// This is a part of the Active Template Library.
// Copyright (C) 1996-1998 Microsoft Corporation
// All rights reserved.
//
// This source code is only intended as a supplement to the
// Active Template Library Reference and related
// electronic documentation provided with the library.
// See these sources for detailed information regarding the
// Active Template Library product.

#ifndef __ATLCOM_H__
#define __ATLCOM_H__

#ifndef __cplusplus
        #error ATL requires C++ compilation (use a .cpp suffix)
#endif

#ifndef __ATLBASE_H__
        #error atlcom.h requires atlbase.h to be included first
#endif

#pragma pack(push, _ATL_PACKING)

EXTERN_C const IID IID_ITargetFrame;

namespace ATL
{

#define CComConnectionPointContainerImpl IConnectionPointContainerImpl
#define CComISupportErrorInfoImpl ISupportErrorInfoImpl
#define CComProvideClassInfo2Impl IProvideClassInfoImpl
#define CComDualImpl IDispatchImpl

#ifdef _ATL_DEBUG_QI
#ifndef _ATL_DEBUG
#define _ATL_DEBUG
#endif // _ATL_DEBUG
#endif // _ATL_DEBUG_QI

#ifdef _ATL_DEBUG_QI
#define _ATLDUMPIID(iid, name, hr) AtlDumpIID(iid, name, hr)
#else
#define _ATLDUMPIID(iid, name, hr) hr
#endif

#define _ATL_DEBUG_ADDREF_RELEASE_IMPL(className)\
        virtual ULONG STDMETHODCALLTYPE AddRef(void) = 0;\
        virtual ULONG STDMETHODCALLTYPE Release(void) = 0;

/////////////////////////////////////////////////////////////////////////////
// AtlReportError

inline HRESULT WINAPI AtlReportError(const CLSID& clsid, UINT nID, const IID& iid,
        HRESULT hRes, HINSTANCE hInst)
{
        return AtlSetErrorInfo(clsid, (LPCOLESTR)MAKEINTRESOURCE(nID), 0, NULL, iid, hRes, hInst);
}

inline HRESULT WINAPI AtlReportError(const CLSID& clsid, UINT nID, DWORD dwHelpID,
        LPCOLESTR lpszHelpFile, const IID& iid, HRESULT hRes, HINSTANCE hInst)
{
        return AtlSetErrorInfo(clsid, (LPCOLESTR)MAKEINTRESOURCE(nID), dwHelpID,
                lpszHelpFile, iid, hRes, hInst);
}

#ifndef OLE2ANSI
inline HRESULT WINAPI AtlReportError(const CLSID& clsid, LPCSTR lpszDesc,
        DWORD dwHelpID, LPCSTR lpszHelpFile, const IID& iid, HRESULT hRes)
{
        ATLASSERT(lpszDesc != NULL);
        USES_CONVERSION;
        return AtlSetErrorInfo(clsid, A2COLE(lpszDesc), dwHelpID, A2CW(lpszHelpFile),
                iid, hRes, NULL);
}

inline HRESULT WINAPI AtlReportError(const CLSID& clsid, LPCSTR lpszDesc,
        const IID& iid, HRESULT hRes)
{
        ATLASSERT(lpszDesc != NULL);
        USES_CONVERSION;
        return AtlSetErrorInfo(clsid, A2COLE(lpszDesc), 0, NULL, iid, hRes, NULL);
}
#endif

inline HRESULT WINAPI AtlReportError(const CLSID& clsid, LPCOLESTR lpszDesc,
        const IID& iid, HRESULT hRes)
{
        return AtlSetErrorInfo(clsid, lpszDesc, 0, NULL, iid, hRes, NULL);
}

inline HRESULT WINAPI AtlReportError(const CLSID& clsid, LPCOLESTR lpszDesc, DWORD dwHelpID,
        LPCOLESTR lpszHelpFile, const IID& iid, HRESULT hRes)
{
        return AtlSetErrorInfo(clsid, lpszDesc, dwHelpID, lpszHelpFile, iid, hRes, NULL);
}

//////////////////////////////////////////////////////////////////////////////
// IPersistImpl
template <class T>
class ATL_NO_VTABLE IPersistImpl : public IPersist
{
public:
        STDMETHOD(GetClassID)(CLSID *pClassID)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistImpl::GetClassID\n"));
                if (pClassID == NULL)
                        return E_FAIL;
                *pClassID = T::GetObjectCLSID();
                return S_OK;
        }
};


//////////////////////////////////////////////////////////////////////////////
// CComDispatchDriver / Specialization of CComQIPtr<IDispatch, IID_IDispatch>
class CComDispatchDriver
{
public:
        CComDispatchDriver()
        {
                p = NULL;
        }
        CComDispatchDriver(IDispatch* lp)
        {
                if ((p = lp) != NULL)
                        p->AddRef();
        }
        CComDispatchDriver(IUnknown* lp)
        {
                p=NULL;
                if (lp != NULL)
                        lp->QueryInterface(IID_IDispatch, (void **)&p);
        }
        ~CComDispatchDriver() { if (p) p->Release(); }
        void Release() {if (p) p->Release(); p=NULL;}
        operator IDispatch*() {return p;}
        IDispatch& operator*() {ATLASSERT(p!=NULL); return *p; }
        IDispatch** operator&() {ATLASSERT(p==NULL); return &p; }
        IDispatch* operator->() {ATLASSERT(p!=NULL); return p; }
        IDispatch* operator=(IDispatch* lp){return (IDispatch*)AtlComPtrAssign((IUnknown**)&p, lp);}
        IDispatch* operator=(IUnknown* lp)
        {
                return (IDispatch*)AtlComQIPtrAssign((IUnknown**)&p, lp, IID_IDispatch);
        }
        BOOL operator!(){return (p == NULL) ? TRUE : FALSE;}

        HRESULT GetPropertyByName(LPCOLESTR lpsz, VARIANT* pVar)
        {
                ATLASSERT(p);
                ATLASSERT(pVar);
                DISPID dwDispID;
                HRESULT hr = GetIDOfName(lpsz, &dwDispID);
                if (SUCCEEDED(hr))
                        hr = GetProperty(p, dwDispID, pVar);
                return hr;
        }
        HRESULT GetProperty(DISPID dwDispID, VARIANT* pVar)
        {
                ATLASSERT(p);
                return GetProperty(p, dwDispID, pVar);
        }
        HRESULT PutPropertyByName(LPCOLESTR lpsz, VARIANT* pVar)
        {
                ATLASSERT(p);
                ATLASSERT(pVar);
                DISPID dwDispID;
                HRESULT hr = GetIDOfName(lpsz, &dwDispID);
                if (SUCCEEDED(hr))
                        hr = PutProperty(p, dwDispID, pVar);
                return hr;
        }
        HRESULT PutProperty(DISPID dwDispID, VARIANT* pVar)
        {
                ATLASSERT(p);
                return PutProperty(p, dwDispID, pVar);
        }
        HRESULT GetIDOfName(LPCOLESTR lpsz, DISPID* pdispid)
        {
                return p->GetIDsOfNames(IID_NULL, (LPOLESTR*)&lpsz, 1, LOCALE_USER_DEFAULT, pdispid);
        }
        // Invoke a method by DISPID with no parameters
        HRESULT Invoke0(DISPID dispid, VARIANT* pvarRet = NULL)
        {
                DISPPARAMS dispparams = { NULL, NULL, 0, 0};
                return p->Invoke(dispid, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_METHOD, &dispparams, pvarRet, NULL, NULL);
        }
        // Invoke a method by name with no parameters
        HRESULT Invoke0(LPCOLESTR lpszName, VARIANT* pvarRet = NULL)
        {
                HRESULT hr;
                DISPID dispid;
                hr = GetIDOfName(lpszName, &dispid);
                if (SUCCEEDED(hr))
                        hr = Invoke0(dispid, pvarRet);
                return hr;
        }
        // Invoke a method by DISPID with a single parameter
        HRESULT Invoke1(DISPID dispid, VARIANT* pvarParam1, VARIANT* pvarRet = NULL)
        {
                DISPPARAMS dispparams = { pvarParam1, NULL, 1, 0};
                return p->Invoke(dispid, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_METHOD, &dispparams, pvarRet, NULL, NULL);
        }
        // Invoke a method by name with a single parameter
        HRESULT Invoke1(LPCOLESTR lpszName, VARIANT* pvarParam1, VARIANT* pvarRet = NULL)
        {
                HRESULT hr;
                DISPID dispid;
                hr = GetIDOfName(lpszName, &dispid);
                if (SUCCEEDED(hr))
                        hr = Invoke1(dispid, pvarParam1, pvarRet);
                return hr;
        }
        // Invoke a method by DISPID with two parameters
        HRESULT Invoke2(DISPID dispid, VARIANT* pvarParam1, VARIANT* pvarParam2, VARIANT* pvarRet = NULL)
        {
                CComVariant varArgs[2] = { *pvarParam2, *pvarParam1 };
                DISPPARAMS dispparams = { &varArgs[0], NULL, 2, 0};
                return p->Invoke(dispid, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_METHOD, &dispparams, pvarRet, NULL, NULL);
        }
        // Invoke a method by name with two parameters
        HRESULT Invoke2(LPCOLESTR lpszName, VARIANT* pvarParam1, VARIANT* pvarParam2, VARIANT* pvarRet = NULL)
        {
                HRESULT hr;
                DISPID dispid;
                hr = GetIDOfName(lpszName, &dispid);
                if (SUCCEEDED(hr))
                        hr = Invoke2(dispid, pvarParam1, pvarParam2, pvarRet);
                return hr;
        }
        // Invoke a method by DISPID with N parameters
        HRESULT InvokeN(DISPID dispid, VARIANT* pvarParams, int nParams, VARIANT* pvarRet = NULL)
        {
                DISPPARAMS dispparams = { pvarParams, NULL, nParams, 0};
                return p->Invoke(dispid, IID_NULL, LOCALE_USER_DEFAULT, DISPATCH_METHOD, &dispparams, pvarRet, NULL, NULL);
        }
        // Invoke a method by name with Nparameters
        HRESULT InvokeN(LPCOLESTR lpszName, VARIANT* pvarParams, int nParams, VARIANT* pvarRet = NULL)
        {
                HRESULT hr;
                DISPID dispid;
                hr = GetIDOfName(lpszName, &dispid);
                if (SUCCEEDED(hr))
                        hr = InvokeN(dispid, pvarParams, nParams, pvarRet);
                return hr;
        }
        static HRESULT GetProperty(IDispatch* pDisp, DISPID dwDispID,
                VARIANT* pVar)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("CPropertyHelper::GetProperty\n"));
                DISPPARAMS dispparamsNoArgs = {NULL, NULL, 0, 0};
                return pDisp->Invoke(dwDispID, IID_NULL,
                                LOCALE_USER_DEFAULT, DISPATCH_PROPERTYGET,
                                &dispparamsNoArgs, pVar, NULL, NULL);
        }

        static HRESULT PutProperty(IDispatch* pDisp, DISPID dwDispID,
                VARIANT* pVar)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("CPropertyHelper::PutProperty\n"));
                DISPPARAMS dispparams = {NULL, NULL, 1, 1};
                dispparams.rgvarg = pVar;
                DISPID dispidPut = DISPID_PROPERTYPUT;
                dispparams.rgdispidNamedArgs = &dispidPut;

                if (pVar->vt == VT_UNKNOWN || pVar->vt == VT_DISPATCH ||
                        (pVar->vt & VT_ARRAY) || (pVar->vt & VT_BYREF))
                {
                        HRESULT hr = pDisp->Invoke(dwDispID, IID_NULL,
                                LOCALE_USER_DEFAULT, DISPATCH_PROPERTYPUTREF,
                                &dispparams, NULL, NULL, NULL);
                        if (SUCCEEDED(hr))
                                return hr;
                }

                return pDisp->Invoke(dwDispID, IID_NULL,
                                LOCALE_USER_DEFAULT, DISPATCH_PROPERTYPUT,
                                &dispparams, NULL, NULL, NULL);
        }

        IDispatch* p;
};

//////////////////////////////////////////////////////////////////////////////
// CFakeFirePropNotifyEvent
class CFakeFirePropNotifyEvent
{
public:
        static HRESULT FireOnRequestEdit(IUnknown* /*pUnk*/, DISPID /*dispID*/)
        {
                return S_OK;
        }
        static HRESULT FireOnChanged(IUnknown* /*pUnk*/, DISPID /*dispID*/)
        {
                return S_OK;
        }
};
typedef CFakeFirePropNotifyEvent _ATL_PROP_NOTIFY_EVENT_CLASS;

//////////////////////////////////////////////////////////////////////////////
// ATL Persistence

struct ATL_PROPMAP_ENTRY
{
        LPCOLESTR szDesc;
        DISPID dispid;
        const CLSID* pclsidPropPage;
        const IID* piidDispatch;
        size_t dwOffsetData;
        DWORD dwSizeData;
        VARTYPE vt;
};

// This one is DEPRECATED and is used for ATL 2.X controls
// it includes an implicit m_sizeExtent
#define BEGIN_PROPERTY_MAP(theClass) \
        typedef _ATL_PROP_NOTIFY_EVENT_CLASS __ATL_PROP_NOTIFY_EVENT_CLASS; \
        typedef theClass _PropMapClass; \
        static ATL_PROPMAP_ENTRY* GetPropertyMap()\
        {\
                static ATL_PROPMAP_ENTRY pPropMap[] = \
                { \
                        {OLESTR("_cx"), 0, &CLSID_NULL, NULL, offsetof(_PropMapClass, m_sizeExtent.cx), sizeof(long), VT_UI4}, \
                        {OLESTR("_cy"), 0, &CLSID_NULL, NULL, offsetof(_PropMapClass, m_sizeExtent.cy), sizeof(long), VT_UI4},

// This one can be used on any type of object, but does not
// include the implicit m_sizeExtent
#define BEGIN_PROP_MAP(theClass) \
        typedef _ATL_PROP_NOTIFY_EVENT_CLASS __ATL_PROP_NOTIFY_EVENT_CLASS; \
        typedef theClass _PropMapClass; \
        static ATL_PROPMAP_ENTRY* GetPropertyMap()\
        {\
                static ATL_PROPMAP_ENTRY pPropMap[] = \
                {

#define PROP_ENTRY(szDesc, dispid, clsid) \
                {OLESTR(szDesc), dispid, &clsid, &IID_IDispatch, 0, 0, 0},

#define PROP_ENTRY_EX(szDesc, dispid, clsid, iidDispatch) \
                {OLESTR(szDesc), dispid, &clsid, &iidDispatch, 0, 0, 0},

#define PROP_PAGE(clsid) \
                {NULL, NULL, &clsid, &IID_NULL, 0, 0, 0},

#define PROP_DATA_ENTRY(szDesc, member, vt) \
                {OLESTR(szDesc), 0, &CLSID_NULL, NULL, offsetof(_PropMapClass, member), sizeof(((_PropMapClass*)0)->member), vt},

#define END_PROPERTY_MAP() \
                        {NULL, 0, NULL, &IID_NULL, 0, 0, 0} \
                }; \
                return pPropMap; \
        }

#define END_PROP_MAP() \
                        {NULL, 0, NULL, &IID_NULL, 0, 0, 0} \
                }; \
                return pPropMap; \
        }


#ifdef _ATL_DLL
ATLAPI AtlIPersistStreamInit_Load(LPSTREAM pStm, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk);
#else
ATLINLINE ATLAPI AtlIPersistStreamInit_Load(LPSTREAM pStm, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk)
{
        ATLASSERT(pMap != NULL);
        HRESULT hr = S_OK;
        DWORD dwVer;
        hr = pStm->Read(&dwVer, sizeof(DWORD), NULL);
        if (FAILED(hr))
                return hr;
        if (dwVer > _ATL_VER)
                return E_FAIL;

        CComPtr<IDispatch> pDispatch;
        const IID* piidOld = NULL;
        for (int i = 0; pMap[i].pclsidPropPage != NULL; i++)
        {
                if (pMap[i].szDesc == NULL)
                        continue;

                // check if raw data entry
                if (pMap[i].dwSizeData != 0)
                {
                        void* pData = (void*) (pMap[i].dwOffsetData + (DWORD_PTR)pThis);
                        hr = pStm->Read(pData, pMap[i].dwSizeData, NULL);
                        if (FAILED(hr))
                                return hr;
                        continue;
                }

                CComVariant var;

                hr = var.ReadFromStream(pStm);
                if (FAILED(hr))
                        break;

                if (pMap[i].piidDispatch != piidOld)
                {
                        pDispatch.Release();
                        if (FAILED(pUnk->QueryInterface(*pMap[i].piidDispatch, (void**)&pDispatch)))
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Failed to get a dispatch pointer for property #%i\n"), i);
                                hr = E_FAIL;
                                break;
                        }
                        piidOld = pMap[i].piidDispatch;
                }

                if (FAILED(CComDispatchDriver::PutProperty(pDispatch, pMap[i].dispid, &var)))
                {
                        ATLTRACE2(atlTraceCOM, 0, _T("Invoked failed on DISPID %x\n"), pMap[i].dispid);
                        hr = E_FAIL;
                        break;
                }
        }
        return hr;
}
#endif //_ATL_DLL

#ifdef _ATL_DLL
ATLAPI AtlIPersistStreamInit_Save(LPSTREAM pStm, BOOL fClearDirty, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk);
#else
ATLINLINE ATLAPI AtlIPersistStreamInit_Save(LPSTREAM pStm,
        BOOL /* fClearDirty */, ATL_PROPMAP_ENTRY* pMap,
        void* pThis, IUnknown* pUnk)
{
        ATLASSERT(pMap != NULL);
        DWORD dw = _ATL_VER;
        HRESULT hr = pStm->Write(&dw, sizeof(DWORD), NULL);
        if (FAILED(hr))
                return hr;

        CComPtr<IDispatch> pDispatch;
        const IID* piidOld = NULL;
        for (int i = 0; pMap[i].pclsidPropPage != NULL; i++)
        {
                if (pMap[i].szDesc == NULL)
                        continue;

                // check if raw data entry
                if (pMap[i].dwSizeData != 0)
                {
                        void* pData = (void*) (pMap[i].dwOffsetData + (DWORD_PTR)pThis);
                        hr = pStm->Write(pData, pMap[i].dwSizeData, NULL);
                        if (FAILED(hr))
                                return hr;
                        continue;
                }

                CComVariant var;
                if (pMap[i].piidDispatch != piidOld)
                {
                        pDispatch.Release();
                        if (FAILED(pUnk->QueryInterface(*pMap[i].piidDispatch, (void**)&pDispatch)))
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Failed to get a dispatch pointer for property #%i\n"), i);
                                hr = E_FAIL;
                                break;
                        }
                        piidOld = pMap[i].piidDispatch;
                }

                if (FAILED(CComDispatchDriver::GetProperty(pDispatch, pMap[i].dispid, &var)))
                {
                        ATLTRACE2(atlTraceCOM, 0, _T("Invoked failed on DISPID %x\n"), pMap[i].dispid);
                        hr = E_FAIL;
                        break;
                }

                hr = var.WriteToStream(pStm);
                if (FAILED(hr))
                        break;
        }
        return hr;
}
#endif //_ATL_DLL


#ifdef _ATL_DLL
ATLAPI AtlIPersistPropertyBag_Load(LPPROPERTYBAG pPropBag, LPERRORLOG pErrorLog, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk);
#else
ATLINLINE ATLAPI AtlIPersistPropertyBag_Load(LPPROPERTYBAG pPropBag, LPERRORLOG pErrorLog, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk)
{
        USES_CONVERSION;
        CComPtr<IDispatch> pDispatch;
        const IID* piidOld = NULL;
        for (int i = 0; pMap[i].pclsidPropPage != NULL; i++)
        {
                if (pMap[i].szDesc == NULL)
                        continue;

                CComVariant var;
                var.vt = pMap[i].vt;
                // If raw entry skip it - we don't handle it for property bags just yet
                if (pMap[i].dwSizeData != 0)
                {
                        void* pData = (void*) (pMap[i].dwOffsetData + (DWORD_PTR)pThis);
                        HRESULT hr = pPropBag->Read(pMap[i].szDesc, &var, pErrorLog);
                        if (SUCCEEDED(hr))
                        {
                                // check the type - we only deal with limited set
                                switch (pMap[i].vt)
                                {
                                case VT_UI1:
                                case VT_I1:
                                        *((BYTE*)pData) = var.bVal;
                                        break;
                                case VT_BOOL:
                                        *((VARIANT_BOOL*)pData) = var.boolVal;
                                        break;
                                case VT_UI2:
                                        *((short*)pData) = var.iVal;
                                        break;
                                case VT_UI4:
                                case VT_INT:
                                case VT_UINT:
                                        *((long*)pData) = var.lVal;
                                        break;
                                }
                        }
                        continue;
                }

                if (pMap[i].piidDispatch != piidOld)
                {
                        pDispatch.Release();
                        if (FAILED(pUnk->QueryInterface(*pMap[i].piidDispatch, (void**)&pDispatch)))
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Failed to get a dispatch pointer for property #%i\n"), i);
                                return E_FAIL;
                        }
                        piidOld = pMap[i].piidDispatch;
                }

                if (FAILED(CComDispatchDriver::GetProperty(pDispatch, pMap[i].dispid, &var)))
                {
                        ATLTRACE2(atlTraceCOM, 0, _T("Invoked failed on DISPID %x\n"), pMap[i].dispid);
                        return E_FAIL;
                }

                HRESULT hr = pPropBag->Read(pMap[i].szDesc, &var, pErrorLog);
                if (FAILED(hr))
                {
                        if (hr == E_INVALIDARG)
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Property %s not in Bag\n"), OLE2CT(pMap[i].szDesc));
                        }
                        else
                        {
                                // Many containers return different ERROR values for Member not found
                                ATLTRACE2(atlTraceCOM, 0, _T("Error attempting to read Property %s from PropertyBag \n"), OLE2CT(pMap[i].szDesc));
                        }
                        continue;
                }

                if (FAILED(CComDispatchDriver::PutProperty(pDispatch, pMap[i].dispid, &var)))
                {
                        ATLTRACE2(atlTraceCOM, 0, _T("Invoked failed on DISPID %x\n"), pMap[i].dispid);
                        return E_FAIL;
                }
        }
        return S_OK;
}
#endif //_ATL_DLL

#ifdef _ATL_DLL
ATLAPI AtlIPersistPropertyBag_Save(LPPROPERTYBAG pPropBag, BOOL fClearDirty, BOOL fSaveAllProperties, ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk);
#else
ATLINLINE ATLAPI AtlIPersistPropertyBag_Save(LPPROPERTYBAG pPropBag,
        BOOL /* fClearDirty */, BOOL /* fSaveAllProperties */,
        ATL_PROPMAP_ENTRY* pMap, void* pThis, IUnknown* pUnk)
{
        if (pPropBag == NULL)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("PropBag pointer passed in was invalid\n"));
                return E_POINTER;
        }

        CComPtr<IDispatch> pDispatch;
        const IID* piidOld = NULL;
        for (int i = 0; pMap[i].pclsidPropPage != NULL; i++)
        {
                if (pMap[i].szDesc == NULL)
                        continue;

                CComVariant var;

                // If raw entry skip it - we don't handle it for property bags just yet
                if (pMap[i].dwSizeData != 0)
                {
                        void* pData = (void*) (pMap[i].dwOffsetData + (DWORD_PTR)pThis);
                        // check the type - we only deal with limited set
                        bool bTypeOK = false;
                        switch (pMap[i].vt)
                        {
                        case VT_UI1:
                        case VT_I1:
                                var.bVal = *((BYTE*)pData);
                                bTypeOK = true;
                                break;
                        case VT_BOOL:
                                var.boolVal = *((VARIANT_BOOL*)pData);
                                bTypeOK = true;
                                break;
                        case VT_UI2:
                                var.iVal = *((short*)pData);
                                bTypeOK = true;
                                break;
                        case VT_UI4:
                        case VT_INT:
                        case VT_UINT:
                                var.lVal = *((long*)pData);
                                bTypeOK = true;
                                break;
                        }
                        if (bTypeOK)
                        {
                                var.vt = pMap[i].vt;
                                HRESULT hr = pPropBag->Write(pMap[i].szDesc, &var);
                                if (FAILED(hr))
                                        return hr;
                        }
                        continue;
                }

                if (pMap[i].piidDispatch != piidOld)
                {
                        pDispatch.Release();
                        if (FAILED(pUnk->QueryInterface(*pMap[i].piidDispatch, (void**)&pDispatch)))
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Failed to get a dispatch pointer for property #%i\n"), i);
                                return E_FAIL;
                        }
                        piidOld = pMap[i].piidDispatch;
                }

                if (FAILED(CComDispatchDriver::GetProperty(pDispatch, pMap[i].dispid, &var)))
                {
                        ATLTRACE2(atlTraceCOM, 0, _T("Invoked failed on DISPID %x\n"), pMap[i].dispid);
                        return E_FAIL;
                }

                if (var.vt == VT_UNKNOWN || var.vt == VT_DISPATCH)
                {
                        if (var.punkVal == NULL)
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("Warning skipping empty IUnknown in Save\n"));
                                continue;
                        }
                }

                HRESULT hr = pPropBag->Write(pMap[i].szDesc, &var);
                if (FAILED(hr))
                        return hr;
        }
        return S_OK;
}
#endif //_ATL_DLL


//////////////////////////////////////////////////////////////////////////////
// IPersistStreamInitImpl
template <class T>
class ATL_NO_VTABLE IPersistStreamInitImpl : public IPersistStreamInit
{
public:
        // IPersist
        STDMETHOD(GetClassID)(CLSID *pClassID)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStreamInitImpl::GetClassID\n"));
                *pClassID = T::GetObjectCLSID();
                return S_OK;
        }

        // IPersistStream
        STDMETHOD(IsDirty)()
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStreamInitImpl::IsDirty\n"));
                T* pT = static_cast<T*>(this);
                return (pT->m_bRequiresSave) ? S_OK : S_FALSE;
        }
        STDMETHOD(Load)(LPSTREAM pStm)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStreamInitImpl::Load\n"));
                T* pT = static_cast<T*>(this);
                return pT->IPersistStreamInit_Load(pStm, T::GetPropertyMap());
        }
        STDMETHOD(Save)(LPSTREAM pStm, BOOL fClearDirty)
        {
                T* pT = static_cast<T*>(this);
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStreamInitImpl::Save\n"));
                return pT->IPersistStreamInit_Save(pStm, fClearDirty, T::GetPropertyMap());
        }
        STDMETHOD(GetSizeMax)(ULARGE_INTEGER FAR* /* pcbSize */)
        {
                ATLTRACENOTIMPL(_T("IPersistStreamInitImpl::GetSizeMax"));
        }

        // IPersistStreamInit
        STDMETHOD(InitNew)()
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStreamInitImpl::InitNew\n"));
                return S_OK;
        }

        HRESULT IPersistStreamInit_Load(LPSTREAM pStm, ATL_PROPMAP_ENTRY* pMap)
        {
                T* pT = static_cast<T*>(this);
                HRESULT hr = AtlIPersistStreamInit_Load(pStm, pMap, pT, pT->GetUnknown());
                if (SUCCEEDED(hr))
                        pT->m_bRequiresSave = FALSE;
                return hr;

        }
        HRESULT IPersistStreamInit_Save(LPSTREAM pStm, BOOL fClearDirty, ATL_PROPMAP_ENTRY* pMap)
        {
                T* pT = static_cast<T*>(this);
                return AtlIPersistStreamInit_Save(pStm, fClearDirty, pMap, pT, pT->GetUnknown());
        }
};

//////////////////////////////////////////////////////////////////////////////
// IPersistStorageImpl
template <class T>
class ATL_NO_VTABLE IPersistStorageImpl : public IPersistStorage
{
public:
        // IPersist
        STDMETHOD(GetClassID)(CLSID *pClassID)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::GetClassID\n"));
                *pClassID = T::GetObjectCLSID();
                return S_OK;
        }

        // IPersistStorage
        STDMETHOD(IsDirty)(void)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::IsDirty\n"));
                CComPtr<IPersistStreamInit> p;
                p.p = IPSI_GetIPersistStreamInit();
                return (p != NULL) ? p->IsDirty() : E_FAIL;
        }
        STDMETHOD(InitNew)(IStorage*)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::InitNew\n"));
                CComPtr<IPersistStreamInit> p;
                p.p = IPSI_GetIPersistStreamInit();
                return (p != NULL) ? p->InitNew() : E_FAIL;
        }
        STDMETHOD(Load)(IStorage* pStorage)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::Load\n"));
                CComPtr<IPersistStreamInit> p;
                p.p = IPSI_GetIPersistStreamInit();
                HRESULT hr = E_FAIL;
                if (p != NULL)
                {
                        CComPtr<IStream> spStream;
                        hr = pStorage->OpenStream(OLESTR("Contents"), NULL,
                                STGM_DIRECT | STGM_SHARE_EXCLUSIVE, 0, &spStream);
                        if (SUCCEEDED(hr))
                                hr = p->Load(spStream);
                }
                return hr;
        }
        STDMETHOD(Save)(IStorage* pStorage, BOOL fSameAsLoad)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::Save\n"));
                CComPtr<IPersistStreamInit> p;
                p.p = IPSI_GetIPersistStreamInit();
                HRESULT hr = E_FAIL;
                if (p != NULL)
                {
                        CComPtr<IStream> spStream;
                        static LPCOLESTR vszContents = OLESTR("Contents");
                        hr = pStorage->CreateStream(vszContents,
                                STGM_READWRITE | STGM_SHARE_EXCLUSIVE | STGM_CREATE,
                                0, 0, &spStream);
                        if (SUCCEEDED(hr))
                                hr = p->Save(spStream, fSameAsLoad);
                }
                return hr;
        }
        STDMETHOD(SaveCompleted)(IStorage* /* pStorage */)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::SaveCompleted\n"));
                return S_OK;
        }
        STDMETHOD(HandsOffStorage)(void)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistStorageImpl::HandsOffStorage\n"));
                return S_OK;
        }
private:
        IPersistStreamInit* IPSI_GetIPersistStreamInit();
};

template <class T>
IPersistStreamInit* IPersistStorageImpl<T>::IPSI_GetIPersistStreamInit()
{
        T* pT = static_cast<T*>(this);
        IPersistStreamInit* p;
        if (FAILED(pT->GetUnknown()->QueryInterface(IID_IPersistStreamInit, (void**)&p)))
                pT->_InternalQueryInterface(IID_IPersistStreamInit, (void**)&p);
        return p;
}


//////////////////////////////////////////////////////////////////////////////
// IPersistPropertyBagImpl
template <class T>
class ATL_NO_VTABLE IPersistPropertyBagImpl : public IPersistPropertyBag
{
public:
        // IPersist
        STDMETHOD(GetClassID)(CLSID *pClassID)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistPropertyBagImpl::GetClassID\n"));
                *pClassID = T::GetObjectCLSID();
                return S_OK;
        }

        // IPersistPropertyBag
        //
        STDMETHOD(InitNew)()
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistPropertyBagImpl::InitNew\n"));
                return S_OK;
        }
        STDMETHOD(Load)(LPPROPERTYBAG pPropBag, LPERRORLOG pErrorLog)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistPropertyBagImpl::Load\n"));
                T* pT = static_cast<T*>(this);
                ATL_PROPMAP_ENTRY* pMap = T::GetPropertyMap();
                ATLASSERT(pMap != NULL);
                return pT->IPersistPropertyBag_Load(pPropBag, pErrorLog, pMap);
        }
        STDMETHOD(Save)(LPPROPERTYBAG pPropBag, BOOL fClearDirty, BOOL fSaveAllProperties)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IPersistPropertyBagImpl::Save\n"));
                T* pT = static_cast<T*>(this);
                ATL_PROPMAP_ENTRY* pMap = T::GetPropertyMap();
                ATLASSERT(pMap != NULL);
                return pT->IPersistPropertyBag_Save(pPropBag, fClearDirty, fSaveAllProperties, pMap);
        }
        HRESULT IPersistPropertyBag_Load(LPPROPERTYBAG pPropBag, LPERRORLOG pErrorLog, ATL_PROPMAP_ENTRY* pMap)
        {
                T* pT = static_cast<T*>(this);
                HRESULT hr = AtlIPersistPropertyBag_Load(pPropBag, pErrorLog, pMap, pT, pT->GetUnknown());
                if (SUCCEEDED(hr))
                        pT->m_bRequiresSave = FALSE;
                return hr;
        }
        HRESULT IPersistPropertyBag_Save(LPPROPERTYBAG pPropBag, BOOL fClearDirty, BOOL fSaveAllProperties, ATL_PROPMAP_ENTRY* pMap)
        {
                T* pT = static_cast<T*>(this);
                return AtlIPersistPropertyBag_Save(pPropBag, fClearDirty, fSaveAllProperties, pMap, pT, pT->GetUnknown());
        }
};

//////////////////////////////////////////////////////////////////////////////
// CSecurityDescriptor
class CSecurityDescriptor
{
public:
        CSecurityDescriptor();
        ~CSecurityDescriptor();

public:
        HRESULT Attach(PSECURITY_DESCRIPTOR pSelfRelativeSD);
        HRESULT AttachObject(HANDLE hObject);
        HRESULT Initialize();
        HRESULT InitializeFromProcessToken(BOOL bDefaulted = FALSE);
        HRESULT InitializeFromThreadToken(BOOL bDefaulted = FALSE, BOOL bRevertToProcessToken = TRUE);
        HRESULT SetOwner(PSID pOwnerSid, BOOL bDefaulted = FALSE);
        HRESULT SetGroup(PSID pGroupSid, BOOL bDefaulted = FALSE);
        HRESULT Allow(LPCTSTR pszPrincipal, DWORD dwAccessMask);
        HRESULT Deny(LPCTSTR pszPrincipal, DWORD dwAccessMask);
        HRESULT Revoke(LPCTSTR pszPrincipal);

        // utility functions
        // Any PSID you get from these functions should be free()ed
        static HRESULT SetPrivilege(LPCTSTR Privilege, BOOL bEnable = TRUE, HANDLE hToken = NULL);
        static HRESULT GetTokenSids(HANDLE hToken, PSID* ppUserSid, PSID* ppGroupSid);
        static HRESULT GetProcessSids(PSID* ppUserSid, PSID* ppGroupSid = NULL);
        static HRESULT GetThreadSids(PSID* ppUserSid, PSID* ppGroupSid = NULL, BOOL bOpenAsSelf = FALSE);
        static HRESULT CopyACL(PACL pDest, PACL pSrc);
        static HRESULT GetCurrentUserSID(PSID *ppSid);
        static HRESULT GetPrincipalSID(LPCTSTR pszPrincipal, PSID *ppSid);
        static HRESULT AddAccessAllowedACEToACL(PACL *Acl, LPCTSTR pszPrincipal, DWORD dwAccessMask);
        static HRESULT AddAccessDeniedACEToACL(PACL *Acl, LPCTSTR pszPrincipal, DWORD dwAccessMask);
        static HRESULT RemovePrincipalFromACL(PACL Acl, LPCTSTR pszPrincipal);

        operator PSECURITY_DESCRIPTOR()
        {
                return m_pSD;
        }

public:
        PSECURITY_DESCRIPTOR m_pSD;
        PSID m_pOwner;
        PSID m_pGroup;
        PACL m_pDACL;
        PACL m_pSACL;
};

inline CSecurityDescriptor::CSecurityDescriptor()
{
        m_pSD = NULL;
        m_pOwner = NULL;
        m_pGroup = NULL;
        m_pDACL = NULL;
        m_pSACL= NULL;
}

inline CSecurityDescriptor::~CSecurityDescriptor()
{
        if (m_pSD)
                delete m_pSD;
        if (m_pOwner)
                free(m_pOwner);
        if (m_pGroup)
                free(m_pGroup);
        if (m_pDACL)
                free(m_pDACL);
        if (m_pSACL)
                free(m_pSACL);
}

inline HRESULT CSecurityDescriptor::Initialize()
{
        if (m_pSD)
        {
                delete m_pSD;
                m_pSD = NULL;
        }
        if (m_pOwner)
        {
                free(m_pOwner);
                m_pOwner = NULL;
        }
        if (m_pGroup)
        {
                free(m_pGroup);
                m_pGroup = NULL;
        }
        if (m_pDACL)
        {
                free(m_pDACL);
                m_pDACL = NULL;
        }
        if (m_pSACL)
        {
                free(m_pSACL);
                m_pSACL = NULL;
        }

        ATLTRY(m_pSD = new SECURITY_DESCRIPTOR);
        if (m_pSD == NULL)
                return E_OUTOFMEMORY;

        if (!InitializeSecurityDescriptor(m_pSD, SECURITY_DESCRIPTOR_REVISION))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                delete m_pSD;
                m_pSD = NULL;
                ATLASSERT(FALSE);
                return hr;
        }
        // Set the DACL to allow EVERYONE
        SetSecurityDescriptorDacl(m_pSD, TRUE, NULL, FALSE);
        return S_OK;
}

inline HRESULT CSecurityDescriptor::InitializeFromProcessToken(BOOL bDefaulted)
{
        PSID pUserSid = NULL;
        PSID pGroupSid = NULL;
        HRESULT hr;

        Initialize();
        hr = GetProcessSids(&pUserSid, &pGroupSid);
        if (SUCCEEDED(hr))
        {
                hr = SetOwner(pUserSid, bDefaulted);
                if (SUCCEEDED(hr))
                        hr = SetGroup(pGroupSid, bDefaulted);
        }
        if (pUserSid != NULL)
                free(pUserSid);
        if (pGroupSid != NULL)
                free(pGroupSid);
        return hr;
}

inline HRESULT CSecurityDescriptor::InitializeFromThreadToken(BOOL bDefaulted, BOOL bRevertToProcessToken)
{
        PSID pUserSid = NULL;
        PSID pGroupSid = NULL;
        HRESULT hr;

        Initialize();
        hr = GetThreadSids(&pUserSid, &pGroupSid);
        if (HRESULT_CODE(hr) == ERROR_NO_TOKEN && bRevertToProcessToken)
                hr = GetProcessSids(&pUserSid, &pGroupSid);
        if (SUCCEEDED(hr))
        {
                hr = SetOwner(pUserSid, bDefaulted);
                if (SUCCEEDED(hr))
                        hr = SetGroup(pGroupSid, bDefaulted);
        }
        if (pUserSid != NULL)
                free(pUserSid);
        if (pGroupSid != NULL)
                free(pGroupSid);
        return hr;
}

inline HRESULT CSecurityDescriptor::SetOwner(PSID pOwnerSid, BOOL bDefaulted)
{
        ATLASSERT(m_pSD);

        // Mark the SD as having no owner
        if (!SetSecurityDescriptorOwner(m_pSD, NULL, bDefaulted))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                return hr;
        }

        if (m_pOwner)
        {
                free(m_pOwner);
                m_pOwner = NULL;
        }

        // If they asked for no owner don't do the copy
        if (pOwnerSid == NULL)
                return S_OK;

        // Make a copy of the Sid for the return value
        DWORD dwSize = GetLengthSid(pOwnerSid);

        m_pOwner = (PSID) malloc(dwSize);
        if (m_pOwner == NULL)
                return E_OUTOFMEMORY;
        if (!CopySid(dwSize, m_pOwner, pOwnerSid))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                free(m_pOwner);
                m_pOwner = NULL;
                return hr;
        }

        ATLASSERT(IsValidSid(m_pOwner));

        if (!SetSecurityDescriptorOwner(m_pSD, m_pOwner, bDefaulted))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                free(m_pOwner);
                m_pOwner = NULL;
                return hr;
        }

        return S_OK;
}

inline HRESULT CSecurityDescriptor::SetGroup(PSID pGroupSid, BOOL bDefaulted)
{
        ATLASSERT(m_pSD);

        // Mark the SD as having no Group
        if (!SetSecurityDescriptorGroup(m_pSD, NULL, bDefaulted))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                return hr;
        }

        if (m_pGroup)
        {
                free(m_pGroup);
                m_pGroup = NULL;
        }

        // If they asked for no Group don't do the copy
        if (pGroupSid == NULL)
                return S_OK;

        // Make a copy of the Sid for the return value
        DWORD dwSize = GetLengthSid(pGroupSid);

        m_pGroup = (PSID) malloc(dwSize);
        if (m_pGroup == NULL)
                return E_OUTOFMEMORY;
        if (!CopySid(dwSize, m_pGroup, pGroupSid))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                free(m_pGroup);
                m_pGroup = NULL;
                return hr;
        }

        ATLASSERT(IsValidSid(m_pGroup));

        if (!SetSecurityDescriptorGroup(m_pSD, m_pGroup, bDefaulted))
        {
                HRESULT hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                free(m_pGroup);
                m_pGroup = NULL;
                return hr;
        }

        return S_OK;
}

inline HRESULT CSecurityDescriptor::Allow(LPCTSTR pszPrincipal, DWORD dwAccessMask)
{
        HRESULT hr = AddAccessAllowedACEToACL(&m_pDACL, pszPrincipal, dwAccessMask);
        if (SUCCEEDED(hr))
                SetSecurityDescriptorDacl(m_pSD, TRUE, m_pDACL, FALSE);
        return hr;
}

inline HRESULT CSecurityDescriptor::Deny(LPCTSTR pszPrincipal, DWORD dwAccessMask)
{
        HRESULT hr = AddAccessDeniedACEToACL(&m_pDACL, pszPrincipal, dwAccessMask);
        if (SUCCEEDED(hr))
                SetSecurityDescriptorDacl(m_pSD, TRUE, m_pDACL, FALSE);
        return hr;
}

inline HRESULT CSecurityDescriptor::Revoke(LPCTSTR pszPrincipal)
{
        HRESULT hr = RemovePrincipalFromACL(m_pDACL, pszPrincipal);
        if (SUCCEEDED(hr))
                SetSecurityDescriptorDacl(m_pSD, TRUE, m_pDACL, FALSE);
        return hr;
}

inline HRESULT CSecurityDescriptor::GetProcessSids(PSID* ppUserSid, PSID* ppGroupSid)
{
        BOOL bRes;
        HRESULT hr;
        HANDLE hToken = NULL;
        if (ppUserSid)
                *ppUserSid = NULL;
        if (ppGroupSid)
                *ppGroupSid = NULL;
        bRes = OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &hToken);
        if (!bRes)
        {
                // Couldn't open process token
                hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                return hr;
        }
        hr = GetTokenSids(hToken, ppUserSid, ppGroupSid);
        CloseHandle(hToken);
        return hr;
}

inline HRESULT CSecurityDescriptor::GetThreadSids(PSID* ppUserSid, PSID* ppGroupSid, BOOL bOpenAsSelf)
{
        BOOL bRes;
        HRESULT hr;
        HANDLE hToken = NULL;
        if (ppUserSid)
                *ppUserSid = NULL;
        if (ppGroupSid)
                *ppGroupSid = NULL;
        bRes = OpenThreadToken(GetCurrentThread(), TOKEN_QUERY, bOpenAsSelf, &hToken);
        if (!bRes)
        {
                // Couldn't open thread token
                hr = HRESULT_FROM_WIN32(GetLastError());
                return hr;
        }
        hr = GetTokenSids(hToken, ppUserSid, ppGroupSid);
        CloseHandle(hToken);
        return hr;
}

inline HRESULT CSecurityDescriptor::GetTokenSids(HANDLE hToken, PSID* ppUserSid, PSID* ppGroupSid)
{
        DWORD dwSize;
        HRESULT hr;
        PTOKEN_USER ptkUser = NULL;
        PTOKEN_PRIMARY_GROUP ptkGroup = NULL;

        if (ppUserSid)
                *ppUserSid = NULL;
        if (ppGroupSid)
                *ppGroupSid = NULL;

        if (ppUserSid)
        {
                // Get length required for TokenUser by specifying buffer length of 0
                GetTokenInformation(hToken, TokenUser, NULL, 0, &dwSize);
                hr = GetLastError();
                if (hr != ERROR_INSUFFICIENT_BUFFER)
                {
                        // Expected ERROR_INSUFFICIENT_BUFFER
                        ATLASSERT(FALSE);
                        hr = HRESULT_FROM_WIN32(hr);
                        goto failed;
                }

                ptkUser = (TOKEN_USER*) malloc(dwSize);
                if (ptkUser == NULL)
                {
                        hr = E_OUTOFMEMORY;
                        goto failed;
                }
                // Get Sid of process token.
                if (!GetTokenInformation(hToken, TokenUser, ptkUser, dwSize, &dwSize))
                {
                        // Couldn't get user info
                        hr = HRESULT_FROM_WIN32(GetLastError());
                        ATLASSERT(FALSE);
                        goto failed;
                }

                // Make a copy of the Sid for the return value
                dwSize = GetLengthSid(ptkUser->User.Sid);

                PSID pSid;
                pSid = (PSID) malloc(dwSize);
                if (pSid == NULL)
                {
                        hr = E_OUTOFMEMORY;
                        goto failed;
                }
                if (!CopySid(dwSize, pSid, ptkUser->User.Sid))
                {
                        hr = HRESULT_FROM_WIN32(GetLastError());
                        ATLASSERT(FALSE);
                        goto failed;
                }

                ATLASSERT(IsValidSid(pSid));
                *ppUserSid = pSid;
                free(ptkUser);
                ptkUser = NULL;
        }
        if (ppGroupSid)
        {
                // Get length required for TokenPrimaryGroup by specifying buffer length of 0
                GetTokenInformation(hToken, TokenPrimaryGroup, NULL, 0, &dwSize);
                hr = GetLastError();
                if (hr != ERROR_INSUFFICIENT_BUFFER)
                {
                        // Expected ERROR_INSUFFICIENT_BUFFER
                        ATLASSERT(FALSE);
                        hr = HRESULT_FROM_WIN32(hr);
                        goto failed;
                }

                ptkGroup = (TOKEN_PRIMARY_GROUP*) malloc(dwSize);
                if (ptkGroup == NULL)
                {
                        hr = E_OUTOFMEMORY;
                        goto failed;
                }
                // Get Sid of process token.
                if (!GetTokenInformation(hToken, TokenPrimaryGroup, ptkGroup, dwSize, &dwSize))
                {
                        // Couldn't get user info
                        hr = HRESULT_FROM_WIN32(GetLastError());
                        ATLASSERT(FALSE);
                        goto failed;
                }

                // Make a copy of the Sid for the return value
                dwSize = GetLengthSid(ptkGroup->PrimaryGroup);

                PSID pSid;
                pSid = (PSID) malloc(dwSize);
                if (pSid == NULL)
                {
                        hr = E_OUTOFMEMORY;
                        goto failed;
                }
                if (!CopySid(dwSize, pSid, ptkGroup->PrimaryGroup))
                {
                        hr = HRESULT_FROM_WIN32(GetLastError());
                        ATLASSERT(FALSE);
                        goto failed;
                }

                ATLASSERT(IsValidSid(pSid));

                *ppGroupSid = pSid;
                free(ptkGroup);
                ptkGroup = NULL;
        }

        return S_OK;

failed:
        if (ptkUser)
                free(ptkUser);
        if (ptkGroup)
                free (ptkGroup);
        return hr;
}


inline HRESULT CSecurityDescriptor::GetCurrentUserSID(PSID *ppSid)
{
        HANDLE tkHandle;

        if (OpenProcessToken(GetCurrentProcess(), TOKEN_QUERY, &tkHandle))
        {
                TOKEN_USER *tkUser;
                DWORD tkSize;
                DWORD sidLength;

                // Call to get size information for alloc
                GetTokenInformation(tkHandle, TokenUser, NULL, 0, &tkSize);
                tkUser = (TOKEN_USER *) malloc(tkSize);
                if (tkUser == NULL)
                        return E_OUTOFMEMORY;

                // Now make the real call
                if (GetTokenInformation(tkHandle, TokenUser, tkUser, tkSize, &tkSize))
                {
                        sidLength = GetLengthSid(tkUser->User.Sid);
                        *ppSid = (PSID) malloc(sidLength);
                        if (*ppSid == NULL)
                                return E_OUTOFMEMORY;

                        memcpy(*ppSid, tkUser->User.Sid, sidLength);
                        CloseHandle(tkHandle);

                        free(tkUser);
                        return S_OK;
                }
                else
                {
                        free(tkUser);
                        return HRESULT_FROM_WIN32(GetLastError());
                }
        }
        return HRESULT_FROM_WIN32(GetLastError());
}


inline HRESULT CSecurityDescriptor::GetPrincipalSID(LPCTSTR pszPrincipal, PSID *ppSid)
{
        HRESULT hr;
        LPTSTR pszRefDomain = NULL;
        DWORD dwDomainSize = 0;
        DWORD dwSidSize = 0;
        SID_NAME_USE snu;

        // Call to get size info for alloc
        LookupAccountName(NULL, pszPrincipal, *ppSid, &dwSidSize, pszRefDomain, &dwDomainSize, &snu);

        hr = GetLastError();
        if (hr != ERROR_INSUFFICIENT_BUFFER)
                return HRESULT_FROM_WIN32(hr);

        ATLTRY(pszRefDomain = new TCHAR[dwDomainSize]);
        if (pszRefDomain == NULL)
                return E_OUTOFMEMORY;

        *ppSid = (PSID) malloc(dwSidSize);
        if (*ppSid != NULL)
        {
                if (!LookupAccountName(NULL, pszPrincipal, *ppSid, &dwSidSize, pszRefDomain, &dwDomainSize, &snu))
                {
                        free(*ppSid);
                        *ppSid = NULL;
                        delete[] pszRefDomain;
                        return HRESULT_FROM_WIN32(GetLastError());
                }
                delete[] pszRefDomain;
                return S_OK;
        }
        delete[] pszRefDomain;
        return E_OUTOFMEMORY;
}


inline HRESULT CSecurityDescriptor::Attach(PSECURITY_DESCRIPTOR pSelfRelativeSD)
{
        PACL    pDACL = NULL;
        PACL    pSACL = NULL;
        BOOL    bDACLPresent, bSACLPresent;
        BOOL    bDefaulted;
        PACL    m_pDACL = NULL;
        ACCESS_ALLOWED_ACE* pACE;
        HRESULT hr;
        PSID    pUserSid;
        PSID    pGroupSid;

        hr = Initialize();
        if(FAILED(hr))
                return hr;

        // get the existing DACL.
        if (!GetSecurityDescriptorDacl(pSelfRelativeSD, &bDACLPresent, &pDACL, &bDefaulted))
                goto failed;

        if (bDACLPresent)
        {
                if (pDACL)
                {
                        // allocate new DACL.
                        m_pDACL = (PACL) malloc(pDACL->AclSize);
                        if (m_pDACL == NULL)
                        {
                                hr = E_OUTOFMEMORY;
                                goto failedMemory;
                        }

                        // initialize the DACL
                        if (!InitializeAcl(m_pDACL, pDACL->AclSize, ACL_REVISION))
                                goto failed;

                        // copy the ACES
                        for (int i = 0; i < pDACL->AceCount; i++)
                        {
                                if (!GetAce(pDACL, i, (void **)&pACE))
                                        goto failed;

                                if (!AddAccessAllowedAce(m_pDACL, ACL_REVISION, pACE->Mask, (PSID)&(pACE->SidStart)))
                                        goto failed;
                        }

                        if (!IsValidAcl(m_pDACL))
                                goto failed;
                }

                // set the DACL
                if (!SetSecurityDescriptorDacl(m_pSD, m_pDACL ? TRUE : FALSE, m_pDACL, bDefaulted))
                        goto failed;
        }

        // get the existing SACL.
        if (!GetSecurityDescriptorSacl(pSelfRelativeSD, &bSACLPresent, &pSACL, &bDefaulted))
                goto failed;

        if (bSACLPresent)
        {
                if (pSACL)
                {
                        // allocate new SACL.
                        m_pSACL = (PACL) malloc(pSACL->AclSize);
                        if (m_pSACL == NULL)
                        {
                                hr = E_OUTOFMEMORY;
                                goto failedMemory;
                        }

                        // initialize the SACL
                        if (!InitializeAcl(m_pSACL, pSACL->AclSize, ACL_REVISION))
                                goto failed;

                        // copy the ACES
                        for (int i = 0; i < pSACL->AceCount; i++)
                        {
                                if (!GetAce(pSACL, i, (void **)&pACE))
                                        goto failed;

                                if (!AddAccessAllowedAce(m_pSACL, ACL_REVISION, pACE->Mask, (PSID)&(pACE->SidStart)))
                                        goto failed;
                        }

                        if (!IsValidAcl(m_pSACL))
                                goto failed;
                }

                // set the SACL
                if (!SetSecurityDescriptorSacl(m_pSD, m_pSACL ? TRUE : FALSE, m_pSACL, bDefaulted))
                        goto failed;
        }

        if (!GetSecurityDescriptorOwner(m_pSD, &pUserSid, &bDefaulted))
                goto failed;

        if (FAILED(SetOwner(pUserSid, bDefaulted)))
                goto failed;

        if (!GetSecurityDescriptorGroup(m_pSD, &pGroupSid, &bDefaulted))
                goto failed;

        if (FAILED(SetGroup(pGroupSid, bDefaulted)))
                goto failed;

        if (!IsValidSecurityDescriptor(m_pSD))
                goto failed;

        return hr;

failed:
        hr = HRESULT_FROM_WIN32(hr);

failedMemory:
        if (m_pDACL)
        {
                free(m_pDACL);
                m_pDACL = NULL;
        }
        if (m_pSD)
        {
                free(m_pSD);
                m_pSD = NULL;
        }
        return hr;
}

inline HRESULT CSecurityDescriptor::AttachObject(HANDLE hObject)
{
        HRESULT hr;
        DWORD dwSize = 0;
        PSECURITY_DESCRIPTOR pSD = NULL;

        GetKernelObjectSecurity(hObject, OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION |
                DACL_SECURITY_INFORMATION, pSD, 0, &dwSize);

        hr = GetLastError();
        if (hr != ERROR_INSUFFICIENT_BUFFER)
                return HRESULT_FROM_WIN32(hr);

        pSD = (PSECURITY_DESCRIPTOR) malloc(dwSize);
        if (pSD == NULL)
                return E_OUTOFMEMORY;

        if (!GetKernelObjectSecurity(hObject, OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION |
                DACL_SECURITY_INFORMATION, pSD, dwSize, &dwSize))
        {
                hr = HRESULT_FROM_WIN32(GetLastError());
                free(pSD);
                return hr;
        }

        hr = Attach(pSD);
        free(pSD);
        return hr;
}


inline HRESULT CSecurityDescriptor::CopyACL(PACL pDest, PACL pSrc)
{
        ACL_SIZE_INFORMATION aclSizeInfo;
        LPVOID pAce;
        ACE_HEADER *aceHeader;

        if (pSrc == NULL)
                return S_OK;

        if (!GetAclInformation(pSrc, (LPVOID) &aclSizeInfo, sizeof(ACL_SIZE_INFORMATION), AclSizeInformation))
                return HRESULT_FROM_WIN32(GetLastError());

        // Copy all of the ACEs to the new ACL
        for (UINT i = 0; i < aclSizeInfo.AceCount; i++)
        {
                if (!GetAce(pSrc, i, &pAce))
                        return HRESULT_FROM_WIN32(GetLastError());

                aceHeader = (ACE_HEADER *) pAce;

                if (!AddAce(pDest, ACL_REVISION, 0xffffffff, pAce, aceHeader->AceSize))
                        return HRESULT_FROM_WIN32(GetLastError());
        }

        return S_OK;
}

inline HRESULT CSecurityDescriptor::AddAccessDeniedACEToACL(PACL *ppAcl, LPCTSTR pszPrincipal, DWORD dwAccessMask)
{
        ACL_SIZE_INFORMATION aclSizeInfo;
        int aclSize;
        DWORD returnValue;
        PSID principalSID;
        PACL oldACL, newACL = NULL;

        oldACL = *ppAcl;

        returnValue = GetPrincipalSID(pszPrincipal, &principalSID);
        if (FAILED(returnValue))
                return returnValue;

        aclSizeInfo.AclBytesInUse = 0;
        if (*ppAcl != NULL)
                GetAclInformation(oldACL, (LPVOID) &aclSizeInfo, sizeof(ACL_SIZE_INFORMATION), AclSizeInformation);

        aclSize = aclSizeInfo.AclBytesInUse + sizeof(ACL) + sizeof(ACCESS_DENIED_ACE) + GetLengthSid(principalSID) - sizeof(DWORD);

        ATLTRY(newACL = (PACL) new BYTE[aclSize]);
        if (newACL == NULL)
                return E_OUTOFMEMORY;

        if (!InitializeAcl(newACL, aclSize, ACL_REVISION))
        {
                free(principalSID);
                return HRESULT_FROM_WIN32(GetLastError());
        }

        if (!AddAccessDeniedAce(newACL, ACL_REVISION2, dwAccessMask, principalSID))
        {
                free(principalSID);
                return HRESULT_FROM_WIN32(GetLastError());
        }

        returnValue = CopyACL(newACL, oldACL);
        if (FAILED(returnValue))
        {
                free(principalSID);
                return returnValue;
        }

        *ppAcl = newACL;

        if (oldACL != NULL)
                free(oldACL);
        free(principalSID);
        return S_OK;
}


inline HRESULT CSecurityDescriptor::AddAccessAllowedACEToACL(PACL *ppAcl, LPCTSTR pszPrincipal, DWORD dwAccessMask)
{
        ACL_SIZE_INFORMATION aclSizeInfo;
        int aclSize;
        DWORD returnValue;
        PSID principalSID;
        PACL oldACL, newACL = NULL;

        oldACL = *ppAcl;

        returnValue = GetPrincipalSID(pszPrincipal, &principalSID);
        if (FAILED(returnValue))
                return returnValue;

        aclSizeInfo.AclBytesInUse = 0;
        if (*ppAcl != NULL)
                GetAclInformation(oldACL, (LPVOID) &aclSizeInfo, (DWORD) sizeof(ACL_SIZE_INFORMATION), AclSizeInformation);

        aclSize = aclSizeInfo.AclBytesInUse + sizeof(ACL) + sizeof(ACCESS_ALLOWED_ACE) + GetLengthSid(principalSID) - sizeof(DWORD);

        ATLTRY(newACL = (PACL) new BYTE[aclSize]);
        if (newACL == NULL)
                return E_OUTOFMEMORY;

        if (!InitializeAcl(newACL, aclSize, ACL_REVISION))
        {
                free(principalSID);
                return HRESULT_FROM_WIN32(GetLastError());
        }

        returnValue = CopyACL(newACL, oldACL);
        if (FAILED(returnValue))
        {
                free(principalSID);
                return returnValue;
        }

        if (!AddAccessAllowedAce(newACL, ACL_REVISION2, dwAccessMask, principalSID))
        {
                free(principalSID);
                return HRESULT_FROM_WIN32(GetLastError());
        }

        *ppAcl = newACL;

        if (oldACL != NULL)
                free(oldACL);
        free(principalSID);
        return S_OK;
}


inline HRESULT CSecurityDescriptor::RemovePrincipalFromACL(PACL pAcl, LPCTSTR pszPrincipal)
{
        ACL_SIZE_INFORMATION aclSizeInfo;
        ULONG i;
        LPVOID ace;
        ACCESS_ALLOWED_ACE *accessAllowedAce;
        ACCESS_DENIED_ACE *accessDeniedAce;
        SYSTEM_AUDIT_ACE *systemAuditAce;
        PSID principalSID;
        DWORD returnValue;
        ACE_HEADER *aceHeader;

        returnValue = GetPrincipalSID(pszPrincipal, &principalSID);
        if (FAILED(returnValue))
                return returnValue;

        GetAclInformation(pAcl, (LPVOID) &aclSizeInfo, (DWORD) sizeof(ACL_SIZE_INFORMATION), AclSizeInformation);

        for (i = 0; i < aclSizeInfo.AceCount; i++)
        {
                if (!GetAce(pAcl, i, &ace))
                {
                        free(principalSID);
                        return HRESULT_FROM_WIN32(GetLastError());
                }

                aceHeader = (ACE_HEADER *) ace;

                if (aceHeader->AceType == ACCESS_ALLOWED_ACE_TYPE)
                {
                        accessAllowedAce = (ACCESS_ALLOWED_ACE *) ace;

                        if (EqualSid(principalSID, (PSID) &accessAllowedAce->SidStart))
                        {
                                DeleteAce(pAcl, i);
                                free(principalSID);
                                return S_OK;
                        }
                } else

                if (aceHeader->AceType == ACCESS_DENIED_ACE_TYPE)
                {
                        accessDeniedAce = (ACCESS_DENIED_ACE *) ace;

                        if (EqualSid(principalSID, (PSID) &accessDeniedAce->SidStart))
                        {
                                DeleteAce(pAcl, i);
                                free(principalSID);
                                return S_OK;
                        }
                } else

                if (aceHeader->AceType == SYSTEM_AUDIT_ACE_TYPE)
                {
                        systemAuditAce = (SYSTEM_AUDIT_ACE *) ace;

                        if (EqualSid(principalSID, (PSID) &systemAuditAce->SidStart))
                        {
                                DeleteAce(pAcl, i);
                                free(principalSID);
                                return S_OK;
                        }
                }
        }
        free(principalSID);
        return S_OK;
}


inline HRESULT CSecurityDescriptor::SetPrivilege(LPCTSTR privilege, BOOL bEnable, HANDLE hToken)
{
        HRESULT hr;
        TOKEN_PRIVILEGES tpPrevious;
        TOKEN_PRIVILEGES tp;
        DWORD  cbPrevious = sizeof(TOKEN_PRIVILEGES);
        LUID   luid;
        HANDLE hTokenUsed;

        // if no token specified open process token
        if (hToken == 0)
        {
                if (!OpenProcessToken(GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &hTokenUsed))
                {
                        hr = HRESULT_FROM_WIN32(GetLastError());
                        ATLASSERT(FALSE);
                        return hr;
                }
        }
        else
                hTokenUsed = hToken;

        if (!LookupPrivilegeValue(NULL, privilege, &luid ))
        {
                hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                if (hToken == 0)
                        CloseHandle(hTokenUsed);
                return hr;
        }

        tp.PrivilegeCount = 1;
        tp.Privileges[0].Luid = luid;
        tp.Privileges[0].Attributes = 0;

        if (!AdjustTokenPrivileges(hTokenUsed, FALSE, &tp, sizeof(TOKEN_PRIVILEGES), &tpPrevious, &cbPrevious))
        {
                hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                if (hToken == 0)
                        CloseHandle(hTokenUsed);
                return hr;
        }

        tpPrevious.PrivilegeCount = 1;
        tpPrevious.Privileges[0].Luid = luid;

        if (bEnable)
                tpPrevious.Privileges[0].Attributes |= (SE_PRIVILEGE_ENABLED);
        else
                tpPrevious.Privileges[0].Attributes ^= (SE_PRIVILEGE_ENABLED & tpPrevious.Privileges[0].Attributes);

        if (!AdjustTokenPrivileges(hTokenUsed, FALSE, &tpPrevious, cbPrevious, NULL, NULL))
        {
                hr = HRESULT_FROM_WIN32(GetLastError());
                ATLASSERT(FALSE);
                if (hToken == 0)
                        CloseHandle(hTokenUsed);
                return hr;
        }
        return S_OK;
}

/////////////////////////////////////////////////////////////////////////////
// COM Objects

#define DECLARE_PROTECT_FINAL_CONSTRUCT()\
        void InternalFinalConstructAddRef() {InternalAddRef();}\
        void InternalFinalConstructRelease() {InternalRelease();}

template <class T1>
class CComCreator
{
public:
        static HRESULT WINAPI CreateInstance(void* pv, REFIID riid, LPVOID* ppv)
        {
                ATLASSERT(*ppv == NULL);
                HRESULT hRes = E_OUTOFMEMORY;
                T1* p = NULL;
                ATLTRY(p = new T1(pv))
                if (p != NULL)
                {
                        p->SetVoid(pv);
                        p->InternalFinalConstructAddRef();
                        hRes = p->FinalConstruct();
                        p->InternalFinalConstructRelease();
                        if (hRes == S_OK)
                                hRes = p->QueryInterface(riid, ppv);
                        if (hRes != S_OK)
                                delete p;
                }
                return hRes;
        }
};

template <class T1>
class CComInternalCreator
{
public:
        static HRESULT WINAPI CreateInstance(void* pv, REFIID riid, LPVOID* ppv)
        {
                ATLASSERT(*ppv == NULL);
                HRESULT hRes = E_OUTOFMEMORY;
                T1* p = NULL;
                ATLTRY(p = new T1(pv))
                if (p != NULL)
                {
                        p->SetVoid(pv);
                        p->InternalFinalConstructAddRef();
                        hRes = p->FinalConstruct();
                        p->InternalFinalConstructRelease();
                        if (hRes == S_OK)
                                hRes = p->_InternalQueryInterface(riid, ppv);
                        if (hRes != S_OK)
                                delete p;
                }
                return hRes;
        }
};

template <HRESULT hr>
class CComFailCreator
{
public:
        static HRESULT WINAPI CreateInstance(void*, REFIID, LPVOID*)
        {
                return hr;
        }
};

template <class T1, class T2>
class CComCreator2
{
public:
        static HRESULT WINAPI CreateInstance(void* pv, REFIID riid, LPVOID* ppv)
        {
                ATLASSERT(*ppv == NULL);
                return (pv == NULL) ?
                        T1::CreateInstance(NULL, riid, ppv) :
                        T2::CreateInstance(pv, riid, ppv);
        }
};

#define DECLARE_NOT_AGGREGATABLE(x) public:\
        typedef CComCreator2< CComCreator< CComObject< x > >, CComFailCreator<CLASS_E_NOAGGREGATION> > _CreatorClass;
#define DECLARE_AGGREGATABLE(x) public:\
        typedef CComCreator2< CComCreator< CComObject< x > >, CComCreator< CComAggObject< x > > > _CreatorClass;
#define DECLARE_ONLY_AGGREGATABLE(x) public:\
        typedef CComCreator2< CComFailCreator<E_FAIL>, CComCreator< CComAggObject< x > > > _CreatorClass;
#define DECLARE_POLY_AGGREGATABLE(x) public:\
        typedef CComCreator< CComPolyObject< x > > _CreatorClass;

struct _ATL_CREATORDATA
{
        _ATL_CREATORFUNC* pFunc;
};

template <class Creator>
class _CComCreatorData
{
public:
        static _ATL_CREATORDATA data;
};

template <class Creator>
_ATL_CREATORDATA _CComCreatorData<Creator>::data = {Creator::CreateInstance};

struct _ATL_CACHEDATA
{
        DWORD dwOffsetVar;
        _ATL_CREATORFUNC* pFunc;
};

template <class Creator, DWORD dwVar>
class _CComCacheData
{
public:
        static _ATL_CACHEDATA data;
};

template <class Creator, DWORD dwVar>
_ATL_CACHEDATA _CComCacheData<Creator, dwVar>::data = {dwVar, Creator::CreateInstance};

struct _ATL_CHAINDATA
{
        DWORD_PTR dwOffset;
        const _ATL_INTMAP_ENTRY* (WINAPI *pFunc)();
};

template <class base, class derived>
class _CComChainData
{
public:
        static _ATL_CHAINDATA data;
};

template <class base, class derived>
_ATL_CHAINDATA _CComChainData<base, derived>::data =
        {offsetofclass(base, derived), base::_GetEntries};

template <class T, const CLSID* pclsid>
class CComAggregateCreator
{
public:
        static HRESULT WINAPI CreateInstance(void* pv, REFIID/*riid*/, LPVOID* ppv)
        {
                ATLASSERT(*ppv == NULL);
                ATLASSERT(pv != NULL);
                T* p = (T*) pv;
                // Add the following line to your object if you get a message about
                // GetControllingUnknown() being undefined
                // DECLARE_GET_CONTROLLING_UNKNOWN()
                return CoCreateInstance(*pclsid, p->GetControllingUnknown(), CLSCTX_INPROC, IID_IUnknown, ppv);
        }
};

#ifdef _ATL_DEBUG
#define DEBUG_QI_ENTRY(x) \
                {NULL, \
                (DWORD_PTR)_T(#x), \
                (_ATL_CREATORARGFUNC*)0},
#else
#define DEBUG_QI_ENTRY(x)
#endif //_ATL_DEBUG

#ifdef _ATL_DEBUG_INTERFACES
#define _ATL_DECLARE_GET_UNKNOWN(x)\
        IUnknown* GetUnknown() \
        { \
                IUnknown* p; \
                _Module.AddNonAddRefThunk(_GetRawUnknown(), _T(#x), &p); \
                return p; \
        }
#else
#define _ATL_DECLARE_GET_UNKNOWN(x) IUnknown* GetUnknown() {return _GetRawUnknown();}
#endif

//If you get a message that FinalConstruct is ambiguous then you need to
// override it in your class and call each base class' version of this
#define BEGIN_COM_MAP(x) public: \
        typedef x _ComMapClass; \
        static HRESULT WINAPI _Cache(void* pv, REFIID iid, void** ppvObject, DWORD_PTR dw)\
        {\
                _ComMapClass* p = (_ComMapClass*)pv;\
                p->Lock();\
                HRESULT hRes = CComObjectRootBase::_Cache(pv, iid, ppvObject, dw);\
                p->Unlock();\
                return hRes;\
        }\
        IUnknown* _GetRawUnknown() \
        { ATLASSERT(_GetEntries()[0].pFunc == _ATL_SIMPLEMAPENTRY); return (IUnknown*)((DWORD_PTR)this+_GetEntries()->dw); } \
        _ATL_DECLARE_GET_UNKNOWN(x)\
        HRESULT _InternalQueryInterface(REFIID iid, void** ppvObject) \
        { return InternalQueryInterface(this, _GetEntries(), iid, ppvObject); } \
        const static _ATL_INTMAP_ENTRY* WINAPI _GetEntries() { \
        static const _ATL_INTMAP_ENTRY _entries[] = { DEBUG_QI_ENTRY(x)

#define DECLARE_GET_CONTROLLING_UNKNOWN() public:\
        virtual IUnknown* GetControllingUnknown() {return GetUnknown();}

#ifndef _ATL_NO_UUIDOF
#define _ATL_IIDOF(x) __uuidof(x)
#else
#define _ATL_IIDOF(x) IID_##x
#endif

#define COM_INTERFACE_ENTRY_BREAK(x)\
        {&_ATL_IIDOF(x), \
        NULL, \
        _Break},

#define COM_INTERFACE_ENTRY_NOINTERFACE(x)\
        {&_ATL_IIDOF(x), \
        NULL, \
        _NoInterface},

#define COM_INTERFACE_ENTRY(x)\
        {&_ATL_IIDOF(x), \
        offsetofclass(x, _ComMapClass), \
        _ATL_SIMPLEMAPENTRY},

#define COM_INTERFACE_ENTRY_IID(iid, x)\
        {&iid,\
        offsetofclass(x, _ComMapClass),\
        _ATL_SIMPLEMAPENTRY},

// The impl macros are now obsolete
#define COM_INTERFACE_ENTRY_IMPL(x)\
        COM_INTERFACE_ENTRY_IID(_ATL_IIDOF(x), x##Impl<_ComMapClass>)

#define COM_INTERFACE_ENTRY_IMPL_IID(iid, x)\
        COM_INTERFACE_ENTRY_IID(iid, x##Impl<_ComMapClass>)
//

#define COM_INTERFACE_ENTRY2(x, x2)\
        {&_ATL_IIDOF(x),\
        (DWORD_PTR)((x*)(x2*)((_ComMapClass*)8))-8,\
        _ATL_SIMPLEMAPENTRY},

#define COM_INTERFACE_ENTRY2_IID(iid, x, x2)\
        {&iid,\
        (DWORD_PTR)((x*)(x2*)((_ComMapClass*)8))-8,\
        _ATL_SIMPLEMAPENTRY},

#define COM_INTERFACE_ENTRY_FUNC(iid, dw, func)\
        {&iid, \
        dw, \
        func},

#define COM_INTERFACE_ENTRY_FUNC_BLIND(dw, func)\
        {NULL, \
        dw, \
        func},

#define COM_INTERFACE_ENTRY_TEAR_OFF(iid, x)\
        {&iid,\
        (DWORD_PTR)&_CComCreatorData<\
                CComInternalCreator< CComTearOffObject< x > >\
                >::data,\
        _Creator},

#define COM_INTERFACE_ENTRY_CACHED_TEAR_OFF(iid, x, punk)\
        {&iid,\
        (DWORD_PTR)&_CComCacheData<\
                CComCreator< CComCachedTearOffObject< x > >,\
                offsetof(_ComMapClass, punk)\
                >::data,\
        _Cache},

#define COM_INTERFACE_ENTRY_AGGREGATE(iid, punk)\
        {&iid,\
        offsetof(_ComMapClass, punk),\
        _Delegate},

#define COM_INTERFACE_ENTRY_AGGREGATE_BLIND(punk)\
        {NULL,\
        offsetof(_ComMapClass, punk),\
        _Delegate},

#define COM_INTERFACE_ENTRY_AUTOAGGREGATE(iid, punk, clsid)\
        {&iid,\
        (DWORD_PTR)&_CComCacheData<\
                CComAggregateCreator<_ComMapClass, &clsid>,\
                offsetof(_ComMapClass, punk)\
                >::data,\
        _Cache},

#define COM_INTERFACE_ENTRY_AUTOAGGREGATE_BLIND(punk, clsid)\
        {NULL,\
        (DWORD_PTR)&_CComCacheData<\
                CComAggregateCreator<_ComMapClass, &clsid>,\
                offsetof(_ComMapClass, punk)\
                >::data,\
        _Cache},

#define COM_INTERFACE_ENTRY_CHAIN(classname)\
        {NULL,\
        (DWORD_PTR)&_CComChainData<classname, _ComMapClass>::data,\
        _Chain},

#ifdef _ATL_DEBUG
#define END_COM_MAP() {NULL, 0, 0}}; return &_entries[1];} \
        virtual ULONG STDMETHODCALLTYPE AddRef( void) = 0; \
        virtual ULONG STDMETHODCALLTYPE Release( void) = 0; \
        STDMETHOD(QueryInterface)(REFIID, void**) = 0;
#else
#define END_COM_MAP() {NULL, 0, 0}}; return _entries;} \
        virtual ULONG STDMETHODCALLTYPE AddRef( void) = 0; \
        virtual ULONG STDMETHODCALLTYPE Release( void) = 0; \
        STDMETHOD(QueryInterface)(REFIID, void**) = 0;
#endif // _ATL_DEBUG

#define BEGIN_CATEGORY_MAP(x)\
   static const struct _ATL_CATMAP_ENTRY* GetCategoryMap() {\
   static const struct _ATL_CATMAP_ENTRY pMap[] = {
#define IMPLEMENTED_CATEGORY( catid ) { _ATL_CATMAP_ENTRY_IMPLEMENTED, &catid },
#define REQUIRED_CATEGORY( catid ) { _ATL_CATMAP_ENTRY_REQUIRED, &catid },
#define END_CATEGORY_MAP()\
   { _ATL_CATMAP_ENTRY_END, NULL } };\
   return( pMap ); }

#define BEGIN_OBJECT_MAP(x) static _ATL_OBJMAP_ENTRY x[] = {
#define END_OBJECT_MAP()   {NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}};
#define OBJECT_ENTRY(clsid, class) {&clsid, class::UpdateRegistry, class::_ClassFactoryCreatorClass::CreateInstance, class::_CreatorClass::CreateInstance, NULL, 0, class::GetObjectDescription, class::GetCategoryMap, class::ObjectMain },
#define OBJECT_ENTRY_NON_CREATEABLE(class) {&CLSID_NULL, class::UpdateRegistry, NULL, NULL, NULL, 0, NULL, class::GetCategoryMap, class::ObjectMain },

#ifdef _ATL_DEBUG
extern HRESULT WINAPI AtlDumpIID(REFIID iid, LPCTSTR pszClassName, HRESULT hr);
#endif // _ATL_DEBUG


// the functions in this class don't need to be virtual because
// they are called from CComObject
class CComObjectRootBase
{
public:
        CComObjectRootBase()
        {
                m_dwRef = 0L;
        }
        HRESULT FinalConstruct()
        {
                return S_OK;
        }
        // For library initialization only
        HRESULT _AtlFinalConstruct()
        {
                return S_OK;
        }
        void FinalRelease() {}
        void _AtlFinalRelease() {}

        //ObjectMain is called during Module::Init and Module::Term
        static void WINAPI ObjectMain(bool /* bStarting */) {}

        static HRESULT WINAPI InternalQueryInterface(void* pThis,
                const _ATL_INTMAP_ENTRY* pEntries, REFIID iid, void** ppvObject)
        {
                ATLASSERT(pThis != NULL);
                // First entry in the com map should be a simple map entry
                ATLASSERT(pEntries->pFunc == _ATL_SIMPLEMAPENTRY);
        #if defined(_ATL_DEBUG_INTERFACES) || defined(_ATL_DEBUG_QI)
                LPCTSTR pszClassName = (LPCTSTR) pEntries[-1].dw;
        #endif // _ATL_DEBUG_INTERFACES
                HRESULT hRes = AtlInternalQueryInterface(pThis, pEntries, iid, ppvObject);
        #ifdef _ATL_DEBUG_INTERFACES
                _Module.AddThunk((IUnknown**)ppvObject, pszClassName, iid);
        #endif // _ATL_DEBUG_INTERFACES
                return _ATLDUMPIID(iid, pszClassName, hRes);
        }

//Outer funcs
        ULONG OuterAddRef()
        {
                return m_pOuterUnknown->AddRef();
        }
        ULONG OuterRelease()
        {
                return m_pOuterUnknown->Release();
        }
        HRESULT OuterQueryInterface(REFIID iid, void ** ppvObject)
        {
                return m_pOuterUnknown->QueryInterface(iid, ppvObject);
        }

        void SetVoid(void*) {}
        void InternalFinalConstructAddRef() {}
        void InternalFinalConstructRelease()
        {
                ATLASSERT(m_dwRef == 0);
        }
        // If this assert occurs, your object has probably been deleted
        // Try using DECLARE_PROTECT_FINAL_CONSTRUCT()


        static HRESULT WINAPI _Break(void* /* pv */, REFIID iid, void** /* ppvObject */, DWORD_PTR /* dw */)
        {
                iid;
                _ATLDUMPIID(iid, _T("Break due to QI for interface "), S_OK);
                DebugBreak();
                return S_FALSE;
        }
        static HRESULT WINAPI _NoInterface(void* /* pv */, REFIID /* iid */, void** /* ppvObject */, DWORD_PTR /* dw */)
        {
                return E_NOINTERFACE;
        }
        static HRESULT WINAPI _Creator(void* pv, REFIID iid, void** ppvObject, DWORD_PTR dw)
        {
                _ATL_CREATORDATA* pcd = (_ATL_CREATORDATA*)dw;
                return pcd->pFunc(pv, iid, ppvObject);
        }
        static HRESULT WINAPI _Delegate(void* pv, REFIID iid, void** ppvObject, DWORD_PTR dw)
        {
                HRESULT hRes = E_NOINTERFACE;
                IUnknown* p = *(IUnknown**)((DWORD_PTR)pv + dw);
                if (p != NULL)
                        hRes = p->QueryInterface(iid, ppvObject);
                return hRes;
        }
        static HRESULT WINAPI _Chain(void* pv, REFIID iid, void** ppvObject, DWORD_PTR dw)
        {
                _ATL_CHAINDATA* pcd = (_ATL_CHAINDATA*)dw;
                void* p = (void*)((DWORD_PTR)pv + pcd->dwOffset);
                return InternalQueryInterface(p, pcd->pFunc(), iid, ppvObject);
        }
        static HRESULT WINAPI _Cache(void* pv, REFIID iid, void** ppvObject, DWORD_PTR dw)
        {
                HRESULT hRes = E_NOINTERFACE;
                _ATL_CACHEDATA* pcd = (_ATL_CACHEDATA*)dw;
                IUnknown** pp = (IUnknown**)((DWORD_PTR)pv + pcd->dwOffsetVar);
                if (*pp == NULL)
                        hRes = pcd->pFunc(pv, IID_IUnknown, (void**)pp);
                if (*pp != NULL)
                        hRes = (*pp)->QueryInterface(iid, ppvObject);
                return hRes;
        }

        union
        {
                long m_dwRef;
                IUnknown* m_pOuterUnknown;
        };
};

//foward declaration
template <class ThreadModel>
class CComObjectRootEx;

template <class ThreadModel>
class CComObjectLockT
{
public:
        CComObjectLockT(CComObjectRootEx<ThreadModel>* p)
        {
                if (p)
                        p->Lock();
                m_p = p;
        }

        ~CComObjectLockT()
        {
                if (m_p)
                        m_p->Unlock();
        }
        CComObjectRootEx<ThreadModel>* m_p;
};

template <> class CComObjectLockT<CComSingleThreadModel>;

template <class ThreadModel>
class CComObjectRootEx : public CComObjectRootBase
{
public:
        typedef ThreadModel _ThreadModel;
        typedef _ThreadModel::AutoCriticalSection _CritSec;
        typedef CComObjectLockT<_ThreadModel> ObjectLock;

        ULONG InternalAddRef()
        {
                ATLASSERT(m_dwRef != -1L);
                return _ThreadModel::Increment(&m_dwRef);
        }
        ULONG InternalRelease()
        {
                ATLASSERT(m_dwRef > 0);
                return _ThreadModel::Decrement(&m_dwRef);
        }

        void Lock() {m_critsec.Lock();}
        void Unlock() {m_critsec.Unlock();}
private:
        _CritSec m_critsec;
};

template <>
class CComObjectRootEx<CComSingleThreadModel> : public CComObjectRootBase
{
public:
        typedef CComSingleThreadModel _ThreadModel;
        typedef _ThreadModel::AutoCriticalSection _CritSec;
        typedef CComObjectLockT<_ThreadModel> ObjectLock;

        ULONG InternalAddRef()
        {
                ATLASSERT(m_dwRef != -1L);
                return _ThreadModel::Increment(&m_dwRef);
        }
        ULONG InternalRelease()
        {
                return _ThreadModel::Decrement(&m_dwRef);
        }

        void Lock() {}
        void Unlock() {}
};

template <>
class CComObjectLockT<CComSingleThreadModel>
{
public:
        CComObjectLockT(CComObjectRootEx<CComSingleThreadModel>*) {}
        ~CComObjectLockT() {}
};

typedef CComObjectRootEx<CComObjectThreadModel> CComObjectRoot;

#if defined(_WINDLL) | defined(_USRDLL)
#define DECLARE_CLASSFACTORY_EX(cf) typedef CComCreator< CComObjectCached< cf > > _ClassFactoryCreatorClass;
#else
// don't let class factory refcount influence lock count
#define DECLARE_CLASSFACTORY_EX(cf) typedef CComCreator< CComObjectNoLock< cf > > _ClassFactoryCreatorClass;
#endif
#define DECLARE_CLASSFACTORY() DECLARE_CLASSFACTORY_EX(CComClassFactory)
#define DECLARE_CLASSFACTORY2(lic) DECLARE_CLASSFACTORY_EX(CComClassFactory2<lic>)
#define DECLARE_CLASSFACTORY_AUTO_THREAD() DECLARE_CLASSFACTORY_EX(CComClassFactoryAutoThread)
#define DECLARE_CLASSFACTORY_SINGLETON(obj) DECLARE_CLASSFACTORY_EX(CComClassFactorySingleton<obj>)

#define DECLARE_OBJECT_DESCRIPTION(x)\
        static LPCTSTR WINAPI GetObjectDescription()\
        {\
                return _T(x);\
        }

#define DECLARE_NO_REGISTRY()\
        static HRESULT WINAPI UpdateRegistry(BOOL /*bRegister*/)\
        {return S_OK;}

#define DECLARE_REGISTRY(class, pid, vpid, nid, flags)\
        static HRESULT WINAPI UpdateRegistry(BOOL bRegister)\
        {\
                return _Module.UpdateRegistryClass(GetObjectCLSID(), pid, vpid, nid,\
                        flags, bRegister);\
        }

#define DECLARE_REGISTRY_RESOURCE(x)\
        static HRESULT WINAPI UpdateRegistry(BOOL bRegister)\
        {\
        return _Module.UpdateRegistryFromResource(_T(#x), bRegister);\
        }

#define DECLARE_REGISTRY_RESOURCEID(x)\
        static HRESULT WINAPI UpdateRegistry(BOOL bRegister)\
        {\
        return _Module.UpdateRegistryFromResource(x, bRegister);\
        }

//DECLARE_STATIC_* provided for backward compatibility
#ifdef _ATL_STATIC_REGISTRY
#define DECLARE_STATIC_REGISTRY_RESOURCE(x) DECLARE_REGISTRY_RESOURCE(x)
#define DECLARE_STATIC_REGISTRY_RESOURCEID(x) DECLARE_REGISTRY_RESOURCEID(x)
#endif //_ATL_STATIC_REGISTRY

template<class Base> class CComObject; // fwd decl

template <class Owner, class ThreadModel = CComObjectThreadModel>
class CComTearOffObjectBase : public CComObjectRootEx<ThreadModel>
{
public:
        typedef Owner _OwnerClass;
        CComObject<Owner>* m_pOwner;
        CComTearOffObjectBase() {m_pOwner = NULL;}
};

//Base is the user's class that derives from CComObjectRoot and whatever
//interfaces the user wants to support on the object
template <class Base>
class CComObject : public Base
{
public:
        typedef Base _BaseClass;
        CComObject(void* = NULL)
        {
                _Module.Lock();
        }
        // Set refcount to 1 to protect destruction
        ~CComObject()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
                _Module.Unlock();
        }
        //If InternalAddRef or InternalRelease is undefined then your class
        //doesn't derive from CComObjectRoot
        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        //if _InternalQueryInterface is undefined then you forgot BEGIN_COM_MAP
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {return _InternalQueryInterface(iid, ppvObject);}
        template <class Q>
        HRESULT STDMETHODCALLTYPE QueryInterface(Q** pp)
        {
                return QueryInterface(__uuidof(Q), (void**)pp);
        }

        static HRESULT WINAPI CreateInstance(CComObject<Base>** pp);
};

template <class Base>
HRESULT WINAPI CComObject<Base>::CreateInstance(CComObject<Base>** pp)
{
        ATLASSERT(pp != NULL);
        HRESULT hRes = E_OUTOFMEMORY;
        CComObject<Base>* p = NULL;
        ATLTRY(p = new CComObject<Base>())
        if (p != NULL)
        {
                p->SetVoid(NULL);
                p->InternalFinalConstructAddRef();
                hRes = p->FinalConstruct();
                p->InternalFinalConstructRelease();
                if (hRes != S_OK)
                {
                        delete p;
                        p = NULL;
                }
        }
        *pp = p;
        return hRes;
}

//Base is the user's class that derives from CComObjectRoot and whatever
//interfaces the user wants to support on the object
// CComObjectCached is used primarily for class factories in DLL's
// but it is useful anytime you want to cache an object
template <class Base>
class CComObjectCached : public Base
{
public:
        typedef Base _BaseClass;
        CComObjectCached(void* = NULL){}
        // Set refcount to 1 to protect destruction
        ~CComObjectCached()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
        }
        //If InternalAddRef or InternalRelease is undefined then your class
        //doesn't derive from CComObjectRoot
        STDMETHOD_(ULONG, AddRef)()
        {
                m_csCached.Lock();
                ULONG l = InternalAddRef();
                if (m_dwRef == 2)
                        _Module.Lock();
                m_csCached.Unlock();
                return l;
        }
        STDMETHOD_(ULONG, Release)()
        {
                m_csCached.Lock();
                InternalRelease();
                ULONG l = m_dwRef;
                m_csCached.Unlock();
                if (l == 0)
                        delete this;
                else if (l == 1)
                        _Module.Unlock();
                return l;
        }
        //if _InternalQueryInterface is undefined then you forgot BEGIN_COM_MAP
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {return _InternalQueryInterface(iid, ppvObject);}
        CComGlobalsThreadModel::AutoCriticalSection m_csCached;
};

//Base is the user's class that derives from CComObjectRoot and whatever
//interfaces the user wants to support on the object
template <class Base>
class CComObjectNoLock : public Base
{
public:
        typedef Base _BaseClass;
        CComObjectNoLock(void* = NULL){}
        // Set refcount to 1 to protect destruction
        ~CComObjectNoLock()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
        }

        //If InternalAddRef or InternalRelease is undefined then your class
        //doesn't derive from CComObjectRoot
        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        //if _InternalQueryInterface is undefined then you forgot BEGIN_COM_MAP
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {return _InternalQueryInterface(iid, ppvObject);}
};

// It is possible for Base not to derive from CComObjectRoot
// However, you will need to provide FinalConstruct and InternalQueryInterface
template <class Base>
class CComObjectGlobal : public Base
{
public:
        typedef Base _BaseClass;
        CComObjectGlobal(void* = NULL){m_hResFinalConstruct = FinalConstruct();}
        ~CComObjectGlobal()
        {
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
        }

        STDMETHOD_(ULONG, AddRef)() {return _Module.Lock();}
        STDMETHOD_(ULONG, Release)(){return _Module.Unlock();}
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {return _InternalQueryInterface(iid, ppvObject);}
        HRESULT m_hResFinalConstruct;
};

// It is possible for Base not to derive from CComObjectRoot
// However, you will need to provide FinalConstruct and InternalQueryInterface
template <class Base>
class CComObjectStack : public Base
{
public:
        typedef Base _BaseClass;
        CComObjectStack(void* = NULL){m_hResFinalConstruct = FinalConstruct();}
        ~CComObjectStack()
        {
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
        }


        STDMETHOD_(ULONG, AddRef)() {ATLASSERT(FALSE);return 0;}
        STDMETHOD_(ULONG, Release)(){ATLASSERT(FALSE);return 0;}
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {ATLASSERT(FALSE);return E_NOINTERFACE;}
        HRESULT m_hResFinalConstruct;
};

template <class Base> //Base must be derived from CComObjectRoot
class CComContainedObject : public Base
{
public:
        typedef Base _BaseClass;
        CComContainedObject(void* pv) {m_pOuterUnknown = (IUnknown*)pv;}
#ifdef _ATL_DEBUG_INTERFACES
        ~CComContainedObject()
        {
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
                _Module.DeleteNonAddRefThunk(m_pOuterUnknown);
        }
#endif

        STDMETHOD_(ULONG, AddRef)() {return OuterAddRef();}
        STDMETHOD_(ULONG, Release)() {return OuterRelease();}
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {
                HRESULT hr = OuterQueryInterface(iid, ppvObject);
                if (FAILED(hr) && _GetRawUnknown() != m_pOuterUnknown)
                        hr = _InternalQueryInterface(iid, ppvObject);
                return hr;
        }
        template <class Q>
        HRESULT STDMETHODCALLTYPE QueryInterface(Q** pp)
        {
                return QueryInterface(__uuidof(Q), (void**)pp);
        }
        //GetControllingUnknown may be virtual if the Base class has declared
        //DECLARE_GET_CONTROLLING_UNKNOWN()
        IUnknown* GetControllingUnknown()
        {
#ifdef _ATL_DEBUG_INTERFACES
                IUnknown* p;
                _Module.AddNonAddRefThunk(m_pOuterUnknown, _T("CComContainedObject"), &p);
                return p;
#else
                return m_pOuterUnknown;
#endif
        }
};

//contained is the user's class that derives from CComObjectRoot and whatever
//interfaces the user wants to support on the object
template <class contained>
class CComAggObject :
        public IUnknown,
        public CComObjectRootEx< contained::_ThreadModel::ThreadModelNoCS >
{
public:
        typedef contained _BaseClass;
        CComAggObject(void* pv) : m_contained(pv)
        {
                _Module.Lock();
        }
        //If you get a message that this call is ambiguous then you need to
        // override it in your class and call each base class' version of this
        HRESULT FinalConstruct()
        {
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalConstruct();
                return m_contained.FinalConstruct();
        }
        void FinalRelease()
        {
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalRelease();
                m_contained.FinalRelease();
        }
        // Set refcount to 1 to protect destruction
        ~CComAggObject()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(this);
#endif
                _Module.Unlock();
        }

        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {
                HRESULT hRes = S_OK;
                if (InlineIsEqualUnknown(iid))
                {
                        if (ppvObject == NULL)
                                return E_POINTER;
                        *ppvObject = (void*)(IUnknown*)this;
                        AddRef();
#ifdef _ATL_DEBUG_INTERFACES
                        _Module.AddThunk((IUnknown**)ppvObject, (LPCTSTR)contained::_GetEntries()[-1].dw, iid);
#endif // _ATL_DEBUG_INTERFACES
                }
                else
                        hRes = m_contained._InternalQueryInterface(iid, ppvObject);
                return hRes;
        }
        template <class Q>
        HRESULT STDMETHODCALLTYPE QueryInterface(Q** pp)
        {
                return QueryInterface(__uuidof(Q), (void**)pp);
        }
        static HRESULT WINAPI CreateInstance(LPUNKNOWN pUnkOuter, CComAggObject<contained>** pp)
        {
                ATLASSERT(pp != NULL);
                HRESULT hRes = E_OUTOFMEMORY;
                CComAggObject<contained>* p = NULL;
                ATLTRY(p = new CComAggObject<contained>(pUnkOuter))
                if (p != NULL)
                {
                        p->SetVoid(NULL);
                        p->InternalFinalConstructAddRef();
                        hRes = p->FinalConstruct();
                        p->InternalFinalConstructRelease();
                        if (hRes != S_OK)
                        {
                                delete p;
                                p = NULL;
                        }
                }
                *pp = p;
                return hRes;
        }

        CComContainedObject<contained> m_contained;
};

///////////////////////////////////////////////////////////////////////////////
// CComPolyObject can be either aggregated or not aggregated

template <class contained>
class CComPolyObject :
        public IUnknown,
        public CComObjectRootEx< contained::_ThreadModel::ThreadModelNoCS >
{
public:
        typedef contained _BaseClass;
        CComPolyObject(void* pv) : m_contained(pv ? pv : this)
        {
                _Module.Lock();
        }
        //If you get a message that this call is ambiguous then you need to
        // override it in your class and call each base class' version of this
        HRESULT FinalConstruct()
        {
                InternalAddRef();
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalConstruct();
                HRESULT hr = m_contained.FinalConstruct();
                InternalRelease();
                return hr;
        }
        void FinalRelease()
        {
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalRelease();
                m_contained.FinalRelease();
        }
        // Set refcount to 1 to protect destruction
        ~CComPolyObject()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(this);
#endif
                _Module.Unlock();
        }

        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {
                HRESULT hRes = S_OK;
                if (InlineIsEqualUnknown(iid))
                {
                        if (ppvObject == NULL)
                                return E_POINTER;
                        *ppvObject = (void*)(IUnknown*)this;
                        AddRef();
#ifdef _ATL_DEBUG_INTERFACES
                        _Module.AddThunk((IUnknown**)ppvObject, (LPCTSTR)contained::_GetEntries()[-1].dw, iid);
#endif // _ATL_DEBUG_INTERFACES
                }
                else
                        hRes = m_contained._InternalQueryInterface(iid, ppvObject);
                return hRes;
        }
        template <class Q>
        HRESULT STDMETHODCALLTYPE QueryInterface(Q** pp)
        {
                return QueryInterface(__uuidof(Q), (void**)pp);
        }
        static HRESULT WINAPI CreateInstance(LPUNKNOWN pUnkOuter, CComPolyObject<contained>** pp)
        {
                ATLASSERT(pp != NULL);
                HRESULT hRes = E_OUTOFMEMORY;
                CComPolyObject<contained>* p = NULL;
                ATLTRY(p = new CComPolyObject<contained>(pUnkOuter))
                if (p != NULL)
                {
                        p->SetVoid(NULL);
                        p->InternalFinalConstructAddRef();
                        hRes = p->FinalConstruct();
                        p->InternalFinalConstructRelease();
                        if (hRes != S_OK)
                        {
                                delete p;
                                p = NULL;
                        }
                }
                *pp = p;
                return hRes;
        }

        CComContainedObject<contained> m_contained;
};

template <class Base>
class CComTearOffObject : public Base
{
public:
        CComTearOffObject(void* pv)
        {
                ATLASSERT(m_pOwner == NULL);
                m_pOwner = reinterpret_cast<CComObject<Base::_OwnerClass>*>(pv);
                m_pOwner->AddRef();
        }
        // Set refcount to 1 to protect destruction
        ~CComTearOffObject()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(_GetRawUnknown());
#endif
                m_pOwner->Release();
        }

        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {
                return m_pOwner->QueryInterface(iid, ppvObject);
        }
};

template <class contained>
class CComCachedTearOffObject :
        public IUnknown,
        public CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>
{
public:
        typedef contained _BaseClass;
        CComCachedTearOffObject(void* pv) :
                m_contained(((contained::_OwnerClass*)pv)->GetControllingUnknown())
        {
                ATLASSERT(m_contained.m_pOwner == NULL);
                m_contained.m_pOwner = reinterpret_cast<CComObject<contained::_OwnerClass>*>(pv);
        }
        //If you get a message that this call is ambiguous then you need to
        // override it in your class and call each base class' version of this
        HRESULT FinalConstruct()
        {
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalConstruct();
                return m_contained.FinalConstruct();
        }
        void FinalRelease()
        {
                CComObjectRootEx<contained::_ThreadModel::ThreadModelNoCS>::FinalRelease();
                m_contained.FinalRelease();
        }
        // Set refcount to 1 to protect destruction
        ~CComCachedTearOffObject()
        {
                m_dwRef = 1L;
                FinalRelease();
#ifdef _ATL_DEBUG_INTERFACES
                _Module.DeleteNonAddRefThunk(this);
#endif
        }


        STDMETHOD_(ULONG, AddRef)() {return InternalAddRef();}
        STDMETHOD_(ULONG, Release)()
        {
                ULONG l = InternalRelease();
                if (l == 0)
                        delete this;
                return l;
        }
        STDMETHOD(QueryInterface)(REFIID iid, void ** ppvObject)
        {
                HRESULT hRes = S_OK;
                if (InlineIsEqualUnknown(iid))
                {
                        if (ppvObject == NULL)
                                return E_POINTER;
                        *ppvObject = (void*)(IUnknown*)this;
                        AddRef();
#ifdef _ATL_DEBUG_INTERFACES
                        _Module.AddThunk((IUnknown**)ppvObject, (LPCTSTR)contained::_GetEntries()[-1].dw, iid);
#endif // _ATL_DEBUG_INTERFACES
                }
                else
                        hRes = m_contained._InternalQueryInterface(iid, ppvObject);
                return hRes;
        }
        CComContainedObject<contained> m_contained;
};

class CComClassFactory :
        public IClassFactory,
        public CComObjectRootEx<CComGlobalsThreadModel>
{
public:
        BEGIN_COM_MAP(CComClassFactory)
                COM_INTERFACE_ENTRY(IClassFactory)
        END_COM_MAP()

        // IClassFactory
        STDMETHOD(CreateInstance)(LPUNKNOWN pUnkOuter, REFIID riid, void** ppvObj)
        {
                ATLASSERT(m_pfnCreateInstance != NULL);
                HRESULT hRes = E_POINTER;
                if (ppvObj != NULL)
                {
                        *ppvObj = NULL;
                        // can't ask for anything other than IUnknown when aggregating
                        
                        if ((pUnkOuter != NULL) && !InlineIsEqualUnknown(riid))
                        {
                                ATLTRACE2(atlTraceCOM, 0, _T("CComClassFactory: asked for non IUnknown interface while creating an aggregated object"));
                                hRes = CLASS_E_NOAGGREGATION;
                        }
                        else
                                hRes = m_pfnCreateInstance(pUnkOuter, riid, ppvObj);
                }
                return hRes;
        }

        STDMETHOD(LockServer)(BOOL fLock)
        {
                if (fLock)
                        _Module.Lock();
                else
                        _Module.Unlock();
                return S_OK;
        }
        // helper
        void SetVoid(void* pv)
        {
                m_pfnCreateInstance = (_ATL_CREATORFUNC*)pv;
        }
        _ATL_CREATORFUNC* m_pfnCreateInstance;
};

template <class license>
class CComClassFactory2 :
        public IClassFactory2,
        public CComObjectRootEx<CComGlobalsThreadModel>,
        public license
{
public:
        typedef license _LicenseClass;
        typedef CComClassFactory2<license> _ComMapClass;
BEGIN_COM_MAP(CComClassFactory2<license>)
        COM_INTERFACE_ENTRY(IClassFactory)
        COM_INTERFACE_ENTRY(IClassFactory2)
END_COM_MAP()
        // IClassFactory
        STDMETHOD(LockServer)(BOOL fLock)
        {
                if (fLock)
                        _Module.Lock();
                else
                        _Module.Unlock();
                return S_OK;
        }
        STDMETHOD(CreateInstance)(LPUNKNOWN pUnkOuter,
                REFIID riid, void** ppvObj)
        {
                ATLASSERT(m_pfnCreateInstance != NULL);
                if (ppvObj == NULL)
                        return E_POINTER;
                *ppvObj = NULL;
                if (!IsLicenseValid())
                        return CLASS_E_NOTLICENSED;

                if ((pUnkOuter != NULL) && !InlineIsEqualUnknown(riid))
                        return CLASS_E_NOAGGREGATION;
                else
                        return m_pfnCreateInstance(pUnkOuter, riid, ppvObj);
        }
        // IClassFactory2
        STDMETHOD(CreateInstanceLic)(IUnknown* pUnkOuter, IUnknown* pUnkReserved,
                                REFIID riid, BSTR bstrKey, void** ppvObject)
        {
                ATLASSERT(m_pfnCreateInstance != NULL);
                if (ppvObject == NULL)
                        return E_POINTER;
                *ppvObject = NULL;
                if ( ((bstrKey != NULL) && !VerifyLicenseKey(bstrKey)) ||
                         ((bstrKey == NULL) && !IsLicenseValid()) )
                        return CLASS_E_NOTLICENSED;
                if ((pUnkOuter != NULL) && !InlineIsEqualUnknown(riid))
                        return CLASS_E_NOAGGREGATION;
                else
                        return m_pfnCreateInstance(pUnkOuter, riid, ppvObject);
        }
        STDMETHOD(RequestLicKey)(DWORD dwReserved, BSTR* pbstrKey)
        {
                if (pbstrKey == NULL)
                        return E_POINTER;
                *pbstrKey = NULL;

                if (!IsLicenseValid())
                        return CLASS_E_NOTLICENSED;
                return GetLicenseKey(dwReserved,pbstrKey) ? S_OK : E_FAIL;
        }
        STDMETHOD(GetLicInfo)(LICINFO* pLicInfo)
        {
                if (pLicInfo == NULL)
                        return E_POINTER;
                pLicInfo->cbLicInfo = sizeof(LICINFO);
                pLicInfo->fLicVerified = IsLicenseValid();
                BSTR bstr = NULL;
                pLicInfo->fRuntimeKeyAvail = GetLicenseKey(0,&bstr);
                ::SysFreeString(bstr);
                return S_OK;
        }
        void SetVoid(void* pv)
        {
                m_pfnCreateInstance = (_ATL_CREATORFUNC*)pv;
        }
        _ATL_CREATORFUNC* m_pfnCreateInstance;
};

/////////////////////////////////////////////////////////////////////////////////////////////
// Thread Pooling class factory

class CComClassFactoryAutoThread :
        public IClassFactory,
        public CComObjectRootEx<CComGlobalsThreadModel>
{
public:
        BEGIN_COM_MAP(CComClassFactoryAutoThread)
                COM_INTERFACE_ENTRY(IClassFactory)
        END_COM_MAP()

        // helper
        void SetVoid(void* pv)
        {
                m_pfnCreateInstance = (_ATL_CREATORFUNC*)pv;
        }
        STDMETHODIMP CreateInstance(LPUNKNOWN pUnkOuter,
                REFIID riid, void** ppvObj)
        {
                ATLASSERT(m_pfnCreateInstance != NULL);
                HRESULT hRes = E_POINTER;
                if (ppvObj != NULL)
                {
                        *ppvObj = NULL;
                        // cannot aggregate across apartments
                        ATLASSERT(pUnkOuter == NULL);
                        if (pUnkOuter != NULL)
                                hRes = CLASS_E_NOAGGREGATION;
                        else
                                hRes = _Module.CreateInstance(m_pfnCreateInstance, riid, ppvObj);
                }
                return hRes;
        }
        STDMETHODIMP LockServer(BOOL fLock)
        {
                if (fLock)
                        _Module.Lock();
                else
                        _Module.Unlock();
                return S_OK;
        }
        _ATL_CREATORFUNC* m_pfnCreateInstance;
};

/////////////////////////////////////////////////////////////////////////////////////////////
// Singleton Class Factory
template <class T>
class CComClassFactorySingleton : public CComClassFactory
{
public:
        // IClassFactory
        STDMETHOD(CreateInstance)(LPUNKNOWN pUnkOuter, REFIID riid, void** ppvObj)
        {
                HRESULT hRes = E_POINTER;
                if (ppvObj != NULL)
                {
                        *ppvObj = NULL;
                        // aggregation is not supported in Singletons
                        ATLASSERT(pUnkOuter == NULL);
                        if (pUnkOuter != NULL)
                                hRes = CLASS_E_NOAGGREGATION;
                        else
                        {
                                if (m_Obj.m_hResFinalConstruct != S_OK)
                                        hRes = m_Obj.m_hResFinalConstruct;
                                else
                                        hRes = m_Obj.QueryInterface(riid, ppvObj);
                        }
                }
                return hRes;
        }
        CComObjectGlobal<T> m_Obj;
};

template <class T, const CLSID* pclsid = &CLSID_NULL>
class CComCoClass
{
public:
        DECLARE_CLASSFACTORY()
        DECLARE_AGGREGATABLE(T)
        typedef T _CoClass;
        static const CLSID& WINAPI GetObjectCLSID() {return *pclsid;}
        static LPCTSTR WINAPI GetObjectDescription() {return NULL;}
        static const struct _ATL_CATMAP_ENTRY* GetCategoryMap() {return NULL;};
        static HRESULT WINAPI Error(LPCOLESTR lpszDesc,
                const IID& iid = GUID_NULL, HRESULT hRes = 0)
        {
                return AtlReportError(GetObjectCLSID(), lpszDesc, iid, hRes);
        }
        static HRESULT WINAPI Error(LPCOLESTR lpszDesc, DWORD dwHelpID,
                LPCOLESTR lpszHelpFile, const IID& iid = GUID_NULL, HRESULT hRes = 0)
        {
                return AtlReportError(GetObjectCLSID(), lpszDesc, dwHelpID, lpszHelpFile,
                        iid, hRes);
        }
        static HRESULT WINAPI Error(UINT nID, const IID& iid = GUID_NULL,
                HRESULT hRes = 0, HINSTANCE hInst = _Module.GetResourceInstance())
        {
                return AtlReportError(GetObjectCLSID(), nID, iid, hRes, hInst);
        }
        static HRESULT WINAPI Error(UINT nID, DWORD dwHelpID,
                LPCOLESTR lpszHelpFile, const IID& iid = GUID_NULL,
                HRESULT hRes = 0, HINSTANCE hInst = _Module.GetResourceInstance())
        {
                return AtlReportError(GetObjectCLSID(), nID, dwHelpID, lpszHelpFile,
                        iid, hRes, hInst);
        }
#ifndef OLE2ANSI
        static HRESULT WINAPI Error(LPCSTR lpszDesc,
                const IID& iid = GUID_NULL, HRESULT hRes = 0)
        {
                return AtlReportError(GetObjectCLSID(), lpszDesc, iid, hRes);
        }
        static HRESULT WINAPI Error(LPCSTR lpszDesc, DWORD dwHelpID,
                LPCSTR lpszHelpFile, const IID& iid = GUID_NULL, HRESULT hRes = 0)
        {
                return AtlReportError(GetObjectCLSID(), lpszDesc, dwHelpID,
                        lpszHelpFile, iid, hRes);
        }
#endif
        template <class Q>
        static HRESULT CreateInstance(IUnknown* punkOuter, Q** pp)
        {
                return T::_CreatorClass::CreateInstance(punkOuter, __uuidof(Q), (void**) pp);
        }
        template <class Q>
        static HRESULT CreateInstance(Q** pp)
        {
                return T::_CreatorClass::CreateInstance(NULL, __uuidof(Q), (void**) pp);
        }
};

// ATL doesn't support multiple LCID's at the same time
// Whatever LCID is queried for first is the one that is used.
class CComTypeInfoHolder
{
// Should be 'protected' but can cause compiler to generate fat code.
public:
        const GUID* m_pguid;
        const GUID* m_plibid;
        WORD m_wMajor;
        WORD m_wMinor;

        ITypeInfo* m_pInfo;
        long m_dwRef;
        struct stringdispid
        {
                CComBSTR bstr;
                int nLen;
                DISPID id;
        };
        stringdispid* m_pMap;
        int m_nCount;

public:
        HRESULT GetTI(LCID lcid, ITypeInfo** ppInfo)
        {
                HRESULT hr = S_OK;
                if (m_pInfo == NULL)
                        hr = GetTI(lcid);
                *ppInfo = m_pInfo;
                if (m_pInfo != NULL)
                {
                        m_pInfo->AddRef();
                        hr = S_OK;
                }
                return hr;
        }
        HRESULT GetTI(LCID lcid);
        HRESULT EnsureTI(LCID lcid)
        {
                HRESULT hr = S_OK;
                if (m_pInfo == NULL)
                        hr = GetTI(lcid);
                return hr;
        }

        // This function is called by the module on exit
        // It is registered through _Module.AddTermFunc()
        static void __stdcall Cleanup(DWORD_PTR dw)
        {
                CComTypeInfoHolder* p = (CComTypeInfoHolder*) dw;
                if (p->m_pInfo != NULL)
                        p->m_pInfo->Release();
                p->m_pInfo = NULL;
                delete [] p->m_pMap;
                p->m_pMap = NULL;
        }

        HRESULT GetTypeInfo(UINT /* itinfo */, LCID lcid, ITypeInfo** pptinfo)
        {
                HRESULT hRes = E_POINTER;
                if (pptinfo != NULL)
                        hRes = GetTI(lcid, pptinfo);
                return hRes;
        }
        HRESULT GetIDsOfNames(REFIID /* riid */, LPOLESTR* rgszNames, UINT cNames,
                LCID lcid, DISPID* rgdispid)
        {
                HRESULT hRes = EnsureTI(lcid);
                if (m_pInfo != NULL)
                {
                        for (int i=0; i<(int)cNames; i++)
                        {
                                int n = ocslen(rgszNames[i]);
                                int j;
                                for (j=m_nCount-1; j>=0; j--)
                                {
                                        if ((n == m_pMap[j].nLen) &&
                                                (memcmp(m_pMap[j].bstr, rgszNames[i], m_pMap[j].nLen * sizeof(OLECHAR)) == 0))
                                        {
                                                rgdispid[i] = m_pMap[j].id;
                                                break;
                                        }
                                }
                                if (j < 0)
                                {
                                        hRes = m_pInfo->GetIDsOfNames(rgszNames, cNames, rgdispid);
                                        if (FAILED(hRes))
                                                break;
                                }
                        }
                }
                return hRes;
        }

        HRESULT Invoke(IDispatch* p, DISPID dispidMember, REFIID /* riid */,
                LCID lcid, WORD wFlags, DISPPARAMS* pdispparams, VARIANT* pvarResult,
                EXCEPINFO* pexcepinfo, UINT* puArgErr)
        {
                HRESULT hRes = EnsureTI(lcid);
                if (m_pInfo != NULL)
                        hRes = m_pInfo->Invoke(p, dispidMember, wFlags, pdispparams, pvarResult, pexcepinfo, puArgErr);
                return hRes;
        }
#pragma warning(push)
#pragma warning(disable: 4267)  //REVIEW operator new[] problem
        HRESULT LoadNameCache(ITypeInfo* pTypeInfo)
        {
                TYPEATTR* pta;
                HRESULT hr = pTypeInfo->GetTypeAttr(&pta);
                if (SUCCEEDED(hr))
                {
                        m_nCount = pta->cFuncs;
                        m_pMap = m_nCount == 0 ? 0 : new stringdispid[m_nCount];
                        for (int i=0; i<m_nCount; i++)
                        {
                                FUNCDESC* pfd;
                                if (SUCCEEDED(pTypeInfo->GetFuncDesc(i, &pfd)))
                                {
                                        CComBSTR bstrName;
                                        if (SUCCEEDED(pTypeInfo->GetDocumentation(pfd->memid, &bstrName, NULL, NULL, NULL)))
                                        {
                                                m_pMap[i].bstr.Attach(bstrName.Detach());
                                                m_pMap[i].nLen = SysStringLen(m_pMap[i].bstr);
                                                m_pMap[i].id = pfd->memid;
                                        }
                                        pTypeInfo->ReleaseFuncDesc(pfd);
                                }
                        }
                        pTypeInfo->ReleaseTypeAttr(pta);
                }
                return S_OK;
        }
};
#pragma warning(pop)

inline HRESULT CComTypeInfoHolder::GetTI(LCID lcid)
{
        //If this assert occurs then most likely didn't initialize properly
        ATLASSERT(m_plibid != NULL && m_pguid != NULL);
        ATLASSERT(!InlineIsEqualGUID(*m_plibid, GUID_NULL) && "Did you forget to pass the LIBID to CComModule::Init?");

        if (m_pInfo != NULL)
                return S_OK;
        HRESULT hRes;
        EnterCriticalSection(&_Module.m_csTypeInfoHolder);

        ITypeLib* pTypeLib;
        hRes = LoadRegTypeLib(*m_plibid, m_wMajor, m_wMinor, lcid, &pTypeLib);
        if (SUCCEEDED(hRes))
        {
                CComPtr<ITypeInfo> spTypeInfo;
                hRes = pTypeLib->GetTypeInfoOfGuid(*m_pguid, &spTypeInfo);
                if (SUCCEEDED(hRes))
                {
                        CComPtr<ITypeInfo> spInfo(spTypeInfo);
                        CComPtr<ITypeInfo2> spTypeInfo2;
                        if (SUCCEEDED(spTypeInfo->QueryInterface(IID_ITypeInfo2, (void **)&spTypeInfo2)))
                                spInfo = spTypeInfo2;

                        LoadNameCache(spInfo);
                        m_pInfo = spInfo.Detach();
                }
                pTypeLib->Release();
        }
        LeaveCriticalSection(&_Module.m_csTypeInfoHolder);
        _Module.AddTermFunc(Cleanup, (DWORD_PTR)this);
        return hRes;
}

//////////////////////////////////////////////////////////////////////////////
// IObjectWithSite
//
template <class T>
class ATL_NO_VTABLE IObjectWithSiteImpl : public IObjectWithSite
{
public:
        STDMETHOD(SetSite)(IUnknown *pUnkSite)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IObjectWithSiteImpl::SetSite\n"));
                T* pT = static_cast<T*>(this);
                pT->m_spUnkSite = pUnkSite;
                return S_OK;
        }
        STDMETHOD(GetSite)(REFIID riid, void **ppvSite)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IObjectWithSiteImpl::GetSite\n"));
                T* pT = static_cast<T*>(this);
                ATLASSERT(ppvSite);
                HRESULT hRes = E_POINTER;
                if (ppvSite != NULL)
                {
                        if (pT->m_spUnkSite)
                                hRes = pT->m_spUnkSite->QueryInterface(riid, ppvSite);
                        else
                        {
                                *ppvSite = NULL;
                                hRes = E_FAIL;
                        }
                }
                return hRes;
        }

        HRESULT SetChildSite(IUnknown* punkChild)
        {
                if (punkChild == NULL)
                        return E_POINTER;

                HRESULT hr;
                CComPtr<IObjectWithSite> spChildSite;
                hr = punkChild->QueryInterface(IID_IObjectWithSite, (void**)&spChildSite);
                if (SUCCEEDED(hr))
                        hr = spChildSite->SetSite((IUnknown*)this);

                return hr;
        }

        static HRESULT SetChildSite(IUnknown* punkChild, IUnknown* punkParent)
        {
                return AtlSetChildSite(punkChild, punkParent);
        }

        CComPtr<IUnknown> m_spUnkSite;
};

//////////////////////////////////////////////////////////////////////////////
// IServiceProvider
//
template <class T>
class ATL_NO_VTABLE IServiceProviderImpl : public IServiceProvider
{
public:
        STDMETHOD(QueryService)(REFGUID guidService, REFIID riid, void** ppvObject)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("IServiceProviderImpl::QueryService\n"));
                T* pT = static_cast<T*>(this);
                return pT->_InternalQueryService(guidService, riid, ppvObject);
        }
};

#define BEGIN_SERVICE_MAP(x) public: \
        HRESULT _InternalQueryService(REFGUID guidService, REFIID riid, void** ppvObject) \
        {

#define SERVICE_ENTRY(x) \
                if (InlineIsEqualGUID(guidService, x)) \
                        return QueryInterface(riid, ppvObject);

#define SERVICE_ENTRY_CHAIN(x) \
                CComQIPtr<IServiceProvider, &IID_IServiceProvider> spProvider(x); \
                if (spProvider != NULL) \
                        return spProvider->QueryService(guidService, riid, ppvObject);

#define END_SERVICE_MAP() \
                return E_NOINTERFACE; \
        }


/////////////////////////////////////////////////////////////////////////////
// IDispEventImpl

#ifdef _ATL_DLL
ATLAPI AtlGetObjectSourceInterface(IUnknown* punkObj, GUID* plibid, IID* piid, unsigned short* pdwMajor, unsigned short* pdwMinor);
#else
ATLINLINE ATLAPI AtlGetObjectSourceInterface(IUnknown* punkObj, GUID* plibid, IID* piid, unsigned short* pdwMajor, unsigned short* pdwMinor)
{
        HRESULT hr = E_FAIL;
        if (punkObj != NULL)
        {
                CComPtr<IDispatch> spDispatch;
                hr = punkObj->QueryInterface(IID_IDispatch, (void**)&spDispatch);
                if (SUCCEEDED(hr))
                {
                        CComPtr<ITypeInfo> spTypeInfo;
                        hr = spDispatch->GetTypeInfo(0, 0, &spTypeInfo);
                        if (SUCCEEDED(hr))
                        {
                                CComPtr<ITypeLib> spTypeLib;
                                hr = spTypeInfo->GetContainingTypeLib(&spTypeLib, 0);
                                if (SUCCEEDED(hr))
                                {
                                        TLIBATTR* plibAttr;
                                        hr = spTypeLib->GetLibAttr(&plibAttr);
                                        if (SUCCEEDED(hr))
                                        {
                                                memcpy(plibid, &plibAttr->guid, sizeof(GUID));
                                                *pdwMajor = plibAttr->wMajorVerNum;
                                                *pdwMinor = plibAttr->wMinorVerNum;
                                                spTypeLib->ReleaseTLibAttr(plibAttr);
                                                // First see if the object is willing to tell us about the
                                                // default source interface via IProvideClassInfo2
                                                CComPtr<IProvideClassInfo2> spInfo;
                                                hr = punkObj->QueryInterface(IID_IProvideClassInfo2, (void**)&spInfo);
                                                if (SUCCEEDED(hr) && spInfo != NULL)
                                                        hr = spInfo->GetGUID(GUIDKIND_DEFAULT_SOURCE_DISP_IID, piid);
                                                else
                                                {
                                                        // No, we have to go hunt for it
                                                        CComPtr<ITypeInfo> spInfoCoClass;
                                                        // If we have a clsid, use that
                                                        // Otherwise, try to locate the clsid from IPersist
                                                        CComPtr<IPersist> spPersist;
                                                        CLSID clsid;
                                                        hr = punkObj->QueryInterface(IID_IPersist, (void**)&spPersist);
                                                        if (SUCCEEDED(hr))
                                                        {
                                                                hr = spPersist->GetClassID(&clsid);
                                                                if (SUCCEEDED(hr))
                                                                {
                                                                        hr = spTypeLib->GetTypeInfoOfGuid(clsid, &spInfoCoClass);
                                                                        if (SUCCEEDED(hr))
                                                                        {
                                                                                TYPEATTR* pAttr=NULL;
                                                                                spInfoCoClass->GetTypeAttr(&pAttr);
                                                                                if (pAttr != NULL)
                                                                                {
                                                                                        HREFTYPE hRef;
                                                                                        for (int i = 0; i < pAttr->cImplTypes; i++)
                                                                                        {
                                                                                                int nType;
                                                                                                hr = spInfoCoClass->GetImplTypeFlags(i, &nType);
                                                                                                if (SUCCEEDED(hr))
                                                                                                {
                                                                                                        if (nType == (IMPLTYPEFLAG_FDEFAULT | IMPLTYPEFLAG_FSOURCE))
                                                                                                        {
                                                                                                                // we found it
                                                                                                                hr = spInfoCoClass->GetRefTypeOfImplType(i, &hRef);
                                                                                                                if (SUCCEEDED(hr))
                                                                                                                {
                                                                                                                        CComPtr<ITypeInfo> spInfo;
                                                                                                                        hr = spInfoCoClass->GetRefTypeInfo(hRef, &spInfo);
                                                                                                                        if (SUCCEEDED(hr))
                                                                                                                        {
                                                                                                                                TYPEATTR* pAttrIF;
                                                                                                                                spInfo->GetTypeAttr(&pAttrIF);
                                                                                                                                if (pAttrIF != NULL)
                                                                                                                                {
                                                                                                                                        memcpy(piid, &pAttrIF->guid, sizeof(GUID));
                                                                                                                                }
                                                                                                                                spInfo->ReleaseTypeAttr(pAttrIF);
                                                                                                                        }
                                                                                                                }
                                                                                                                break;
                                                                                                        }
                                                                                                }
                                                                                        }
                                                                                        spInfoCoClass->ReleaseTypeAttr(pAttr);
                                                                                }
                                                                        }
                                                                }
                                                        }
                                                }
                                        }
                                }
                        }
                }
        }
        return hr;
}
#endif // _ATL_DLL


#if defined(_M_IA64)
template <class T>
class CComStdCallThunk
{
public:
        typedef void (__stdcall T::*TMFP)();
        void* pVtable;
        void* pFunc;
        _stdcallthunk thunk;
        void Init(TMFP dw, void* pThis)
        {
                pVtable = &pFunc;
                pFunc = &thunk;         
                union {
                        DWORD_PTR dwFunc;
                        TMFP pfn;
                } pfn;
                pfn.pfn = dw;
                thunk.Init(pfn.dwFunc, pThis);
        }
};
#elif defined(_M_AMD64) || defined(_M_IX86)
template <class T>
class CComStdCallThunk
{
public:
        typedef void (__stdcall T::*TMFP)();
        void *pVTable;
        void *pThis;
        TMFP pfn;
        void (__stdcall *pfnHelper)();

        
        void Init(TMFP pf, void *p);
};

#if defined(_M_AMD64)
#pragma comment(lib, "atlamd64.lib")
extern "C" void CComStdCallThunkHelper(void);
#else

inline void __declspec(naked) __stdcall CComStdCallThunkHelper()
{
        __asm
        {
                mov eax, [esp+4];       // get pThunk
                mov edx, [eax+4];       // get the pThunk->pThis
                mov [esp+4], edx;       // replace pThunk with pThis
                mov eax, [eax+8];       // get pThunk->pfn
                jmp eax;                // jump pfn
        };
}
#endif

template <class T>
void CComStdCallThunk<T>::Init(TMFP pf, void *p)
{
        pfnHelper = CComStdCallThunkHelper;
        pVTable = &pfnHelper;
        pThis = p;
        pfn = pf;
}

#else
#error "No Target Architecture"
#endif // _M_IX86

#ifndef _ATL_MAX_VARTYPES
#define _ATL_MAX_VARTYPES 8
#endif

struct _ATL_FUNC_INFO
{
        CALLCONV cc;
        VARTYPE vtReturn;
        SHORT nParams;
        VARTYPE pVarTypes[_ATL_MAX_VARTYPES];
};

class ATL_NO_VTABLE _IDispEvent
{
public:
        _IDispEvent() {m_dwEventCookie = 0xFEFEFEFE;}
        //this method needs a different name than QueryInterface
        STDMETHOD(_LocDEQueryInterface)(REFIID riid, void ** ppvObject) = 0;
        virtual ULONG STDMETHODCALLTYPE AddRef(void) = 0;
        virtual ULONG STDMETHODCALLTYPE Release(void) = 0;
        GUID m_libid; // used for dynamic case
        IID m_iid; // used for dynamic case
    unsigned short m_wMajorVerNum;    // Major version number. used for dynamic case
    unsigned short m_wMinorVerNum;    // Minor version number. used for dynamic case
        DWORD m_dwEventCookie;
        HRESULT DispEventAdvise(IUnknown* pUnk, const IID* piid)
        {
                ATLASSERT(m_dwEventCookie == 0xFEFEFEFE);
                return AtlAdvise(pUnk, (IUnknown*)this, *piid, &m_dwEventCookie);
        }
        HRESULT DispEventUnadvise(IUnknown* pUnk, const IID* piid)
        {
                HRESULT hr = AtlUnadvise(pUnk, *piid, m_dwEventCookie);
                m_dwEventCookie = 0xFEFEFEFE;
                return hr;
        }
};

template <UINT nID, const IID* piid>
class ATL_NO_VTABLE _IDispEventLocator : public _IDispEvent
{
public:
};

template <UINT nID, class T, const IID* pdiid>
class ATL_NO_VTABLE IDispEventSimpleImpl : public _IDispEventLocator<nID, pdiid>
{
public:
        STDMETHOD(_LocDEQueryInterface)(REFIID riid, void ** ppvObject)
        {
                if (InlineIsEqualGUID(riid, *pdiid) ||
                        InlineIsEqualUnknown(riid) ||
                        InlineIsEqualGUID(riid, IID_IDispatch) ||
                        InlineIsEqualGUID(riid, m_iid))
                {
                        if (ppvObject == NULL)
                                return E_POINTER;
                        *ppvObject = this;
                        AddRef();
#ifdef _ATL_DEBUG_INTERFACES
                        _Module.AddThunk((IUnknown**)ppvObject, _T("IDispEventImpl"), riid);
#endif // _ATL_DEBUG_INTERFACES
                        return S_OK;
                }
                else
                        return E_NOINTERFACE;
        }

        // These are here only to support use in non-COM objects        
        virtual ULONG STDMETHODCALLTYPE AddRef()
        {
                return 1;
        }
        virtual ULONG STDMETHODCALLTYPE Release()
        {
                return 1;
        }

        STDMETHOD(GetTypeInfoCount)(UINT* pctinfo)
        {return E_NOTIMPL;}

        STDMETHOD(GetTypeInfo)(UINT itinfo, LCID lcid, ITypeInfo** pptinfo)
        {return E_NOTIMPL;}

        STDMETHOD(GetIDsOfNames)(REFIID riid, LPOLESTR* rgszNames, UINT cNames,
                LCID lcid, DISPID* rgdispid)
        {return E_NOTIMPL;}

        STDMETHOD(Invoke)(DISPID dispidMember, REFIID riid,
                LCID lcid, WORD /*wFlags*/, DISPPARAMS* pdispparams, VARIANT* pvarResult,
                EXCEPINFO* /*pexcepinfo*/, UINT* /*puArgErr*/)
        {
                T* pT = static_cast<T*>(this);
                const _ATL_EVENT_ENTRY<T>* pMap = T::_GetSinkMap();
                const _ATL_EVENT_ENTRY<T>* pFound = NULL;
                void (__stdcall T::*pEvent)() = NULL;
                while (pMap->piid != NULL)
                {
                        if ((pMap->nControlID == nID) && (pMap->dispid == dispidMember) &&
                                (pMap->piid == pdiid)) //comparing pointers here should be adequate
                        {
                                pFound = pMap;
                                break;
                        }
                        pMap++;
                }
                if (pFound == NULL)
                        return S_OK;
                

                _ATL_FUNC_INFO info;
                _ATL_FUNC_INFO* pInfo;
                if (pFound->pInfo != NULL)
                        pInfo = pFound->pInfo;
                else
                {
                        pInfo = &info;
                        HRESULT hr = GetFuncInfoFromId(*pdiid, dispidMember, lcid, info);
                        if (FAILED(hr))
                                return S_OK;
                }
                InvokeFromFuncInfo(pFound->pfn, *pInfo, pdispparams, pvarResult);
                return S_OK;
        }

        //Helper for invoking the event
        HRESULT InvokeFromFuncInfo(void (__stdcall T::*pEvent)(), _ATL_FUNC_INFO& info, DISPPARAMS* pdispparams, VARIANT* pvarResult)
        {
                T* pT = static_cast<T*>(this);
                VARIANTARG** pVarArgs = info.nParams ? (VARIANTARG**)alloca(sizeof(VARIANTARG*)*info.nParams) : 0;
                for (int i=0; i<info.nParams; i++)
                        pVarArgs[i] = &pdispparams->rgvarg[info.nParams - i - 1];

                CComStdCallThunk<T> thunk;
                thunk.Init(pEvent, pT);
                CComVariant tmpResult;
                if (pvarResult == NULL)
                        pvarResult = &tmpResult;

                HRESULT hr = DispCallFunc(
                        &thunk,
                        0,
                        info.cc,
                        info.vtReturn,
                        info.nParams,
                        info.pVarTypes,
                        pVarArgs,
                        pvarResult);
                ATLASSERT(SUCCEEDED(hr));
                return hr;
        }

        //Helper for finding the function index for a DISPID
        virtual HRESULT GetFuncInfoFromId(const IID& iid, DISPID dispidMember, LCID lcid, _ATL_FUNC_INFO& info)
        {
                return E_NOTIMPL;
        }
        //Helpers for sinking events on random IUnknown*
        HRESULT DispEventAdvise(IUnknown* pUnk, const IID* piid)
        {
                ATLASSERT(m_dwEventCookie == 0xFEFEFEFE);
                return AtlAdvise(pUnk, (IUnknown*)this, *piid, &m_dwEventCookie);
        }
        HRESULT DispEventUnadvise(IUnknown* pUnk, const IID* piid)
        {
                HRESULT hr = AtlUnadvise(pUnk, *piid, m_dwEventCookie);
                m_dwEventCookie = 0xFEFEFEFE;
                return hr;
        }
        HRESULT DispEventAdvise(IUnknown* pUnk)
        {
                return _IDispEvent::DispEventAdvise(pUnk, pdiid);
        }
        HRESULT DispEventUnadvise(IUnknown* pUnk)
        {
                return _IDispEvent::DispEventUnadvise(pUnk, pdiid);
        }
};

//Helper for advising connections points from a sink map
template <class T>
inline HRESULT AtlAdviseSinkMap(T* pT, bool bAdvise)
{
        ATLASSERT(::IsWindow(pT->m_hWnd));
        const _ATL_EVENT_ENTRY<T>* pEntries = T::_GetSinkMap();
        if (pEntries == NULL)
                return S_OK;
        HRESULT hr = S_OK;
        while (pEntries->piid != NULL)
        {
                _IDispEvent* pDE = (_IDispEvent*)((DWORD_PTR)pT+pEntries->nOffset);
                bool bNotAdvised = pDE->m_dwEventCookie == 0xFEFEFEFE;
                if (bAdvise ^ bNotAdvised)
                {
                        pEntries++;
                        continue;
                }
                hr = E_FAIL;
                HWND h = pT->GetDlgItem(pEntries->nControlID);
                ATLASSERT(h != NULL);
                if (h != NULL)
                {
                        CComPtr<IUnknown> spUnk;
                        AtlAxGetControl(h, &spUnk);
                        ATLASSERT(spUnk != NULL);
                        if (spUnk != NULL)
                        {
                                if (bAdvise)
                                {
                                        if (!InlineIsEqualGUID(IID_NULL, *pEntries->piid))
                                                hr = pDE->DispEventAdvise(spUnk, pEntries->piid);
                                        else
                                        {
                                                AtlGetObjectSourceInterface(spUnk, &pDE->m_libid, &pDE->m_iid, &pDE->m_wMajorVerNum, &pDE->m_wMinorVerNum);
                                                hr = pDE->DispEventAdvise(spUnk, &pDE->m_iid);
                                        }
                                }
                                else
                                {
                                        if (!InlineIsEqualGUID(IID_NULL, *pEntries->piid))
                                                hr = pDE->DispEventUnadvise(spUnk, pEntries->piid);
                                        else
                                                hr = pDE->DispEventUnadvise(spUnk, &pDE->m_iid);
                                }
                                ATLASSERT(hr == S_OK);
                        }
                }
                if (FAILED(hr))
                        break;
                pEntries++;
        }
        return hr;
}

template <UINT nID, class T, const IID* pdiid = &IID_NULL, const GUID* plibid = &GUID_NULL,
        WORD wMajor = 0, WORD wMinor = 0, class tihclass = CComTypeInfoHolder>
class ATL_NO_VTABLE IDispEventImpl : public IDispEventSimpleImpl<nID, T, pdiid>
{
public:
        typedef tihclass _tihclass;

        IDispEventImpl()
        {
                m_libid = *plibid;
                m_iid = *pdiid;
                m_wMajorVerNum = wMajor;
                m_wMinorVerNum = wMinor;
        }

        STDMETHOD(GetTypeInfoCount)(UINT* pctinfo)
        {*pctinfo = 1; return S_OK;}

        STDMETHOD(GetTypeInfo)(UINT itinfo, LCID lcid, ITypeInfo** pptinfo)
        {return _tih.GetTypeInfo(itinfo, lcid, pptinfo);}

        STDMETHOD(GetIDsOfNames)(REFIID riid, LPOLESTR* rgszNames, UINT cNames,
                LCID lcid, DISPID* rgdispid)
        {return _tih.GetIDsOfNames(riid, rgszNames, cNames, lcid, rgdispid);}

        //Helper for finding the function index for a DISPID
        HRESULT GetFuncInfoFromId(const IID& /*iid*/, DISPID dispidMember, LCID lcid, _ATL_FUNC_INFO& info)
        {
                CComPtr<ITypeInfo> spTypeInfo;
                if (InlineIsEqualGUID(*_tih.m_plibid, GUID_NULL))
                {
                        _tih.m_plibid = &m_libid;
                        _tih.m_pguid = &m_iid;
                        _tih.m_wMajor = m_wMajorVerNum;
                        _tih.m_wMinor = m_wMinorVerNum;
                }
                HRESULT hr = _tih.GetTI(lcid, &spTypeInfo);
                if (FAILED(hr))
                        return hr;
                CComQIPtr<ITypeInfo2, &IID_ITypeInfo2> spTypeInfo2 = spTypeInfo;
                FUNCDESC* pFuncDesc = NULL;
                if (spTypeInfo2 != NULL)
                {
                        UINT nIndex;
                        hr = spTypeInfo2->GetFuncIndexOfMemId(dispidMember, INVOKE_FUNC, &nIndex);
                        if (FAILED(hr))
                                return hr;
                        hr = spTypeInfo->GetFuncDesc(nIndex, &pFuncDesc);
                        if (FAILED(hr))
                                return hr;
                }
                else // search for funcdesc
                {
                        TYPEATTR* pAttr;
                        hr = spTypeInfo->GetTypeAttr(&pAttr);
                        if (FAILED(hr))
                                return hr;
                        for (int i=0;i<pAttr->cFuncs;i++)
                        {
                                hr = spTypeInfo->GetFuncDesc(i, &pFuncDesc);
                                if (FAILED(hr))
                                        return hr;
                                if (pFuncDesc->memid == dispidMember)
                                        break;
                                spTypeInfo->ReleaseFuncDesc(pFuncDesc);
                                pFuncDesc = NULL;
                        }
                        spTypeInfo->ReleaseTypeAttr(pAttr);
                        if (pFuncDesc == NULL)
                                return E_FAIL;
                }

                // If this assert occurs, then add a #define _ATL_MAX_VARTYPES nnnn
                // before including atlcom.h
                ATLASSERT(pFuncDesc->cParams <= _ATL_MAX_VARTYPES);
                if (pFuncDesc->cParams > _ATL_MAX_VARTYPES)
                        return E_FAIL;

                for (int i=0; i<pFuncDesc->cParams; i++)
                {
                        info.pVarTypes[i] = pFuncDesc->lprgelemdescParam[pFuncDesc->cParams - i - 1].tdesc.vt;
                        if (info.pVarTypes[i] == VT_PTR)
                                info.pVarTypes[i] = pFuncDesc->lprgelemdescParam[pFuncDesc->cParams - i - 1].tdesc.lptdesc->vt | VT_BYREF;
                        if (info.pVarTypes[i] == VT_USERDEFINED)
                                info.pVarTypes[i] = GetUserDefinedType(spTypeInfo,pFuncDesc->lprgelemdescParam[pFuncDesc->cParams-i-1].tdesc.hreftype);
                }

                VARTYPE vtReturn = pFuncDesc->elemdescFunc.tdesc.vt;
                switch(vtReturn)
                {
                case VT_INT:
                        vtReturn = VT_I4;
                        break;
                case VT_UINT:
                        vtReturn = VT_UI4;
                        break;
                case VT_VOID:
                        vtReturn = VT_EMPTY; // this is how DispCallFunc() represents void
                        break;
                case VT_HRESULT:
                        vtReturn = VT_ERROR;
                        break;
                }
                info.vtReturn = vtReturn;
                info.cc = pFuncDesc->callconv;
                info.nParams = pFuncDesc->cParams;
                spTypeInfo->ReleaseFuncDesc(pFuncDesc);
                return S_OK;
        }
        VARTYPE GetUserDefinedType(ITypeInfo *pTI, HREFTYPE hrt)
        {
                CComPtr<ITypeInfo> spTypeInfo;
                VARTYPE vt = VT_USERDEFINED;
                HRESULT hr = E_FAIL;
                hr = pTI->GetRefTypeInfo(hrt, &spTypeInfo);
                if(FAILED(hr))
                        return vt;
                TYPEATTR *pta=NULL;

                spTypeInfo->GetTypeAttr(&pta);
                if(pta && pta->typekind == TKIND_ALIAS)
                {
                        if (pta->tdescAlias.vt == VT_USERDEFINED)
                                GetUserDefinedType(spTypeInfo,pta->tdescAlias.hreftype);
                        else
                                vt = pta->tdescAlias.vt;
                }
        
                if(pta)
                        spTypeInfo->ReleaseTypeAttr(pta);
                return vt;

        }
protected:
        static _tihclass _tih;
        static HRESULT GetTI(LCID lcid, ITypeInfo** ppInfo)
        {return _tih.GetTI(lcid, ppInfo);}
};


template <UINT nID, class T, const IID* piid, const GUID* plibid, WORD wMajor, WORD wMinor, class tihclass>
IDispEventImpl<nID, T, piid, plibid, wMajor, wMinor, tihclass>::_tihclass
IDispEventImpl<nID, T, piid, plibid, wMajor, wMinor, tihclass>::_tih =
        {piid, plibid, wMajor, wMinor, NULL, 0, NULL, 0};

template <class T>
struct _ATL_EVENT_ENTRY
{
        UINT nControlID;                        //ID identifying object instance
        const IID* piid;                        //dispinterface IID
        INT_PTR nOffset;                    //offset of dispinterface from this pointer
        DISPID dispid;                          //DISPID of method/property
        void (__stdcall T::*pfn)();     //method to invoke
        _ATL_FUNC_INFO* pInfo;
};



//Sink map is used to set up event handling
#define BEGIN_SINK_MAP(_class)\
        static const _ATL_EVENT_ENTRY<_class>* _GetSinkMap()\
        {\
                typedef _class _atl_event_classtype;\
                static const _ATL_EVENT_ENTRY<_class> map[] = {


#define SINK_ENTRY_INFO(id, iid, dispid, fn, info) {id, &iid, (INT_PTR)(static_cast<_IDispEventLocator<id, &iid>*>((_atl_event_classtype*)8))-8, dispid, (void (__stdcall _atl_event_classtype::*)())fn, info},
#define SINK_ENTRY_EX(id, iid, dispid, fn) SINK_ENTRY_INFO(id, iid, dispid, fn, NULL)
#define SINK_ENTRY(id, dispid, fn) SINK_ENTRY_EX(id, IID_NULL, dispid, fn)
#define END_SINK_MAP() {0, NULL, 0, 0, NULL, NULL} }; return map;}

/////////////////////////////////////////////////////////////////////////////
// IDispatchImpl

template <class T, const IID* piid, const GUID* plibid = &CComModule::m_libid, WORD wMajor = 1,
WORD wMinor = 0, class tihclass = CComTypeInfoHolder>
class ATL_NO_VTABLE IDispatchImpl : public T
{
public:
        typedef tihclass _tihclass;
// IDispatch
        STDMETHOD(GetTypeInfoCount)(UINT* pctinfo)
        {
                *pctinfo = 1;
                return S_OK;
        }
        STDMETHOD(GetTypeInfo)(UINT itinfo, LCID lcid, ITypeInfo** pptinfo)
        {
                return _tih.GetTypeInfo(itinfo, lcid, pptinfo);
        }
        STDMETHOD(GetIDsOfNames)(REFIID riid, LPOLESTR* rgszNames, UINT cNames,
                LCID lcid, DISPID* rgdispid)
        {
                return _tih.GetIDsOfNames(riid, rgszNames, cNames, lcid, rgdispid);
        }
        STDMETHOD(Invoke)(DISPID dispidMember, REFIID riid,
                LCID lcid, WORD wFlags, DISPPARAMS* pdispparams, VARIANT* pvarResult,
                EXCEPINFO* pexcepinfo, UINT* puArgErr)
        {
                return _tih.Invoke((IDispatch*)this, dispidMember, riid, lcid,
                wFlags, pdispparams, pvarResult, pexcepinfo, puArgErr);
        }
protected:
        static _tihclass _tih;
        static HRESULT GetTI(LCID lcid, ITypeInfo** ppInfo)
        {
                return _tih.GetTI(lcid, ppInfo);
        }
};

template <class T, const IID* piid, const GUID* plibid, WORD wMajor, WORD wMinor, class tihclass>
IDispatchImpl<T, piid, plibid, wMajor, wMinor, tihclass>::_tihclass
IDispatchImpl<T, piid, plibid, wMajor, wMinor, tihclass>::_tih =
{piid, plibid, wMajor, wMinor, NULL, 0, NULL, 0};


/////////////////////////////////////////////////////////////////////////////
// IProvideClassInfoImpl
template <const CLSID* pcoclsid, const GUID* plibid = &CComModule::m_libid,
WORD wMajor = 1, WORD wMinor = 0, class tihclass = CComTypeInfoHolder>
class ATL_NO_VTABLE IProvideClassInfoImpl : public IProvideClassInfo
{
public:
        typedef tihclass _tihclass;

        STDMETHOD(GetClassInfo)(ITypeInfo** pptinfo)
        {
                return _tih.GetTypeInfo(0, LANG_NEUTRAL, pptinfo);
        }

protected:
        static _tihclass _tih;
};

template <const CLSID* pcoclsid, const GUID* plibid, WORD wMajor, WORD wMinor, class tihclass>
IProvideClassInfoImpl<pcoclsid, plibid, wMajor, wMinor, tihclass>::_tihclass
IProvideClassInfoImpl<pcoclsid, plibid, wMajor, wMinor, tihclass>::_tih =
{pcoclsid,plibid, wMajor, wMinor, NULL, 0, NULL, 0};

/////////////////////////////////////////////////////////////////////////////
// IProvideClassInfo2Impl
template <const CLSID* pcoclsid, const IID* psrcid, const GUID* plibid = &CComModule::m_libid,
WORD wMajor = 1, WORD wMinor = 0, class tihclass = CComTypeInfoHolder>
class ATL_NO_VTABLE IProvideClassInfo2Impl : public IProvideClassInfo2
{
public:
        typedef tihclass _tihclass;

        STDMETHOD(GetClassInfo)(ITypeInfo** pptinfo)
        {
                return _tih.GetTypeInfo(0, LANG_NEUTRAL, pptinfo);
        }
        STDMETHOD(GetGUID)(DWORD dwGuidKind, GUID* pGUID)
        {
                if (pGUID == NULL)
                        return E_POINTER;

                if (dwGuidKind == GUIDKIND_DEFAULT_SOURCE_DISP_IID && psrcid)
                {
                        *pGUID = *psrcid;
                        return S_OK;
                }
                *pGUID = GUID_NULL;
                return E_FAIL;
        }

protected:
        static _tihclass _tih;
};


template <const CLSID* pcoclsid, const IID* psrcid, const GUID* plibid, WORD wMajor, WORD wMinor, class tihclass>
IProvideClassInfo2Impl<pcoclsid, psrcid, plibid, wMajor, wMinor, tihclass>::_tihclass
IProvideClassInfo2Impl<pcoclsid, psrcid, plibid, wMajor, wMinor, tihclass>::_tih =
{pcoclsid,plibid, wMajor, wMinor, NULL, 0, NULL, 0};


/////////////////////////////////////////////////////////////////////////////
// ISupportErrorInfoImpl

template <const IID* piid>
class ATL_NO_VTABLE ISupportErrorInfoImpl : public ISupportErrorInfo
{
public:
        STDMETHOD(InterfaceSupportsErrorInfo)(REFIID riid)
        {
                return (InlineIsEqualGUID(riid,*piid)) ? S_OK : S_FALSE;
        }
};


/////////////////////////////////////////////////////////////////////////////
// CComEnumImpl

// These _CopyXXX classes are used with enumerators in order to control
// how enumerated items are initialized, copied, and deleted

// Default is shallow copy with no special init or cleanup
template <class T>
class _Copy
{
public:
        static HRESULT copy(T* p1, T* p2) {memcpy(p1, p2, sizeof(T)); return S_OK;}
        static void init(T*) {}
        static void destroy(T*) {}
};

template<>
class _Copy<VARIANT>
{
public:
        static HRESULT copy(VARIANT* p1, VARIANT* p2) {return VariantCopy(p1, p2);}
        static void init(VARIANT* p) {p->vt = VT_EMPTY;}
        static void destroy(VARIANT* p) {VariantClear(p);}
};

template<>
class _Copy<LPOLESTR>
{
public:
        static HRESULT copy(LPOLESTR* p1, LPOLESTR* p2)
        {
                HRESULT hr = S_OK;
                (*p1) = (LPOLESTR)CoTaskMemAlloc(sizeof(OLECHAR)*(ocslen(*p2)+1));
                if (*p1 == NULL)
                        hr = E_OUTOFMEMORY;
                else
                        ocscpy(*p1,*p2);
                return hr;
        }
        static void init(LPOLESTR* p) {*p = NULL;}
        static void destroy(LPOLESTR* p) { CoTaskMemFree(*p);}
};

template<>
class _Copy<OLEVERB>
{
public:
        static HRESULT copy(OLEVERB* p1, OLEVERB* p2)
        {
                HRESULT hr = S_OK;
                *p1 = *p2;
                if (p2->lpszVerbName == NULL)
                        return S_OK;
                p1->lpszVerbName = (LPOLESTR)CoTaskMemAlloc(sizeof(OLECHAR)*(ocslen(p2->lpszVerbName)+1));
                if (p1->lpszVerbName == NULL)
                        hr = E_OUTOFMEMORY;
                else
                        ocscpy(p1->lpszVerbName,p2->lpszVerbName);
                return hr;
        }
        static void init(OLEVERB* p) { p->lpszVerbName = NULL;}
        static void destroy(OLEVERB* p) { if (p->lpszVerbName) CoTaskMemFree(p->lpszVerbName);}
};

template<>
class _Copy<CONNECTDATA>
{
public:
        static HRESULT copy(CONNECTDATA* p1, CONNECTDATA* p2)
        {
                *p1 = *p2;
                if (p1->pUnk)
                        p1->pUnk->AddRef();
                return S_OK;
        }
        static void init(CONNECTDATA* ) {}
        static void destroy(CONNECTDATA* p) {if (p->pUnk) p->pUnk->Release();}
};

template <class T>
class _CopyInterface
{
public:
        static HRESULT copy(T** p1, T** p2)
        {
                *p1 = *p2;
                if (*p1)
                        (*p1)->AddRef();
                return S_OK;
        }
        static void init(T** ) {}
        static void destroy(T** p) {if (*p) (*p)->Release();}
};

template<class T>
class ATL_NO_VTABLE CComIEnum : public IUnknown
{
public:
        STDMETHOD(Next)(ULONG celt, T* rgelt, ULONG* pceltFetched) = 0;
        STDMETHOD(Skip)(ULONG celt) = 0;
        STDMETHOD(Reset)(void) = 0;
        STDMETHOD(Clone)(CComIEnum<T>** ppEnum) = 0;
};


enum CComEnumFlags
{
        //see FlagBits in CComEnumImpl
        AtlFlagNoCopy = 0,
        AtlFlagTakeOwnership = 2,
        AtlFlagCopy = 3 // copy implies ownership
};

template <class Base, const IID* piid, class T, class Copy>
class ATL_NO_VTABLE CComEnumImpl : public Base
{
public:
        CComEnumImpl() {m_begin = m_end = m_iter = NULL; m_dwFlags = 0;}
        ~CComEnumImpl();
        STDMETHOD(Next)(ULONG celt, T* rgelt, ULONG* pceltFetched);
        STDMETHOD(Skip)(ULONG celt);
        STDMETHOD(Reset)(void){m_iter = m_begin;return S_OK;}
        STDMETHOD(Clone)(Base** ppEnum);
        HRESULT Init(T* begin, T* end, IUnknown* pUnk,
                CComEnumFlags flags = AtlFlagNoCopy);
        CComPtr<IUnknown> m_spUnk;
        T* m_begin;
        T* m_end;
        T* m_iter;
        DWORD m_dwFlags;
protected:
        enum FlagBits
        {
                BitCopy=1,
                BitOwn=2
        };
};

template <class Base, const IID* piid, class T, class Copy>
CComEnumImpl<Base, piid, T, Copy>::~CComEnumImpl()
{
        if (m_dwFlags & BitOwn)
        {
                for (T* p = m_begin; p != m_end; p++)
                        Copy::destroy(p);
                delete [] m_begin;
        }
}

template <class Base, const IID* piid, class T, class Copy>
STDMETHODIMP CComEnumImpl<Base, piid, T, Copy>::Next(ULONG celt, T* rgelt,
        ULONG* pceltFetched)
{
    if ((celt == 0) && (rgelt == NULL) && (NULL != pceltFetched))
    {
        // Return the number of remaining elements
        *pceltFetched = (ULONG)(m_end - m_iter);
        return S_OK;
    }
        if (rgelt == NULL || (celt != 1 && pceltFetched == NULL))
                return E_POINTER;
        if (m_begin == NULL || m_end == NULL || m_iter == NULL)
                return E_FAIL;
        ULONG nRem = (ULONG)(m_end - m_iter);
        HRESULT hRes = S_OK;
        if (nRem < celt)
                hRes = S_FALSE;
        ULONG nMin = min(celt, nRem);
        if (pceltFetched != NULL)
                *pceltFetched = nMin;
        T* pelt = rgelt;
        while(nMin--)
        {
                HRESULT hr = Copy::copy(pelt, m_iter);
                if (FAILED(hr))
                {
                        while (rgelt < pelt)
                                Copy::destroy(rgelt++);
                        if (pceltFetched != NULL)
                                *pceltFetched = 0;
                        return hr;
                }
                pelt++;
                m_iter++;
        }
        return hRes;
}

template <class Base, const IID* piid, class T, class Copy>
STDMETHODIMP CComEnumImpl<Base, piid, T, Copy>::Skip(ULONG celt)
{
        m_iter += celt;
    if (m_iter > m_end)
        {
        m_iter = m_end;
        return S_FALSE;
    }
    if (m_iter < m_begin)
        {       
        m_iter = m_begin;
        return S_FALSE;
    }
    return S_OK;
}

template <class Base, const IID* piid, class T, class Copy>
STDMETHODIMP CComEnumImpl<Base, piid, T, Copy>::Clone(Base** ppEnum)
{
        typedef CComObject<CComEnum<Base, piid, T, Copy> > _class;
        HRESULT hRes = E_POINTER;
        if (ppEnum != NULL)
        {
                *ppEnum = NULL;
                _class* p;
                hRes = _class::CreateInstance(&p);
                if (SUCCEEDED(hRes))
                {
                        // If the data is a copy then we need to keep "this" object around
                        hRes = p->Init(m_begin, m_end, (m_dwFlags & BitCopy) ? this : m_spUnk);
                        if (SUCCEEDED(hRes))
                        {
                                p->m_iter = m_iter;
                                hRes = p->_InternalQueryInterface(*piid, (void**)ppEnum);
                        }
                        if (FAILED(hRes))
                                delete p;
                }
        }
        return hRes;
}

template <class Base, const IID* piid, class T, class Copy>
HRESULT CComEnumImpl<Base, piid, T, Copy>::Init(T* begin, T* end, IUnknown* pUnk,
        CComEnumFlags flags)
{
        if (flags == AtlFlagCopy)
        {
                ATLASSERT(m_begin == NULL); //Init called twice?
                ATLTRY(m_begin = new T[ULONG(end-begin)])
                m_iter = m_begin;
                if (m_begin == NULL)
                        return E_OUTOFMEMORY;
                for (T* i=begin; i != end; i++)
                {
                        Copy::init(m_iter);
                        HRESULT hr = Copy::copy(m_iter, i);
                        if (FAILED(hr))
                        {
                                T* p = m_begin;
                                while (p < m_iter)
                                        Copy::destroy(p++);
                                delete [] m_begin;
                                m_begin = m_end = m_iter = NULL;
                                return hr;
                        }
                        m_iter++;
                }
                m_end = m_begin + (end-begin);
        }
        else
        {
                m_begin = begin;
                m_end = end;
        }
        m_spUnk = pUnk;
        m_iter = m_begin;
        m_dwFlags = flags;
        return S_OK;
}

template <class Base, const IID* piid, class T, class Copy, class ThreadModel = CComObjectThreadModel>
class ATL_NO_VTABLE CComEnum :
        public CComEnumImpl<Base, piid, T, Copy>,
        public CComObjectRootEx< ThreadModel >
{
public:
        typedef CComEnum<Base, piid, T, Copy > _CComEnum;
        typedef CComEnumImpl<Base, piid, T, Copy > _CComEnumBase;
        BEGIN_COM_MAP(_CComEnum)
                COM_INTERFACE_ENTRY_IID(*piid, _CComEnumBase)
        END_COM_MAP()
};

template <class Base, const IID* piid, class T, class Copy, class CollType>
class ATL_NO_VTABLE IEnumOnSTLImpl : public Base
{
public:
        HRESULT Init(IUnknown *pUnkForRelease, CollType& collection)
        {
                m_spUnk = pUnkForRelease;
                m_pcollection = &collection;
                m_iter = m_pcollection->begin();
                return S_OK;
        }
        STDMETHOD(Next)(ULONG celt, T* rgelt, ULONG* pceltFetched);
        STDMETHOD(Skip)(ULONG celt);
        STDMETHOD(Reset)(void)
        {
                if (m_pcollection == NULL)
                        return E_FAIL;
                m_iter = m_pcollection->begin();
                return S_OK;
        }
        STDMETHOD(Clone)(Base** ppEnum);
//Data
        CComPtr<IUnknown> m_spUnk;
        CollType* m_pcollection;
        CollType::iterator m_iter;
};

template <class Base, const IID* piid, class T, class Copy, class CollType>
STDMETHODIMP IEnumOnSTLImpl<Base, piid, T, Copy, CollType>::Next(ULONG celt, T* rgelt,
        ULONG* pceltFetched)
{
        if (rgelt == NULL || (celt != 1 && pceltFetched == NULL))
                return E_POINTER;
        if (m_pcollection == NULL)
                return E_FAIL;

        ULONG nActual = 0;
        HRESULT hr = S_OK;
        T* pelt = rgelt;
        while (SUCCEEDED(hr) && m_iter != m_pcollection->end() && nActual < celt)
        {
                hr = Copy::copy(pelt, &*m_iter);
                if (FAILED(hr))
                {
                        while (rgelt < pelt)
                                Copy::destroy(rgelt++);
                        nActual = 0;
                }
                else
                {
                        pelt++;
                        m_iter++;
                        nActual++;
                }
        }
        if (pceltFetched)
                *pceltFetched = nActual;
        if (SUCCEEDED(hr) && (nActual < celt))
                hr = S_FALSE;
        return hr;
}

template <class Base, const IID* piid, class T, class Copy, class CollType>
STDMETHODIMP IEnumOnSTLImpl<Base, piid, T, Copy, CollType>::Skip(ULONG celt)
{
        HRESULT hr = S_OK;
        while (celt--)
        {
                if (m_iter != m_pcollection->end())
                        m_iter++;
                else
                {
                        hr = S_FALSE;
                        break;
                }
        }
        return hr;
}

template <class Base, const IID* piid, class T, class Copy, class CollType>
STDMETHODIMP IEnumOnSTLImpl<Base, piid, T, Copy, CollType>::Clone(Base** ppEnum)
{
        typedef CComObject<CComEnumOnSTL<Base, piid, T, Copy, CollType> > _class;
        HRESULT hRes = E_POINTER;
        if (ppEnum != NULL)
        {
                *ppEnum = NULL;
                _class* p;
                hRes = _class::CreateInstance(&p);
                if (SUCCEEDED(hRes))
                {
                        hRes = p->Init(m_spUnk, *m_pcollection);
                        if (SUCCEEDED(hRes))
                        {
                                p->m_iter = m_iter;
                                hRes = p->_InternalQueryInterface(*piid, (void**)ppEnum);
                        }
                        if (FAILED(hRes))
                                delete p;
                }
        }
        return hRes;
}

template <class Base, const IID* piid, class T, class Copy, class CollType, class ThreadModel = CComObjectThreadModel>
class ATL_NO_VTABLE CComEnumOnSTL :
        public IEnumOnSTLImpl<Base, piid, T, Copy, CollType>,
        public CComObjectRootEx< ThreadModel >
{
public:
        typedef CComEnumOnSTL<Base, piid, T, Copy, CollType, ThreadModel > _CComEnum;
        typedef IEnumOnSTLImpl<Base, piid, T, Copy, CollType > _CComEnumBase;
        BEGIN_COM_MAP(_CComEnum)
                COM_INTERFACE_ENTRY_IID(*piid, _CComEnumBase)
        END_COM_MAP()
};

template <class T, class CollType, class ItemType, class CopyItem, class EnumType>
class ICollectionOnSTLImpl : public T
{
public:
        STDMETHOD(get_Count)(long* pcount)
        {
                if (pcount == NULL)
                        return E_POINTER;
                *pcount = m_coll.size();
                return S_OK;
        }
        STDMETHOD(get_Item)(long Index, ItemType* pvar)
        {
                //Index is 1-based
                if (pvar == NULL)
                        return E_POINTER;
                HRESULT hr = E_FAIL;
                Index--;
                CollType::iterator iter = m_coll.begin();
                while (iter != m_coll.end() && Index > 0)
                {
                        iter++;
                        Index--;
                }
                if (iter != m_coll.end())
                        hr = CopyItem::copy(pvar, &*iter);
                return hr;
        }
        STDMETHOD(get__NewEnum)(IUnknown** ppUnk)
        {
                if (ppUnk == NULL)
                        return E_POINTER;
                *ppUnk = NULL;
                HRESULT hRes = S_OK;
                CComObject<EnumType>* p;
                hRes = CComObject<EnumType>::CreateInstance(&p);
                if (SUCCEEDED(hRes))
                {
                        hRes = p->Init(this, m_coll);
                        if (hRes == S_OK)
                                hRes = p->QueryInterface(IID_IUnknown, (void**)ppUnk);
                }
                if (hRes != S_OK)
                        delete p;
                return hRes;
        }
        CollType m_coll;
};

//////////////////////////////////////////////////////////////////////////////
// ISpecifyPropertyPagesImpl
template <class T>
class ATL_NO_VTABLE ISpecifyPropertyPagesImpl : public ISpecifyPropertyPages
{
public:
        // ISpecifyPropertyPages
        //
        STDMETHOD(GetPages)(CAUUID* pPages)
        {
                ATLTRACE2(atlTraceCOM, 0, _T("ISpecifyPropertyPagesImpl::GetPages\n"));
                ATL_PROPMAP_ENTRY* pMap = T::GetPropertyMap();
                return GetPagesHelper(pPages, pMap);
        }
protected:
        HRESULT GetPagesHelper(CAUUID* pPages, ATL_PROPMAP_ENTRY* pMap)
        {
                ATLASSERT(pMap != NULL);
                if (pMap == NULL)
                        return E_POINTER;

                int nCnt = 0;
                // Get count of unique pages to alloc the array
                for (int i = 0; pMap[i].pclsidPropPage != NULL; i++)
                {
                        // only allow non data entry types
                        if (pMap[i].vt == 0)
                        {
                                // Does this property have a page?  CLSID_NULL means it does not
                                if (!InlineIsEqualGUID(*pMap[i].pclsidPropPage, CLSID_NULL))
                                        nCnt++;
                        }
                }
                pPages->pElems = (GUID*) CoTaskMemAlloc(sizeof(CLSID)*nCnt);
                if (pPages->pElems == NULL)
                        return E_OUTOFMEMORY;
                // reset count of items we have added to the array
                nCnt = 0;
                for (i = 0; pMap[i].pclsidPropPage != NULL; i++)
                {
                        // only allow non data entry types
                        if (pMap[i].vt == 0)
                        {
                                // Does this property have a page?  CLSID_NULL means it does not
                                if (!InlineIsEqualGUID(*pMap[i].pclsidPropPage, CLSID_NULL))
                                {
                                        BOOL bFound = FALSE;
                                        // Search through array we are building up to see
                                        // if it is already in there
                                        for (int j=0; j<nCnt; j++)
                                        {
                                                if (InlineIsEqualGUID(*(pMap[i].pclsidPropPage), pPages->pElems[j]))
                                                {
                                                        // It's already there, so no need to add it again
                                                        bFound = TRUE;
                                                        break;
                                                }
                                        }
                                        // If we didn't find it in there then add it
                                        if (!bFound)
                                                pPages->pElems[nCnt++] = *pMap[i].pclsidPropPage;
                                }
                        }
                }
                pPages->cElems = nCnt;
                return S_OK;
        }

};

#ifndef _ATL_NO_CONNECTION_POINTS
/////////////////////////////////////////////////////////////////////////////
// Connection Points

struct _ATL_CONNMAP_ENTRY
{
        DWORD_PTR dwOffset;
};


// We want the offset of the connection point relative to the connection
// point container base class
#define BEGIN_CONNECTION_POINT_MAP(x)\
        typedef x _atl_conn_classtype;\
        static const _ATL_CONNMAP_ENTRY* GetConnMap(int* pnEntries) {\
        static const _ATL_CONNMAP_ENTRY _entries[] = {
// CONNECTION_POINT_ENTRY computes the offset of the connection point to the
// IConnectionPointContainer interface
#define CONNECTION_POINT_ENTRY(iid){offsetofclass(_ICPLocator<&iid>, _atl_conn_classtype)-\
        offsetofclass(IConnectionPointContainerImpl<_atl_conn_classtype>, _atl_conn_classtype)},
#define END_CONNECTION_POINT_MAP() {(DWORD_PTR)-1} }; \
        if (pnEntries) *pnEntries = sizeof(_entries)/sizeof(_ATL_CONNMAP_ENTRY) - 1; \
        return _entries;}


#ifndef _DEFAULT_VECTORLENGTH
#define _DEFAULT_VECTORLENGTH 4
#endif

template <unsigned int nMaxSize>
class CComUnkArray
{
public:
        CComUnkArray()
        {
                memset(m_arr, 0, sizeof(IUnknown*)*nMaxSize);
        }
        DWORD Add(IUnknown* pUnk);
        BOOL Remove(DWORD dwCookie);
        DWORD WINAPI GetCookie(IUnknown** pp)
        {
                ULONG iIndex;

                iIndex = ULONG(pp-begin());
                return( iIndex+1 );
        }
        IUnknown* WINAPI GetUnknown(DWORD dwCookie)
        {
                if( dwCookie == 0 )
                {
                        return NULL;
                }
                
                ULONG iIndex;
                iIndex = dwCookie-1;
                return( begin()[iIndex] );
        }
        IUnknown** begin()
        {
                return &m_arr[0];
        }
        IUnknown** end()
        {
                return &m_arr[nMaxSize];
        }
protected:
        IUnknown* m_arr[nMaxSize];
};

template <unsigned int nMaxSize>
inline DWORD CComUnkArray<nMaxSize>::Add(IUnknown* pUnk)
{
        for (IUnknown** pp = begin();pp<end();pp++)
        {
                if (*pp == NULL)
                {
                        *pp = pUnk;
                        return (DWORD)((pp-begin())+1); // return cookie
                }
        }
        // If this fires then you need a larger array
        ATLASSERT(0);
        return 0;
}

template <unsigned int nMaxSize>
inline BOOL CComUnkArray<nMaxSize>::Remove(DWORD dwCookie)
{
        ULONG iIndex;

        iIndex = dwCookie-1;
        if (iIndex >= nMaxSize)
        {
                return FALSE;
        }

        begin()[iIndex] = NULL;

        return TRUE;
}

template<>
class CComUnkArray<1>
{
public:
        CComUnkArray()
        {
                m_arr[0] = NULL;
        }
        DWORD Add(IUnknown* pUnk)
        {
                if (m_arr[0] != NULL)
                {
                        // If this fires then you need a larger array
                        ATLASSERT(0);
                        return 0;
                }
                m_arr[0] = pUnk;
                return 1;
        }
        BOOL Remove(DWORD dwCookie)
        {
                if (dwCookie != 1)
                        return FALSE;
                m_arr[0] = NULL;
                return TRUE;
        }
        DWORD WINAPI GetCookie(IUnknown** /*pp*/)
        {
                return 1;
        }
        IUnknown* WINAPI GetUnknown(DWORD dwCookie)
        {
                if (dwCookie != 1)
                {
                        return NULL;
                }

                return *begin();
        }
        IUnknown** begin()
        {
                return &m_arr[0];
        }
        IUnknown** end()
        {
                return (&m_arr[0])+1;
        }
protected:
        IUnknown* m_arr[1];
};

class CComDynamicUnkArray
{
public:
        CComDynamicUnkArray()
        {
                m_nSize = 0;
                m_ppUnk = NULL;
        }

        ~CComDynamicUnkArray()
        {
                if (m_nSize > 1)
                        free(m_ppUnk);
        }
        DWORD Add(IUnknown* pUnk);
        BOOL Remove(DWORD dwCookie);
        DWORD WINAPI GetCookie(IUnknown** pp)
        {
                ULONG iIndex;
                iIndex = ULONG(pp-begin());
                return iIndex+1;
        }
        IUnknown* WINAPI GetUnknown(DWORD dwCookie)
        {
                ULONG iIndex;

                if (dwCookie == 0)
                        return NULL;

                iIndex = dwCookie-1;
                return begin()[iIndex];
        }
        IUnknown** begin()
        {
                return (m_nSize < 2) ? &m_pUnk : m_ppUnk;
        }
        IUnknown** end()
        {
                return (m_nSize < 2) ? (&m_pUnk)+m_nSize : &m_ppUnk[m_nSize];
        }

        IUnknown* GetAt(int nIndex)
        {
                if (nIndex < 0 || nIndex >= m_nSize)
                        return NULL;

                return (m_nSize < 2) ? m_pUnk : m_ppUnk[nIndex];
        }
        int GetSize() const
        {
                return m_nSize;
        }

        void clear()
        {
                if (m_nSize > 1)
                        free(m_ppUnk);
                m_nSize = 0;
        }
protected:
        union
        {
                IUnknown** m_ppUnk;
                IUnknown* m_pUnk;
        };
        int m_nSize;
};

inline DWORD CComDynamicUnkArray::Add(IUnknown* pUnk)
{
        ULONG iIndex;

        IUnknown** pp = NULL;
        if (m_nSize == 0) // no connections
        {
                m_pUnk = pUnk;
                m_nSize = 1;
                return 1;
        }
        else if (m_nSize == 1)
        {
                //create array
                pp = (IUnknown**)malloc(sizeof(IUnknown*)*_DEFAULT_VECTORLENGTH);
                if (pp == NULL)
                        return 0;
                memset(pp, 0, sizeof(IUnknown*)*_DEFAULT_VECTORLENGTH);
                *pp = m_pUnk;
                m_ppUnk = pp;
                m_nSize = _DEFAULT_VECTORLENGTH;
        }
        for (pp = begin();pp<end();pp++)
        {
                if (*pp == NULL)
                {
                        *pp = pUnk;
                        iIndex = ULONG(pp-begin());
                        return iIndex+1;
                }
        }
        int nAlloc = m_nSize*2;
        pp = (IUnknown**)realloc(m_ppUnk, sizeof(IUnknown*)*nAlloc);
        if (pp == NULL)
                return 0;
        m_ppUnk = pp;
        memset(&m_ppUnk[m_nSize], 0, sizeof(IUnknown*)*m_nSize);
        m_ppUnk[m_nSize] = pUnk;
        iIndex = m_nSize;
        m_nSize = nAlloc;
        return iIndex+1;
}

inline BOOL CComDynamicUnkArray::Remove(DWORD dwCookie)
{
        ULONG iIndex;
        if (dwCookie == NULL)
                return FALSE;
        if (m_nSize == 0)
                return FALSE;
        iIndex = dwCookie-1;
        if (iIndex >= (ULONG)m_nSize)
                return FALSE;
        if (m_nSize == 1)
        {
                m_nSize = 0;
                return TRUE;
        }
        begin()[iIndex] = NULL;

        return TRUE;
}

template <const IID* piid>
class ATL_NO_VTABLE _ICPLocator
{
public:
        //this method needs a different name than QueryInterface
        STDMETHOD(_LocCPQueryInterface)(REFIID riid, void ** ppvObject) = 0;
        virtual ULONG STDMETHODCALLTYPE AddRef(void) = 0;\
        virtual ULONG STDMETHODCALLTYPE Release(void) = 0;
};

template <class T, const IID* piid, class CDV = CComDynamicUnkArray >
class ATL_NO_VTABLE IConnectionPointImpl : public _ICPLocator<piid>
{
        typedef CComEnum<IEnumConnections, &IID_IEnumConnections, CONNECTDATA,
                _Copy<CONNECTDATA> > CComEnumConnections;
        typedef CDV _CDV;
public:
        ~IConnectionPointImpl();
        STDMETHOD(_LocCPQueryInterface)(REFIID riid, void ** ppvObject)
        {
                if (InlineIsEqualGUID(riid, IID_IConnectionPoint) || InlineIsEqualUnknown(riid))
                {
                        if (ppvObject == NULL)
                                return E_POINTER;
                        *ppvObject = this;
                        AddRef();
#ifdef _ATL_DEBUG_INTERFACES
                        _Module.AddThunk((IUnknown**)ppvObject, _T("IConnectionPointImpl"), riid);
#endif // _ATL_DEBUG_INTERFACES
                        return S_OK;
                }
                else
                        return E_NOINTERFACE;
        }

        STDMETHOD(GetConnectionInterface)(IID* piid2)
        {
                if (piid2 == NULL)
                        return E_POINTER;
                *piid2 = *piid;
                return S_OK;
        }
        STDMETHOD(GetConnectionPointContainer)(IConnectionPointContainer** ppCPC)
        {
                T* pT = static_cast<T*>(this);
                // No need to check ppCPC for NULL since QI will do that for us
                return pT->QueryInterface(IID_IConnectionPointContainer, (void**)ppCPC);
        }
        STDMETHOD(Advise)(IUnknown* pUnkSink, DWORD* pdwCookie);
        STDMETHOD(Unadvise)(DWORD dwCookie);
        STDMETHOD(EnumConnections)(IEnumConnections** ppEnum);
        CDV m_vec;
};

template <class T, const IID* piid, class CDV>
IConnectionPointImpl<T, piid, CDV>::~IConnectionPointImpl()
{
        IUnknown** pp = m_vec.begin();
        while (pp < m_vec.end())
        {
                if (*pp != NULL)
                        (*pp)->Release();
                pp++;
        }
}

template <class T, const IID* piid, class CDV>
STDMETHODIMP IConnectionPointImpl<T, piid, CDV>::Advise(IUnknown* pUnkSink,
        DWORD* pdwCookie)
{
        T* pT = static_cast<T*>(this);
        IUnknown* p;
        HRESULT hRes = S_OK;
        if (pUnkSink == NULL || pdwCookie == NULL)
                return E_POINTER;
        IID iid;
        GetConnectionInterface(&iid);
        hRes = pUnkSink->QueryInterface(iid, (void**)&p);
        if (SUCCEEDED(hRes))
        {
                pT->Lock();
                *pdwCookie = m_vec.Add(p);
                hRes = (*pdwCookie != NULL) ? S_OK : CONNECT_E_ADVISELIMIT;
                pT->Unlock();
                if (hRes != S_OK)
                        p->Release();
        }
        else if (hRes == E_NOINTERFACE)
                hRes = CONNECT_E_CANNOTCONNECT;
        if (FAILED(hRes))
                *pdwCookie = 0;
        return hRes;
}

template <class T, const IID* piid, class CDV>
STDMETHODIMP IConnectionPointImpl<T, piid, CDV>::Unadvise(DWORD dwCookie)
{
        T* pT = static_cast<T*>(this);
        pT->Lock();
        IUnknown* p = m_vec.GetUnknown(dwCookie);
        HRESULT hRes = m_vec.Remove(dwCookie) ? S_OK : CONNECT_E_NOCONNECTION;
        pT->Unlock();
        if (hRes == S_OK && p != NULL)
                p->Release();
        return hRes;
}

template <class T, const IID* piid, class CDV>
STDMETHODIMP IConnectionPointImpl<T, piid, CDV>::EnumConnections(
        IEnumConnections** ppEnum)
{
        if (ppEnum == NULL)
                return E_POINTER;
        *ppEnum = NULL;
        CComObject<CComEnumConnections>* pEnum = NULL;
        ATLTRY(pEnum = new CComObject<CComEnumConnections>)
        if (pEnum == NULL)
                return E_OUTOFMEMORY;
        T* pT = static_cast<T*>(this);
        pT->Lock();
        CONNECTDATA* pcd = NULL;
        ATLTRY(pcd = new CONNECTDATA[ULONG(m_vec.end()-m_vec.begin())])
        if (pcd == NULL)
        {
                delete pEnum;
                pT->Unlock();
                return E_OUTOFMEMORY;
        }
        CONNECTDATA* pend = pcd;
        // Copy the valid CONNECTDATA's
        for (IUnknown** pp = m_vec.begin();pp<m_vec.end();pp++)
        {
                if (*pp != NULL)
                {
                        (*pp)->AddRef();
                        pend->pUnk = *pp;
                        pend->dwCookie = m_vec.GetCookie(pp);
                        pend++;
                }
        }
        // don't copy the data, but transfer ownership to it
        pEnum->Init(pcd, pend, NULL, AtlFlagTakeOwnership);
        pT->Unlock();
        HRESULT hRes = pEnum->_InternalQueryInterface(IID_IEnumConnections, (void**)ppEnum);
        if (FAILED(hRes))
                delete pEnum;
        return hRes;
}

/////////////////////////////////////////////////////////////////////////////
// IConnectionPointContainerImpl

template <class T>
class ATL_NO_VTABLE IConnectionPointContainerImpl : public IConnectionPointContainer
{
        typedef CComEnum<IEnumConnectionPoints,
                &IID_IEnumConnectionPoints, IConnectionPoint*,
                _CopyInterface<IConnectionPoint> >
                CComEnumConnectionPoints;
public:
        STDMETHOD(EnumConnectionPoints)(IEnumConnectionPoints** ppEnum)
        {
                if (ppEnum == NULL)
                        return E_POINTER;
                *ppEnum = NULL;
                CComEnumConnectionPoints* pEnum = NULL;
                ATLTRY(pEnum = new CComObject<CComEnumConnectionPoints>)
                if (pEnum == NULL)
                        return E_OUTOFMEMORY;

                int nCPCount;
                const _ATL_CONNMAP_ENTRY* pEntry = T::GetConnMap(&nCPCount);

                // allocate an initialize a vector of connection point object pointers
                IConnectionPoint** ppCP = (IConnectionPoint**)alloca(sizeof(IConnectionPoint*)*nCPCount);

                int i = 0;
                while (pEntry->dwOffset != (DWORD_PTR)-1)
                {
                        ppCP[i++] = (IConnectionPoint*)((INT_PTR)this+pEntry->dwOffset);
                        pEntry++;
                }

                // copy the pointers: they will AddRef this object
                HRESULT hRes = pEnum->Init((IConnectionPoint**)&ppCP[0],
                        (IConnectionPoint**)&ppCP[nCPCount],
                        reinterpret_cast<IConnectionPointContainer*>(this), AtlFlagCopy);
                if (FAILED(hRes))
                {
                        delete pEnum;
                        return hRes;
                }
                hRes = pEnum->QueryInterface(IID_IEnumConnectionPoints, (void**)ppEnum);
                if (FAILED(hRes))
                        delete pEnum;
                return hRes;
        }
        STDMETHOD(FindConnectionPoint)(REFIID riid, IConnectionPoint** ppCP)
        {
                if (ppCP == NULL)
                        return E_POINTER;
                *ppCP = NULL;
                HRESULT hRes = CONNECT_E_NOCONNECTION;
                const _ATL_CONNMAP_ENTRY* pEntry = T::GetConnMap(NULL);
                IID iid;
                while (pEntry->dwOffset != (DWORD_PTR)-1)
                {
                        IConnectionPoint* pCP =
                                (IConnectionPoint*)((INT_PTR)this+pEntry->dwOffset);
                        if (SUCCEEDED(pCP->GetConnectionInterface(&iid)) &&
                                InlineIsEqualGUID(riid, iid))
                        {
                                *ppCP = pCP;
                                pCP->AddRef();
                                hRes = S_OK;
                                break;
                        }
                        pEntry++;
                }
                return hRes;
        }
};


#endif //!_ATL_NO_CONNECTION_POINTS

#pragma pack(pop)

/////////////////////////////////////////////////////////////////////////////
// CComAutoThreadModule

template <class ThreadAllocator>
inline HRESULT CComAutoThreadModule<ThreadAllocator>::Init(_ATL_OBJMAP_ENTRY* p, HINSTANCE h, const GUID* plibid, int nThreads)
{
        m_nThreads = nThreads;
        m_pApartments = NULL;
        ATLTRY(m_pApartments = new CComApartment[m_nThreads]);
        ATLASSERT(m_pApartments != NULL);
        if(m_pApartments == NULL)
                return E_OUTOFMEMORY;
        for (int i = 0; i < nThreads; i++)
                m_pApartments[i].m_hThread = CreateThread(NULL, 0, CComApartment::_Apartment, (void*)&m_pApartments[i], 0, &m_pApartments[i].m_dwThreadID);
        CComApartment::ATL_CREATE_OBJECT = RegisterWindowMessage(_T("ATL_CREATE_OBJECT"));
        return CComModule::Init(p, h, plibid);
}

template <class ThreadAllocator>
inline LONG CComAutoThreadModule<ThreadAllocator>::Lock()
{
        LONG l = CComModule::Lock();
        DWORD dwThreadID = GetCurrentThreadId();
        for (int i=0; i < m_nThreads; i++)
        {
                if (m_pApartments[i].m_dwThreadID == dwThreadID)
                {
                        m_pApartments[i].Lock();
                        break;
                }
        }
        return l;
}

template <class ThreadAllocator>
inline LONG CComAutoThreadModule<ThreadAllocator>::Unlock()
{
        LONG l = CComModule::Unlock();
        DWORD dwThreadID = GetCurrentThreadId();
        for (int i=0; i < m_nThreads; i++)
        {
                if (m_pApartments[i].m_dwThreadID == dwThreadID)
                {
                        m_pApartments[i].Unlock();
                        break;
                }
        }
        return l;
}

template <class ThreadAllocator>
HRESULT CComAutoThreadModule<ThreadAllocator>::CreateInstance(void* pfnCreateInstance, REFIID riid, void** ppvObj)
{
        _ATL_CREATORFUNC* pFunc = (_ATL_CREATORFUNC*) pfnCreateInstance;
        _AtlAptCreateObjData data;
        data.pfnCreateInstance = pFunc;
        data.piid = &riid;
        data.hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
        data.hRes = S_OK;
        int nThread = m_Allocator.GetThread(m_pApartments, m_nThreads);
        ::PostThreadMessage(m_pApartments[nThread].m_dwThreadID, CComApartment::ATL_CREATE_OBJECT, 0, (LPARAM)&data);
        AtlWaitWithMessageLoop(data.hEvent);
        CloseHandle(data.hEvent);
        if (SUCCEEDED(data.hRes))
                data.hRes = CoGetInterfaceAndReleaseStream(data.pStream, riid, ppvObj);
        return data.hRes;
}

template <class ThreadAllocator>
CComAutoThreadModule<ThreadAllocator>::~CComAutoThreadModule()
{
        for (int i=0; i < m_nThreads; i++)
        {
                ::PostThreadMessage(m_pApartments[i].m_dwThreadID, WM_QUIT, 0, 0);
                ::WaitForSingleObject(m_pApartments[i].m_hThread, INFINITE);
        }
        delete[] m_pApartments;
}


}; //namespace ATL

#endif // __ATLCOM_H__

/////////////////////////////////////////////////////////////////////////////