reactos/lib/atl/atlbase.h
Jérôme Gardou c16ad873a6 sync with trunk (r46275)
svn path=/branches/reactos-yarotows/; revision=46279
2010-03-19 21:09:21 +00:00

1005 lines
21 KiB
C++

/*
* ReactOS ATL
*
* Copyright 2009 Andrew Hill <ash77@reactos.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#pragma once
#include "atlcore.h"
#include "statreg.h"
#ifdef _MSC_VER
// It is common to use this in ATL constructors. They only store this for later use, so the usage is safe.
#pragma warning(disable:4355)
#endif
#ifndef _ATL_PACKING
#define _ATL_PACKING 8
#endif
#ifndef _ATL_FREE_THREADED
#ifndef _ATL_APARTMENT_THREADED
#ifndef _ATL_SINGLE_THREADED
#define _ATL_FREE_THREADED
#endif
#endif
#endif
#ifndef ATLTRY
#define ATLTRY(x) x;
#endif
#ifdef _ATL_DISABLE_NO_VTABLE
#define ATL_NO_VTABLE
#else
#define ATL_NO_VTABLE __declspec(novtable)
#endif
#define offsetofclass(base, derived) (reinterpret_cast<DWORD_PTR>(static_cast<base *>(reinterpret_cast<derived *>(_ATL_PACKING))) - _ATL_PACKING)
namespace ATL
{
class CAtlModule;
class CComModule;
class CAtlComModule;
__declspec(selectany) CAtlModule *_pAtlModule = NULL;
__declspec(selectany) CComModule *_pModule = NULL;
extern CAtlComModule _AtlComModule;
typedef HRESULT (WINAPI _ATL_CREATORFUNC)(void *pv, REFIID riid, LPVOID *ppv);
typedef LPCTSTR (WINAPI _ATL_DESCRIPTIONFUNC)();
typedef const struct _ATL_CATMAP_ENTRY * (_ATL_CATMAPFUNC)();
struct _ATL_OBJMAP_ENTRY30
{
const CLSID *pclsid;
HRESULT (WINAPI *pfnUpdateRegistry)(BOOL bRegister);
_ATL_CREATORFUNC *pfnGetClassObject;
_ATL_CREATORFUNC *pfnCreateInstance;
IUnknown *pCF;
DWORD dwRegister;
_ATL_DESCRIPTIONFUNC *pfnGetObjectDescription;
_ATL_CATMAPFUNC *pfnGetCategoryMap;
void (WINAPI *pfnObjectMain)(bool bStarting);
HRESULT WINAPI RevokeClassObject()
{
if (dwRegister == 0)
return S_OK;
return CoRevokeClassObject(dwRegister);
}
HRESULT WINAPI RegisterClassObject(DWORD dwClsContext, DWORD dwFlags)
{
IUnknown *p;
HRESULT hResult;
p = NULL;
if (pfnGetClassObject == NULL)
return S_OK;
hResult = pfnGetClassObject(reinterpret_cast<LPVOID *>(pfnCreateInstance), IID_IUnknown, reinterpret_cast<LPVOID *>(&p));
if (SUCCEEDED(hResult))
hResult = CoRegisterClassObject(*pclsid, p, dwClsContext, dwFlags, &dwRegister);
if (p != NULL)
p->Release();
return hResult;
}
};
typedef _ATL_OBJMAP_ENTRY30 _ATL_OBJMAP_ENTRY;
typedef void (__stdcall _ATL_TERMFUNC)(DWORD_PTR dw);
struct _ATL_TERMFUNC_ELEM
{
_ATL_TERMFUNC *pFunc;
DWORD_PTR dw;
_ATL_TERMFUNC_ELEM *pNext;
};
struct _ATL_MODULE70
{
UINT cbSize;
LONG m_nLockCnt;
_ATL_TERMFUNC_ELEM *m_pTermFuncs;
CComCriticalSection m_csStaticDataInitAndTypeInfo;
};
typedef _ATL_MODULE70 _ATL_MODULE;
typedef HRESULT (WINAPI _ATL_CREATORARGFUNC)(void *pv, REFIID riid, LPVOID *ppv, DWORD_PTR dw);
#define _ATL_SIMPLEMAPENTRY ((ATL::_ATL_CREATORARGFUNC *)1)
struct _ATL_INTMAP_ENTRY
{
const IID *piid;
DWORD_PTR dw;
_ATL_CREATORARGFUNC *pFunc;
};
struct _AtlCreateWndData
{
void *m_pThis;
DWORD m_dwThreadID;
_AtlCreateWndData *m_pNext;
};
struct _ATL_COM_MODULE70
{
UINT cbSize;
HINSTANCE m_hInstTypeLib;
_ATL_OBJMAP_ENTRY **m_ppAutoObjMapFirst;
_ATL_OBJMAP_ENTRY **m_ppAutoObjMapLast;
CComCriticalSection m_csObjMap;
};
typedef _ATL_COM_MODULE70 _ATL_COM_MODULE;
struct _ATL_WIN_MODULE70
{
UINT cbSize;
CComCriticalSection m_csWindowCreate;
_AtlCreateWndData *m_pCreateWndList;
#ifdef NOTYET
CSimpleArray<ATOM> m_rgWindowClassAtoms;
#endif
};
typedef _ATL_WIN_MODULE70 _ATL_WIN_MODULE;
struct _ATL_REGMAP_ENTRY
{
LPCOLESTR szKey;
LPCOLESTR szData;
};
HRESULT __stdcall AtlWinModuleInit(_ATL_WIN_MODULE *pWinModule);
HRESULT __stdcall AtlWinModuleTerm(_ATL_WIN_MODULE *pWinModule, HINSTANCE hInst);
HRESULT __stdcall AtlInternalQueryInterface(void *pThis, const _ATL_INTMAP_ENTRY *pEntries, REFIID iid, void **ppvObject);
void __stdcall AtlWinModuleAddCreateWndData(_ATL_WIN_MODULE *pWinModule, _AtlCreateWndData *pData, void *pObject);
void *__stdcall AtlWinModuleExtractCreateWndData(_ATL_WIN_MODULE *pWinModule);
HRESULT __stdcall AtlComModuleGetClassObject(_ATL_COM_MODULE *pComModule, REFCLSID rclsid, REFIID riid, LPVOID *ppv);
template<class TLock>
class CComCritSecLock
{
private:
bool m_bLocked;
TLock &m_cs;
public:
CComCritSecLock(TLock &cs, bool bInitialLock = true) : m_cs(cs)
{
HRESULT hResult;
m_bLocked = false;
if (bInitialLock)
{
hResult = Lock();
if (FAILED(hResult))
{
ATLASSERT(false);
}
}
}
~CComCritSecLock()
{
if (m_bLocked)
Unlock();
}
HRESULT Lock()
{
HRESULT hResult;
ATLASSERT(!m_bLocked);
hResult = m_cs.Lock();
if (FAILED(hResult))
return hResult;
m_bLocked = true;
return S_OK;
}
void Unlock()
{
HRESULT hResult;
ATLASSERT(m_bLocked);
hResult = m_cs.Unlock();
if (FAILED(hResult))
{
ATLASSERT(false);
}
m_bLocked = false;
}
};
inline BOOL WINAPI InlineIsEqualUnknown(REFGUID rguid1)
{
return (
((unsigned long *)&rguid1)[0] == 0 &&
((unsigned long *)&rguid1)[1] == 0 &&
((unsigned long *)&rguid1)[2] == 0x000000C0 &&
((unsigned long *)&rguid1)[3] == 0x46000000);
}
class CComMultiThreadModelNoCS
{
public:
typedef CComFakeCriticalSection AutoCriticalSection;
typedef CComFakeCriticalSection CriticalSection;
typedef CComMultiThreadModelNoCS ThreadModelNoCS;
typedef CComFakeCriticalSection AutoDeleteCriticalSection;
static ULONG WINAPI Increment(LPLONG p)
{
return InterlockedIncrement(p);
}
static ULONG WINAPI Decrement(LPLONG p)
{
return InterlockedDecrement(p);
}
};
class CComMultiThreadModel
{
public:
typedef CComAutoCriticalSection AutoCriticalSection;
typedef CComCriticalSection CriticalSection;
typedef CComMultiThreadModelNoCS ThreadModelNoCS;
typedef CComAutoDeleteCriticalSection AutoDeleteCriticalSection;
static ULONG WINAPI Increment(LPLONG p)
{
return InterlockedIncrement(p);
}
static ULONG WINAPI Decrement(LPLONG p)
{
return InterlockedDecrement(p);
}
};
class CComSingleThreadModel
{
public:
typedef CComFakeCriticalSection AutoCriticalSection;
typedef CComFakeCriticalSection CriticalSection;
typedef CComSingleThreadModel ThreadModelNoCS;
typedef CComFakeCriticalSection AutoDeleteCriticalSection;
static ULONG WINAPI Increment(LPLONG p)
{
return ++*p;
}
static ULONG WINAPI Decrement(LPLONG p)
{
return --*p;
}
};
#if defined(_ATL_FREE_THREADED)
typedef CComMultiThreadModel CComObjectThreadModel;
typedef CComMultiThreadModel CComGlobalsThreadModel;
#elif defined(_ATL_APARTMENT_THREADED)
typedef CComSingleThreadModel CComObjectThreadModel;
typedef CComMultiThreadModel CComGlobalsThreadModel;
#elif defined(_ATL_SINGLE_THREADED)
typedef CComSingleThreadModel CComObjectThreadModel;
typedef CComSingleThreadModel CComGlobalsThreadModel;
#else
#error No threading model
#endif
class CAtlModule : public _ATL_MODULE
{
protected:
static GUID m_libid;
public:
CAtlModule()
{
ATLASSERT(_pAtlModule == NULL);
_pAtlModule = this;
cbSize = sizeof(_ATL_MODULE);
m_nLockCnt = 0;
}
virtual LONG GetLockCount()
{
return m_nLockCnt;
}
virtual LONG Lock()
{
return CComGlobalsThreadModel::Increment(&m_nLockCnt);
}
virtual LONG Unlock()
{
return CComGlobalsThreadModel::Decrement(&m_nLockCnt);
}
virtual HRESULT AddCommonRGSReplacements(IRegistrarBase* /*pRegistrar*/) = 0;
HRESULT WINAPI UpdateRegistryFromResource(LPCTSTR lpszRes, BOOL bRegister, struct _ATL_REGMAP_ENTRY *pMapEntries = NULL)
{
CRegObject registrar;
TCHAR modulePath[MAX_PATH];
HRESULT hResult;
hResult = CommonInitRegistrar(registrar, modulePath, sizeof(modulePath) / sizeof(modulePath[0]), pMapEntries);
if (FAILED(hResult))
return hResult;
if (bRegister != FALSE)
hResult = registrar.ResourceRegisterSz(modulePath, lpszRes, _T("REGISTRY"));
else
hResult = registrar.ResourceUnregisterSz(modulePath, lpszRes, _T("REGISTRY"));
return hResult;
}
HRESULT WINAPI UpdateRegistryFromResource(UINT nResID, BOOL bRegister, struct _ATL_REGMAP_ENTRY *pMapEntries = NULL)
{
CRegObject registrar;
TCHAR modulePath[MAX_PATH];
HRESULT hResult;
hResult = CommonInitRegistrar(registrar, modulePath, sizeof(modulePath) / sizeof(modulePath[0]), pMapEntries);
if (FAILED(hResult))
return hResult;
if (bRegister != FALSE)
hResult = registrar.ResourceRegister(modulePath, nResID, _T("REGISTRY"));
else
hResult = registrar.ResourceRegister(modulePath, nResID, _T("REGISTRY"));
return hResult;
}
private:
HRESULT CommonInitRegistrar(CRegObject &registrar, TCHAR *modulePath, DWORD modulePathCount, struct _ATL_REGMAP_ENTRY *pMapEntries)
{
HINSTANCE hInstance;
DWORD dwFLen;
HRESULT hResult;
hInstance = _AtlBaseModule.GetModuleInstance();
dwFLen = GetModuleFileName(hInstance, modulePath, modulePathCount);
if (dwFLen == modulePathCount)
return HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER);
else if (dwFLen == 0)
return HRESULT_FROM_WIN32(GetLastError());
if (pMapEntries != NULL)
{
while (pMapEntries->szKey != NULL)
{
ATLASSERT(pMapEntries->szData != NULL);
hResult = registrar.AddReplacement(pMapEntries->szKey, pMapEntries->szData);
if (FAILED(hResult))
return hResult;
pMapEntries++;
}
}
hResult = AddCommonRGSReplacements(&registrar);
if (FAILED(hResult))
return hResult;
hResult = registrar.AddReplacement(_T("Module"), modulePath);
if (FAILED(hResult))
return hResult;
hResult = registrar.AddReplacement(_T("Module_Raw"), modulePath);
if (FAILED(hResult))
return hResult;
return S_OK;
}
};
__declspec(selectany) GUID CAtlModule::m_libid = {0x0, 0x0, 0x0, {0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0} };
template <class T>
class CAtlModuleT : public CAtlModule
{
public:
virtual HRESULT AddCommonRGSReplacements(IRegistrarBase *pRegistrar)
{
return pRegistrar->AddReplacement(L"APPID", T::GetAppId());
}
static LPCOLESTR GetAppId()
{
return L"";
}
};
class CAtlComModule : public _ATL_COM_MODULE
{
public:
CAtlComModule()
{
GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, (LPCWSTR)this, &m_hInstTypeLib);
m_ppAutoObjMapFirst = NULL;
m_ppAutoObjMapLast = NULL;
if (FAILED(m_csObjMap.Init()))
{
ATLASSERT(0);
CAtlBaseModule::m_bInitFailed = true;
return;
}
cbSize = sizeof(_ATL_COM_MODULE);
}
~CAtlComModule()
{
Term();
}
void Term()
{
if (cbSize != 0)
{
ATLASSERT(m_ppAutoObjMapFirst == NULL);
ATLASSERT(m_ppAutoObjMapLast == NULL);
m_csObjMap.Term();
cbSize = 0;
}
}
};
template <class T>
class CAtlDllModuleT : public CAtlModuleT<T>
{
public:
CAtlDllModuleT()
{
}
HRESULT DllCanUnloadNow()
{
T *pThis;
pThis = static_cast<T *>(this);
if (pThis->GetLockCount() == 0)
return S_OK;
return S_FALSE;
}
HRESULT DllGetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv)
{
T *pThis;
pThis = static_cast<T *>(this);
return pThis->GetClassObject(rclsid, riid, ppv);
}
HRESULT DllRegisterServer(BOOL bRegTypeLib = TRUE)
{
T *pThis;
HRESULT hResult;
pThis = static_cast<T *>(this);
hResult = pThis->RegisterServer(bRegTypeLib);
return hResult;
}
HRESULT DllUnregisterServer(BOOL bUnRegTypeLib = TRUE)
{
T *pThis;
HRESULT hResult;
pThis = static_cast<T *>(this);
hResult = pThis->UnregisterServer(bUnRegTypeLib);
return hResult;
}
HRESULT GetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv)
{
return AtlComModuleGetClassObject(&_AtlComModule, rclsid, riid, ppv);
}
};
class CComModule : public CAtlModuleT<CComModule>
{
public:
_ATL_OBJMAP_ENTRY *m_pObjMap;
public:
CComModule()
{
ATLASSERT(_pModule == NULL);
_pModule = this;
}
~CComModule()
{
_pModule = NULL;
}
HRESULT Init(_ATL_OBJMAP_ENTRY *p, HINSTANCE /* h */, const GUID *plibid)
{
_ATL_OBJMAP_ENTRY *objectMapEntry;
if (plibid != NULL)
m_libid = *plibid;
if (p != reinterpret_cast<_ATL_OBJMAP_ENTRY *>(-1))
{
m_pObjMap = p;
if (p != NULL)
{
objectMapEntry = p;
while (objectMapEntry->pclsid != NULL)
{
objectMapEntry->pfnObjectMain(true);
objectMapEntry++;
}
}
}
return S_OK;
}
void Term()
{
_ATL_OBJMAP_ENTRY *objectMapEntry;
if (m_pObjMap != NULL)
{
objectMapEntry = m_pObjMap;
while (objectMapEntry->pclsid != NULL)
{
if (objectMapEntry->pCF != NULL)
objectMapEntry->pCF->Release();
objectMapEntry->pCF = NULL;
objectMapEntry->pfnObjectMain(false);
objectMapEntry++;
}
}
}
HRESULT GetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv)
{
_ATL_OBJMAP_ENTRY *objectMapEntry;
HRESULT hResult;
ATLASSERT(ppv != NULL);
if (ppv == NULL)
return E_POINTER;
hResult = S_OK;
if (m_pObjMap != NULL)
{
objectMapEntry = m_pObjMap;
while (objectMapEntry->pclsid != NULL)
{
if (objectMapEntry->pfnGetClassObject != NULL && InlineIsEqualGUID(rclsid, *objectMapEntry->pclsid) != FALSE)
{
if (objectMapEntry->pCF == NULL)
{
CComCritSecLock<CComCriticalSection> lock(_AtlComModule.m_csObjMap, true);
if (objectMapEntry->pCF == NULL)
hResult = objectMapEntry->pfnGetClassObject(reinterpret_cast<void *>(objectMapEntry->pfnCreateInstance), IID_IUnknown, reinterpret_cast<LPVOID *>(&objectMapEntry->pCF));
}
if (objectMapEntry->pCF != NULL)
hResult = objectMapEntry->pCF->QueryInterface(riid, ppv);
break;
}
objectMapEntry++;
}
}
return hResult;
}
HRESULT RegisterServer(BOOL bRegTypeLib = FALSE, const CLSID *pCLSID = NULL)
{
_ATL_OBJMAP_ENTRY *objectMapEntry;
HRESULT hResult;
hResult = S_OK;
objectMapEntry = m_pObjMap;
if (objectMapEntry != NULL)
{
while (objectMapEntry->pclsid != NULL)
{
if (pCLSID == NULL || IsEqualGUID(*pCLSID, *objectMapEntry->pclsid) != FALSE)
{
hResult = objectMapEntry->pfnUpdateRegistry(TRUE);
if (FAILED(hResult))
break;
}
objectMapEntry++;
}
}
return hResult;
}
HRESULT UnregisterServer(BOOL bUnRegTypeLib, const CLSID *pCLSID = NULL)
{
_ATL_OBJMAP_ENTRY *objectMapEntry;
HRESULT hResult;
hResult = S_OK;
objectMapEntry = m_pObjMap;
if (objectMapEntry != NULL)
{
while (objectMapEntry->pclsid != NULL)
{
if (pCLSID == NULL || IsEqualGUID(*pCLSID, *objectMapEntry->pclsid) != FALSE)
{
hResult = objectMapEntry->pfnUpdateRegistry(FALSE); //unregister
if (FAILED(hResult))
break;
}
objectMapEntry++;
}
}
return hResult;
}
HRESULT DllCanUnloadNow()
{
if (GetLockCount() == 0)
return S_OK;
return S_FALSE;
}
HRESULT DllGetClassObject(REFCLSID rclsid, REFIID riid, LPVOID *ppv)
{
return GetClassObject(rclsid, riid, ppv);
}
HRESULT DllRegisterServer(BOOL bRegTypeLib = TRUE)
{
return RegisterServer(bRegTypeLib);
}
HRESULT DllUnregisterServer(BOOL bUnRegTypeLib = TRUE)
{
return UnregisterServer(bUnRegTypeLib);
}
};
class CAtlWinModule : public _ATL_WIN_MODULE
{
public:
CAtlWinModule()
{
HRESULT hResult;
hResult = AtlWinModuleInit(this);
if (FAILED(hResult))
{
CAtlBaseModule::m_bInitFailed = true;
ATLASSERT(0);
}
}
~CAtlWinModule()
{
Term();
}
void Term()
{
AtlWinModuleTerm(this, _AtlBaseModule.GetModuleInstance());
}
void AddCreateWndData(_AtlCreateWndData *pData, void *pObject)
{
AtlWinModuleAddCreateWndData(this, pData, pObject);
}
void *ExtractCreateWndData()
{
return AtlWinModuleExtractCreateWndData(this);
}
};
extern CAtlWinModule _AtlWinModule;
template<class T>
class CComPtr
{
public:
T *p;
public:
CComPtr()
{
p = NULL;
}
CComPtr(T *lp)
{
p = lp;
if (p != NULL)
p->AddRef();
}
CComPtr(const CComPtr<T> &lp)
{
p = lp.p;
if (p != NULL)
p->AddRef();
}
~CComPtr()
{
if (p != NULL)
p->Release();
}
T *operator = (T *lp)
{
if (p != NULL)
p->Release();
p = lp;
if (p != NULL)
p->AddRef();
return *this;
}
T *operator = (const CComPtr<T> &lp)
{
if (p != NULL)
p->Release();
p = lp.p;
if (p != NULL)
p->AddRef();
return *this;
}
void Release()
{
if (p != NULL)
{
p->Release();
p = NULL;
}
}
void Attach(T *lp)
{
if (p != NULL)
p->Release();
p = lp;
}
T *Detach()
{
T *saveP;
saveP = p;
p = NULL;
return saveP;
}
T **operator & ()
{
ATLASSERT(p == NULL);
return &p;
}
operator T * ()
{
return p;
}
T *operator -> ()
{
ATLASSERT(p != NULL);
return p;
}
};
class CComBSTR
{
public:
BSTR m_str;
public:
CComBSTR(LPCOLESTR pSrc)
{
if (pSrc == NULL)
m_str = NULL;
else
m_str = ::SysAllocString(pSrc);
}
~CComBSTR()
{
::SysFreeString(m_str);
m_str = NULL;
}
};
class CComVariant : public tagVARIANT
{
public:
CComVariant()
{
::VariantInit(this);
}
~CComVariant()
{
Clear();
}
HRESULT Clear()
{
return ::VariantClear(this);
}
};
inline HRESULT __stdcall AtlAdvise(IUnknown *pUnkCP, IUnknown *pUnk, const IID &iid, LPDWORD pdw)
{
CComPtr<IConnectionPointContainer> container;
CComPtr<IConnectionPoint> connectionPoint;
HRESULT hResult;
if (pUnkCP == NULL)
return E_INVALIDARG;
hResult = pUnkCP->QueryInterface(IID_IConnectionPointContainer, (void **)&container);
if (FAILED(hResult))
return hResult;
hResult = container->FindConnectionPoint(iid, &connectionPoint);
if (FAILED(hResult))
return hResult;
return connectionPoint->Advise(pUnk, pdw);
}
inline HRESULT __stdcall AtlUnadvise(IUnknown *pUnkCP, const IID &iid, DWORD dw)
{
CComPtr<IConnectionPointContainer> container;
CComPtr<IConnectionPoint> connectionPoint;
HRESULT hResult;
if (pUnkCP == NULL)
return E_INVALIDARG;
hResult = pUnkCP->QueryInterface(IID_IConnectionPointContainer, (void **)&container);
if (FAILED(hResult))
return hResult;
hResult = container->FindConnectionPoint(iid, &connectionPoint);
if (FAILED(hResult))
return hResult;
return connectionPoint->Unadvise(dw);
}
inline HRESULT __stdcall AtlInternalQueryInterface(void *pThis, const _ATL_INTMAP_ENTRY *pEntries, REFIID iid, void **ppvObject)
{
int i;
IUnknown *resultInterface;
HRESULT hResult;
ATLASSERT(pThis != NULL && pEntries != NULL);
if (pThis == NULL || pEntries == NULL)
return E_INVALIDARG;
ATLASSERT(ppvObject != NULL);
if (ppvObject == NULL)
return E_POINTER;
if (InlineIsEqualUnknown(iid))
{
resultInterface = reinterpret_cast<IUnknown *>(reinterpret_cast<char *>(pThis) + pEntries[0].dw);
*ppvObject = resultInterface;
resultInterface->AddRef();
return S_OK;
}
i = 0;
while (pEntries[i].pFunc != 0)
{
if (pEntries[i].piid == NULL || InlineIsEqualGUID(iid, *pEntries[i].piid))
{
if (pEntries[i].pFunc == reinterpret_cast<_ATL_CREATORARGFUNC *>(1))
{
ATLASSERT(pEntries[i].piid != NULL);
resultInterface = reinterpret_cast<IUnknown *>(reinterpret_cast<char *>(pThis) + pEntries[i].dw);
*ppvObject = resultInterface;
resultInterface->AddRef();
return S_OK;
}
else
{
hResult = pEntries[i].pFunc(pThis, iid, ppvObject, 0);
if (hResult == S_OK || (FAILED(hResult) && pEntries[i].piid != NULL))
return hResult;
}
break;
}
i++;
}
*ppvObject = NULL;
return E_NOINTERFACE;
}
inline HRESULT __stdcall AtlWinModuleInit(_ATL_WIN_MODULE *pWinModule)
{
if (pWinModule == NULL)
return E_INVALIDARG;
pWinModule->m_pCreateWndList = NULL;
return pWinModule->m_csWindowCreate.Init();
}
inline HRESULT __stdcall AtlWinModuleTerm(_ATL_WIN_MODULE *pWinModule, HINSTANCE hInst)
{
if (pWinModule == NULL)
return E_INVALIDARG;
pWinModule->m_csWindowCreate.Term();
return S_OK;
}
inline void __stdcall AtlWinModuleAddCreateWndData(_ATL_WIN_MODULE *pWinModule, _AtlCreateWndData *pData, void *pObject)
{
CComCritSecLock<CComCriticalSection> lock(pWinModule->m_csWindowCreate, true);
ATLASSERT(pWinModule != NULL);
ATLASSERT(pObject != NULL);
pData->m_pThis = pObject;
pData->m_dwThreadID = ::GetCurrentThreadId();
pData->m_pNext = pWinModule->m_pCreateWndList;
pWinModule->m_pCreateWndList = pData;
}
inline void *__stdcall AtlWinModuleExtractCreateWndData(_ATL_WIN_MODULE *pWinModule)
{
CComCritSecLock<CComCriticalSection> lock(pWinModule->m_csWindowCreate, true);
void *result;
_AtlCreateWndData *currentEntry;
_AtlCreateWndData **previousLink;
DWORD threadID;
ATLASSERT(pWinModule != NULL);
result = NULL;
threadID = GetCurrentThreadId();
currentEntry = pWinModule->m_pCreateWndList;
previousLink = &pWinModule->m_pCreateWndList;
while (currentEntry != NULL)
{
if (currentEntry->m_dwThreadID == threadID)
{
*previousLink = currentEntry->m_pNext;
result = currentEntry->m_pThis;
break;
}
previousLink = &currentEntry->m_pNext;
currentEntry = currentEntry->m_pNext;
}
return result;
}
}; // namespace ATL
#ifndef _ATL_NO_AUTOMATIC_NAMESPACE
using namespace ATL;
#endif //!_ATL_NO_AUTOMATIC_NAMESPACE