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I'm responsible for maintaining a collection of DLLs and one OCX component. The software is used by our customers to retrieve data from our server. The OCX is basically a simplified wrapper around the DLLs and does the data marshalling.

I upgraded the OCX and DLLs from VC4, VC6 to VS2008, which was relatively painless. However, the result is that the performance is cut in half. I can now only retrieve data at a rate of around 3,5 MB/s whereas before it was around 6 MB/s.

Does anyone have any idea what could cause such a performance drop using a newer compiler? The same is true when using VS2010.

Any suggestions or pointers to where I should further investigate is very much appreciated!

Some additional information:

  • All DLLs/OCX use MFC, no STL libraries
  • The OCX uses dispinterface (IDispatch::Invoke) for data object delivery
  • Access to the actual data in the data object is provided with a dual interface

Edit 2:
I've already tried the following:

  • using LFH (Low Fragmentation Heap) on the default process heap
  • checked all compiler/linker flags, specifically optimization flags.
    Release Compiler flags:
/O2 /Oi /Ot /Oy /GL /D "NDEBUG" /D "WIN32" /D "_WINDOWS" /D "_USRDLL" 
/D "_WINDLL" /D "_AFXDLL" /D "_MBCS" /FD /EHsc /MD /arch:SSE2 /fp:fast 
/W3 /nologo /c /TP

Edit 3:
I profiled the code. The part that needs most cycles is when the data is retrieved with GetValue(BSTR* retVal). However, the code has not been changed since upgrading from VC6 to VS2008, so the question remains: Why is it so much slower when compiling with a new compiler?

Here is what the code looks like (reduced).
Note: this code won't compile and may contain errors. I reduced it to the method where the performance hit is occuring.

// File: data.idl

//  dual interface for DataWrapper object
  helpstring("Interface for accessing data values"),
  object, oleautomation, dual, hidden, version(2.8)
interface IData : IDispatch
  [id(1)] HRESULT GetValue  ([out,retval] BSTR* retVal);  
coclass Data
  [default] interface IData;      

// Data delivery event dispinterface
dispinterface DataDeliveryEvent
  [id(1)] void DataDelivery(BSTR name, short dataType, IDispatch* data);
coclass DataDeliveryClass
  [default, source] dispinterface DataDeliveryEvent;
// File: Interface.h
0x7133f8a0, 0x693d, 0x4362, 0xae, 0x1, 0x80, 0x85, 0x9f, 0xe1, 0x4f, 0xe);
interface DECLSPEC_UUID("7133F8A0-693D-4362-AE01-80859FE14F0E")
DataDispatch : public IDispatch
    STDMETHOD(GetValue)(BSTR* retVal) = 0;
// File: DataWrapper.h
#include "Interface.h"
class DataWrapper : public CCmdTarget
    const dataImpl* m_dataImplPtr;

    IDispatch* GetDualInterface() { return &m_xDualData; }


    BEGIN_DUAL_INTERFACE_PART(DualData, DataDispatch)
        STDMETHOD(GetValue)(BSTR* retVal);

// File: DataWrapper.cpp
#include "DataWrapper.h"
BEGIN_MESSAGE_MAP(DataWrapper, CCmdTarget)

BEGIN_INTERFACE_MAP(DataWrapper, CCmdTarget)
    INTERFACE_PART(DataWrapper, IID_Data , DualData)


STDMETHODIMP DataWrapper::XDualData::GetValue(BSTR* retVal)
    METHOD_PROLOGUE(DataWrapper, DualData)
        const char* text = pThis->m_dataImplPtr->getString();
        CString value((text == NULL) ? "" : text);
        *retVal = value.AllocSysString(); // convert to BSTR type
        return S_OK;
share|improve this question
Don't run the debug build. Only realistic guess from this poorly documented question. – Hans Passant Jul 4 '11 at 23:53
It is not a debug build. The only major change was the compiler switch. – Philippe Baur Jul 5 '11 at 6:00
I suggest to profile it to find out where the actual performance issues are and then ask specific questions about those parts. – Georg Fritzsche Jul 5 '11 at 20:53
I found out that if I remove the TRY_DUAL(IID_Data) and CATCH_ALL_DUAL macros, the performance will increase about 20%. Still not enough, but at least something. – Philippe Baur Jul 6 '11 at 14:27

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