0 );
    do 
        {
        iConsole->Printf( _L("\nINPUT IAPID: ") );
    	GetStringFromConsole( line );
    	if ( line.Length() != 0 )
    	    {
        	TLex lex( line );
        	inputErr = lex.Val( iap );    	    
    	    }
        } while ( inputErr );
    
    iNetsettings.iIapId = iap;
    }
int main()
{
    __UHEAP_MARK;
    int retval =ESuccess;
    wchar_t* mywcharstring = L"Hello Widechar String";
    int wchar_length= wcslen(mywcharstring);
    TBuf16 <42> myBuffer;
    retval = WcharToTbuf16 (mywcharstring, myBuffer);

    int buf_len = myBuffer.Length();
    if (retval ==ESuccess && wchar_length == buf_len && buf_len == 21 )
    {
    printf("wchartotbuf16 boundary2 Passed\n");
    }
    else
    {
    assert_failed = true;
    printf("wchartotbuf16 boundary2 Failed\n");
    }      
    __UHEAP_MARKEND;
    testResultXml("test_wchartotbuf16_boundary2");
}
Exemplo n.º 11
0
GLDEF_C TInt E32Main()
    {
	TBuf16<512> cmd;
	User::CommandLine(cmd);
	if(cmd.Length() && TChar(cmd[0]).IsDigit())
		{
		TInt function = -1;
		TInt arg1 = -1;
		TInt arg2 = -1;
		TLex lex(cmd);
		lex.Val(function);
		lex.SkipSpace();
		lex.Val(arg1);
		lex.SkipSpace();
		lex.Val(arg2);
		return DoTestProcess(function,arg1,arg2);
		}

	MemModelAttributes=UserSvr::HalFunction(EHalGroupKernel, EKernelHalMemModelInfo, NULL, NULL);
	TUint mm=MemModelAttributes&EMemModelTypeMask;
	PhysicalCommitSupported = mm!=EMemModelTypeDirect && mm!=EMemModelTypeEmul;

// Turn off lazy dll unloading
	RLoader l;
	test(l.Connect()==KErrNone);
	test(l.CancelLazyDllUnload()==KErrNone);
	l.Close();

	test.Title();

#if defined(__FIXED__) || defined(__SECOND_FIXED__) || defined(__MOVING_FIXED__)
	if(mm!=EMemModelTypeMoving)
		{
		test.Printf(_L("TESTS NOT RUN - Only applicable to moving memory model\r\n"));
		return 0;
		}
#endif

	test.Start(_L("Loading test driver..."));

	TInt r;
	r=User::LoadLogicalDevice(KSharedIoTestLddName);
	test(r==KErrNone || r==KErrAlreadyExists);
	r=User::LoadLogicalDevice(KSharedIoTestLddName);
	test(r==KErrAlreadyExists);
	r=ldd.Open();
	test(r==KErrNone);

	TAny* buffer;
	TUint32 size;
	TUint32 key;

	TInt testBufferSize=0;
	for(; TestBufferSizes[testBufferSize]!=0; ++testBufferSize)
		{
		test.Printf(_L("Test buffer size = %08x\n"),TestBufferSizes[testBufferSize]);

		test.Next(_L("Create buffer"));
		r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]);
		if(r!=KErrNone)
			test.Printf(_L("Creating buffer failed client r=%d"), r);
		test(r==KErrNone);

		test.Next(_L("Map In Buffer"));
		r=ldd.MapInBuffer(&buffer,&size);
		
		test.Next(_L("CheckBuffer"));
		test(CheckBuffer(buffer,size));
		test(r==KErrNone);
		test.Next(_L("Fill and check shared buffer"));
		key=Math::Random();
		fillBuffer(buffer,size,key);
		test(ldd.CheckBuffer(key)==KErrNone);

		key=Math::Random();
		test(ldd.FillBuffer(key)==KErrNone);
		test(checkBuffer(buffer,size,key)==KErrNone);

		test.Next(_L("Map Out Buffer"));
		r=ldd.MapOutBuffer();
		test(r==KErrNone);

		test.Next(_L("Destroy Buffer"));
		r=ldd.DestroyBuffer();
		test(r==KErrNone);

		test.Next(_L("Create a buffer under OOM conditions"));
		CreateWithOOMCheck(TestBufferSizes[testBufferSize], EFalse);

		if(PhysicalCommitSupported)
			{
			test.Next(_L("Create a buffer with a physical address under OOM conditions"));
			CreateWithOOMCheck(TestBufferSizes[testBufferSize], ETrue);

			test.Next(_L("Create a buffer with a physical address"));
			r=ldd.CreateBufferPhysAddr(0x1000);
			test(r==KErrNone);

			test.Next(_L("Map In physical address Buffer"));
			r=ldd.MapInBuffer(&buffer,&size);
			test(r==KErrNone);

			test.Next(_L("Fill and check physical address shared buffer"));
			key=Math::Random();
			fillBuffer(buffer,size,key);
			test(ldd.CheckBuffer(key)==KErrNone);

			key=Math::Random();
			test(ldd.FillBuffer(key)==KErrNone);
			test(checkBuffer(buffer,size,key)==KErrNone);

			test.Next(_L("Map Out physical address Buffer"));
			r=ldd.MapOutBuffer();
			test(r==KErrNone);

			test.Next(_L("Destroy a buffer with a physical address"));
			r=ldd.DestroyBufferPhysAddr();
			test(r==KErrNone);
		}

		test.Next(_L("Check using the same buffer by 2 different user processes"));
		TAny* gbuffer;
		TUint32 gsize;
		r=ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize);
		test(r==KErrNone);

		fillBuffer(gbuffer,gsize,23454);

		r=ldd.MapOutGlobalBuffer();
		test(r==KErrNone);

		r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]);
		test(r==KErrNone);

		r=ldd.MapInBuffer(&buffer,&size);
		test(r==KErrNone);

		test(CheckBuffer(buffer,size));

		key=Math::Random();
		fillBuffer(buffer,size,key);
		test(ldd.CheckBuffer(key)==KErrNone);

		RTestProcess rogueP;
		TRequestStatus rendezvous;
		TRequestStatus logon;

		if(MemModelAttributes&EMemModelAttrProcessProt)
			{
			test.Next(_L("Checking buffers are protected at context switching"));
			rogueP.Create(ETestProcess2,(TInt)buffer,(TInt)size);
			rogueP.Logon(logon);
			rogueP.Rendezvous(rendezvous);
			rogueP.Resume();
			User::WaitForRequest(rendezvous);
			test(rendezvous==KProcessRendezvous);
			User::WaitForRequest(logon);
			test(rogueP.ExitType()==EExitPanic);
			test(logon==3);
			test(ldd.CheckBuffer(key)==KErrNone);
			}

		r=ldd.MapOutBuffer();
		test(r==KErrNone);

		r=ldd.DestroyBuffer();
		test(r==KErrNone);

		RTestProcess process;

		if((MemModelAttributes&EMemModelAttrKernProt) && (MemModelAttributes&EMemModelTypeMask)!=EMemModelTypeDirect)
			{
			test.Next(_L("Checking writing to unmapped buffer"));
			process.Create(ETestProcess1);
			process.Logon(logon);
			process.Rendezvous(rendezvous);
			test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone);
			test(process.SetParameter(1,(TInt)gbuffer)==KErrNone);
			test(process.SetParameter(2,(TInt)gsize)==KErrNone);
			process.Resume();
			User::WaitForRequest(rendezvous);
			test(rendezvous==KProcessRendezvous);
			User::WaitForRequest(logon);
			test(process.ExitType()==EExitPanic);
			test(logon==3);
			process.Close();
			}

		r=ldd.CreateBuffer(TestBufferSizes[testBufferSize]);
		if(r!=KErrNone)
			return r;

		r=ldd.MapInBuffer(&buffer,&size);
		if(r!=KErrNone)
			return r;

		if(!CheckBuffer(buffer,size))
			return KErrGeneral;

		*(TInt*)buffer=KMagic1;
		TPckg<TInt> buf(*(TInt*)buffer);

		RTestProcess proc;
		test.Next(_L("Checking address lookup is implemented"));
		proc.Create(ETestProcess3,(TInt)&buf,RThread().Id());
		proc.Logon(logon);
		proc.Resume();
		User::WaitForRequest(logon);

		test(proc.ExitType()==EExitKill);
		test(logon==0);
		test(*(TInt*)buffer==KMagic2);

		ldd.DestroyBuffer();

		// Check process death whilst buffer is mapped in
		// Test case for defect DEF051851 - Shared IO Buffer fault when process dies
		test.Next(_L("Checking process death whilst buffer is mapped in"));
			process.Create(ETestProcess1);
			process.Logon(logon);
			test.Start(_L("Map buffer into another process"));
			test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone);
			test.Next(_L("Kill other process"));
			process.Kill(99);
			User::WaitForRequest(logon);
			test(process.ExitType()==EExitKill);
			test(logon==99);
			process.Close();
			test.Next(_L("Map out buffer"));
			r=ldd.MapOutGlobalBuffer();
			test.Printf(_L("result = %d\n"),r);
			test(r==KErrNone);

			test.Next(_L("Map buffer into this process"));
			test(ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize)==KErrNone);
			test.Next(_L("Map out buffer from this process"));
			r=ldd.MapOutGlobalBuffer();
			test.Printf(_L("result = %d\n"),r);
			test(r==KErrNone);

			process.Create(ETestProcess1);
			process.Logon(logon);
			test.Next(_L("Map buffer into another process"));
			test(ldd.MapInGlobalBuffer(process.Id(),gbuffer,gsize)==KErrNone);
			test.Next(_L("Kill other process"));
			process.Kill(99);
			User::WaitForRequest(logon);
			test(process.ExitType()==EExitKill);
			test(logon==99);
			process.Close();
			test.Next(_L("Map out buffer"));
			r=ldd.MapOutGlobalBuffer();
			test.Printf(_L("result = %d\n"),r);
			test(r==KErrNone);
			test.End();
	} // loop for next buffer size

	test.Next(_L("Create and map in buffer"));
	r=ldd.CreateBuffer(KTestBufferSize);
	test(r==KErrNone);
	r=ldd.MapInBuffer(&buffer,&size);
	test(r==KErrNone);

//  Test for DEF053512 - Can't delete SharedIo buffers in DLogicalDevice destructor 

	test.Next(_L("Map in global buffer"));
	TAny* gbuffer;
	TUint32 gsize;
	test(ldd.MapInGlobalBuffer(RProcess().Id(),gbuffer,gsize)==KErrNone);

	test.Next(_L("Closing channel (with a buffer still mapped in)"));
	ldd.Close();

//  Test for DEF053512 - Can't delete SharedIo buffers in DLogicalDevice destructor 

	test.Next(_L("Unload driver (whilst global buffer still mapped in)"));
	r=User::FreeLogicalDevice(KSharedIoTestLddName);
	test(r==KErrNone);

	test.End();



	return(0);
    }
Exemplo n.º 12
0
EXPORT_C void CIpuTestHarness::GetAnEntry(const TDesC& ourPrompt, TDes& currentstring)
//
//	Get an input string from the user, displaying a supplied prompt and default string value
	{
	// If we're scripting, try reading from script first
	TInt readScriptErr = KErrNotFound;
	if (iScriptRunning)
		{
		readScriptErr = ReadLineFromScript(currentstring);
		}
	if (!readScriptErr)
		return;

	// Either not scripting, or hit end of script - continue with user input
	TBuf16<KMaxUserEntrySize> ourLine;
	TBuf<KMaxUserEntrySize> tempstring;				//tempstring is a unicode descriptor
										//create a temporary buffer where the
										//unicode strings are stored in order to 
										//be displayed
	ourLine.Zero ();
	tempstring.Copy(currentstring);		//Copy current string to Unicode buffer
	TKeyCode key = EKeyNull;						//current string buffer is 8 bits wide.
										//Unicode string bufffer (tempstring) is 16 bits wide.
	for (;;)
		{
		if (ourLine.Length () == 0)
			{
			iTest.Console()->SetPos (0, iTest.Console()->WhereY ());
			iTest.Console()->Printf (_L ("%S"), &ourPrompt);
			if (tempstring.Length () != 0)						//get tempstring's number of items
				iTest.Console()->Printf (_L (" = %S"), &tempstring);	//if not zero print them to iTest.Console()
			iTest.Console()->Printf (_L (" : "));
			iTest.Console()->ClearToEndOfLine ();
			}
		key = iTest.Getch();
		
		  if (key == EKeyBackspace)
				{
					if (ourLine.Length() !=0)
					{
						ourLine.SetLength(ourLine.Length()-1);
						iTest.Console()->Printf (_L ("%c"), key);
						iTest.Console()->SetPos(iTest.Console()->WhereX(),iTest.Console()->WhereY());
						iTest.Console()->ClearToEndOfLine();
					}	// end if (ourLine.Length() !=0)
				}	// end if (key == KeyBackSpace)
		  
		  		  
		  if (key == EKeyDelete) 			
				{
					ourLine.Zero();
					iTest.Console()->SetPos (0, iTest.Console()->WhereY ());
					iTest.Console()->ClearToEndOfLine ();
					tempstring.Copy(ourLine);
					break;
				}
		  
		  if (key == EKeyEnter)
			break;
		
		  if (key < 32)
			{
			continue;
			}
		
		ourLine.Append (key);
		iTest.Console()->Printf (_L ("%c"), key);
		iTest.Console()->SetPos(iTest.Console()->WhereX(),iTest.Console()->WhereY());
		iTest.Console()->ClearToEndOfLine();
		if (ourLine.Length () == ourLine.MaxLength ())
			break;
		}	// end of for statement

	if ((key == EKeyEnter) && (ourLine.Length () == 0))
		tempstring.Copy (currentstring);				//copy contents of 8 bit "ourLine" descriptor
	
	iTest.Console()->SetPos (0, iTest.Console()->WhereY ());		
	iTest.Console()->ClearToEndOfLine ();
	iTest.Console()->Printf (_L ("%S"), &ourPrompt);
	
	if ((key == EKeyEnter) && (ourLine.Length() !=0))
		tempstring.Copy(ourLine);
	if (tempstring.Length () != 0)						//if temstring length is not zero
		{
		iTest.Console()->Printf (_L (" = %S\n"), &tempstring);	//print the contents to iTest.Console()
		LogIt(_L ("%S = %S\n"), &ourPrompt, &tempstring);
		}

	else
		//iTest.Console()->Printf (_L (" is empty"));
	iTest.Console()->Printf (_L ("\n"));
	currentstring.Copy(tempstring);						//copy 16 bit tempstring descriptor back 
	}