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340 lines
7.4 KiB
340 lines
7.4 KiB
// Util.h : Helper functions and classes
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#ifndef __UTIL_H_
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#define __UTIL_H_
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#include "mlatl.h"
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extern class CMLAlloc* g_pMalloc;
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/////////////////////////////////////////////////////////////////////////////
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// CMLAlloc
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class CMLAlloc
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{
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public:
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CMLAlloc(void);
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~CMLAlloc(void);
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void* Alloc(ULONG cb);
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void* Realloc(void* pv, ULONG cb);
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void Free(void* pv);
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private:
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IMalloc* m_pIMalloc;
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};
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/////////////////////////////////////////////////////////////////////////////
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// CMLList
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class CMLList
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{
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public:
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inline CMLList(int cbCell, int cbIncrement);
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inline ~CMLList(void);
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HRESULT Add(void** ppv);
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HRESULT Remove(void* pv);
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struct CCell
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{
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CCell* m_pNext;
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};
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protected:
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inline void AssertPV(void*pv) const;
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inline void* MemAlloc(ULONG cb) {return ::g_pMalloc->Alloc(cb);}
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inline void* MemRealloc(void* pv, ULONG cb) {return ::g_pMalloc->Realloc(pv, cb);}
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inline void MemFree(void* pv) {::g_pMalloc->Free(pv);}
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private:
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const int m_cbCell; // The size, in bytes, of a cell
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const int m_cbIncrement; // The size, in bytes, to increase the buffer at a time
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CCell* m_pBuf; // Pointer to the buffer
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int m_cCell; // The number of cells allocated
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CCell* m_pFree; // Pointer to a cell the top of free link
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};
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CMLList::CMLList(int cbCell, int cbIncrement) :
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m_cbCell(cbCell),
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m_cbIncrement(cbIncrement),
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m_pBuf(NULL),
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m_cCell(0),
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m_pFree(NULL)
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{
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ASSERT(cbCell >= sizeof(CCell));
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ASSERT(cbIncrement >= cbCell);
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}
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CMLList::~CMLList(void)
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{
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if (m_pBuf)
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{
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#ifdef DEBUG
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int cCell = 0;
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for (CCell* pCell = m_pFree; pCell; pCell = pCell->m_pNext)
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{
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if (++cCell > m_cCell)
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{
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ASSERT(FALSE); // Free link is broken
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break;
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}
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}
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ASSERT(cCell < m_cCell); // Memory leak!?
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#endif
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MemFree(m_pBuf);
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}
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}
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void CMLList::AssertPV(void*pv) const
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{
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ASSERT(pv >= m_pBuf);
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ASSERT(pv < m_pBuf + m_cbCell * m_cCell);
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ASSERT(((CCell*)pv - m_pBuf) % m_cbCell == 0);
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}
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/////////////////////////////////////////////////////////////////////////////
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// CMLListLru
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class CMLListLru : public CMLList
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{
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public:
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inline CMLListLru(int cbCell, int cbIncrement);
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inline ~CMLListLru(void);
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HRESULT Add(void** ppv);
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HRESULT Remove(void* pv);
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inline HRESULT Top(void** ppv) const;
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inline HRESULT Next(void* pv, void** ppv) const;
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typedef CMLList::CCell CCell;
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private:
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CCell* m_pTop;
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};
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CMLListLru::CMLListLru(int cbCell, int cbIncrement) :
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CMLList(cbCell, cbIncrement),
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m_pTop(NULL)
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{
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}
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CMLListLru::~CMLListLru(void)
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{
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#ifdef DEBUG
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ASSERT(!m_pTop); // Memory Leak?
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while (m_pTop)
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Remove(m_pTop);
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#endif
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}
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HRESULT CMLListLru::Top(void** ppv) const
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{
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*ppv = (void*)m_pTop;
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return S_OK;
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}
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HRESULT CMLListLru::Next(void* pv, void** ppv) const
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{
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AssertPV(pv);
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const CCell* const pCell = (const CCell* const)pv;
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if (pCell->m_pNext)
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AssertPV(pCell->m_pNext);
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*ppv = (void*)pCell->m_pNext;
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return S_OK;
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}
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/////////////////////////////////////////////////////////////////////////////
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// CMLListFast - double linked list
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class CMLListFast : public CMLList
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{
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public:
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inline CMLListFast(int cbCell, int cbIncrement);
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inline ~CMLListFast(void);
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HRESULT Add(void** ppv);
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HRESULT Remove(void* pv);
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inline HRESULT Top(void** ppv) const;
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inline HRESULT Bottom(void** ppv) const;
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inline HRESULT Next(void* pv, void** ppv) const;
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inline HRESULT Prev(void* pv, void** ppv) const;
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struct CCell : public CMLList::CCell
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{
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CCell* m_pPrev;
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};
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private:
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CCell* m_pTop;
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};
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CMLListFast::CMLListFast(int cbCell, int cbIncrement) :
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CMLList(cbCell, cbIncrement),
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m_pTop(NULL)
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{
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ASSERT(cbCell >= sizeof(CCell));
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}
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CMLListFast::~CMLListFast(void)
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{
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#ifdef DEBUG
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ASSERT(!m_pTop); // Memory Leak?
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while (m_pTop)
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Remove(m_pTop);
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#endif
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}
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HRESULT CMLListFast::Top(void** ppv) const
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{
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*ppv = (void*)m_pTop;
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return S_OK;
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}
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HRESULT CMLListFast::Bottom(void** ppv) const
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{
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if (m_pTop)
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{
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return Prev(m_pTop, ppv);
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}
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else
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{
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*ppv = NULL;
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return S_OK;
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}
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}
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HRESULT CMLListFast::Next(void* pv, void** ppv) const
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{
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AssertPV(pv);
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const CCell* const pCell = (const CCell* const)pv;
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if (pCell->m_pNext)
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AssertPV(pCell->m_pNext);
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*ppv = (void*)pCell->m_pNext;
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return S_OK;
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}
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HRESULT CMLListFast::Prev(void* pv, void** ppv) const
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{
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AssertPV(pv);
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const CCell* const pCell = (const CCell* const)pv;
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if (pCell->m_pPrev)
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AssertPV(pCell->m_pPrev);
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*ppv = (void*)pCell->m_pPrev;
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return S_OK;
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}
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/////////////////////////////////////////////////////////////////////////////
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// CFireConnection
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template <class T, const IID* piid>
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class CFireConnection
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{
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public:
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inline CFireConnection(HRESULT& rhr);
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inline CFireConnection(HRESULT& rhr, IUnknown* const pUnk);
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inline ~CFireConnection(void);
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inline BOOL Next(void);
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inline T* Sink(void);
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protected:
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HRESULT* const m_phr;
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IEnumConnections* m_pEnumConn;
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CONNECTDATA m_cd;
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T* m_pSink;
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};
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template <class T, const IID* piid>
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CFireConnection<T, piid>::CFireConnection(HRESULT& rhr) :
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m_phr(&rhr),
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m_pEnumConn(NULL),
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m_pSink(NULL)
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{
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ASSERT_THIS;
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ASSERT_READ_PTR(piid);
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ASSERT_WRITE_PTR(m_phr);
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*m_phr = S_OK;
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}
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template <class T, const IID* piid>
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CFireConnection<T, piid>::CFireConnection(HRESULT& rhr, IUnknown* const pUnk) :
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m_phr(&rhr),
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m_pEnumConn(NULL),
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m_pSink(NULL)
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{
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ASSERT_THIS;
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ASSERT_READ_PTR(piid);
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ASSERT_WRITE_PTR(m_phr);
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ASSERT_READ_PTR(pUnk);
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IConnectionPointContainer* pcpc;
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if (SUCCEEDED(*m_phr = pUnk->QueryInterface(IID_IConnectionPointContainer, (void**)&pcpc)))
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{
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ASSERT_READ_PTR(pcpc);
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IConnectionPoint* pcp;
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if (SUCCEEDED(*m_phr = pcpc->FindConnectionPoint(*piid, &pcp)))
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{
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ASSERT_READ_PTR(pcp);
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if (SUCCEEDED(*m_phr = pcp->EnumConnections(&m_pEnumConn)))
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{
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ASSERT_READ_PTR(m_pEnumConn);
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}
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else
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{
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m_pEnumConn = NULL;
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}
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pcp->Release();
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}
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pcpc->Release();
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}
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}
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template <class T, const IID* piid>
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CFireConnection<T, piid>::~CFireConnection(void)
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{
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if (m_pSink)
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m_pSink->Release();
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if (m_pEnumConn)
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m_pEnumConn->Release();
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}
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template <class T, const IID* piid>
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BOOL CFireConnection<T, piid>::Next(void)
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{
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if (SUCCEEDED(*m_phr))
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ASSERT_READ_PTR(m_pEnumConn);
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if (SUCCEEDED(*m_phr) &&
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(*m_phr = m_pEnumConn->Next(1, &m_cd, NULL)) == S_OK)
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{
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if (m_pSink)
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{
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m_pSink->Release();
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m_pSink = NULL;
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}
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if (SUCCEEDED(*m_phr = m_cd.pUnk->QueryInterface(*piid, (void**)&m_pSink)))
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ASSERT_READ_PTR(m_pSink);
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}
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return SUCCEEDED(*m_phr);
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}
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template <class T, const IID* piid>
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T* CFireConnection<T, piid>::Sink(void)
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{
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return m_pSink;
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}
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#endif //__UTIL_H_
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