411 lines
7.4 KiB
C
411 lines
7.4 KiB
C
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/*++
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Copyright (c) 1999-2000 Microsoft Corporation
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Module Name :
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LstEntry.h
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Abstract:
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Declares CListEntry and other intrusive singly- and doubly-linked lists
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Author:
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George V. Reilly (GeorgeRe) 02-Mar-1999
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Environment:
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Win32 - User Mode
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Project:
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Internet Information Server RunTime Library
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Revision History:
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--*/
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#ifndef __LSTENTRY_H__
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#define __LSTENTRY_H__
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#ifndef __LOCKS_H__
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# include <Locks.h>
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#endif // !__LOCKS_H__
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#ifndef LSTENTRY_LOCK
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#ifdef LOCKS_KERNEL_MODE
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#define LSTENTRY_LOCK CKSpinLock
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#else // !LOCKS_KERNEL_MODE
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#define LSTENTRY_LOCK CSpinLock
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#endif // !LOCKS_KERNEL_MODE
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#endif // !LSTENTRY_LOCK
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// TODO:
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// * Add STL-style iterators: begin(), end(), operator++(), etc
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// * Templatize the lists, so that you can avoid the CONTAINING_RECORD goo
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//--------------------------------------------------------------------
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// CSingleListEntry: a node in a singly-linked list. Usually embedded
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// within larger structures.
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//--------------------------------------------------------------------
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class CSingleListEntry
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{
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public:
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CSingleListEntry* Next; // forward link
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};
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//--------------------------------------------------------------------
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// A non-threadsafe singly linked list
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//--------------------------------------------------------------------
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class IRTL_DLLEXP CSingleList
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{
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protected:
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CSingleListEntry m_sleHead; // external head node
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public:
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CSingleList()
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{
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m_sleHead.Next = NULL;
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}
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~CSingleList()
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{
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IRTLASSERT(IsEmpty());
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}
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bool
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IsEmpty() const
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{
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return m_sleHead.Next == NULL;
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}
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CSingleListEntry* const
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Pop()
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{
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CSingleListEntry* psle = m_sleHead.Next;
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if (psle != NULL)
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m_sleHead.Next = psle->Next;
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return psle;
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}
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void
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Push(
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CSingleListEntry* const psle)
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{
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psle->Next = m_sleHead.Next;
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m_sleHead.Next = psle;
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}
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};
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//--------------------------------------------------------------------
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// A threadsafe singly linked list
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//--------------------------------------------------------------------
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class IRTL_DLLEXP CLockedSingleList
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{
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protected:
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LSTENTRY_LOCK m_lock;
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CSingleList m_list;
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public:
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#ifdef LOCK_INSTRUMENTATION
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CLockedSingleList()
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: m_lock(NULL)
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{}
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#endif // LOCK_INSTRUMENTATION
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void
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Lock()
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{
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m_lock.WriteLock();
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}
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void
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Unlock()
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{
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m_lock.WriteUnlock();
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}
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bool
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IsLocked() const
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{
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return m_lock.IsWriteLocked();
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}
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bool
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IsUnlocked() const
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{
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return m_lock.IsWriteUnlocked();
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}
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bool
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IsEmpty() const
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{
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return m_list.IsEmpty();
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}
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CSingleListEntry* const
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Pop()
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{
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Lock();
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CSingleListEntry* const psle = m_list.Pop();
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Unlock();
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return psle;
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}
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void
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Push(
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CSingleListEntry* const psle)
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{
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Lock();
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m_list.Push(psle);
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Unlock();
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}
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};
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//--------------------------------------------------------------------
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// CListEntry: a node in a circular doubly-linked list. Usually embedded
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// within larger structures.
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//--------------------------------------------------------------------
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class CListEntry
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{
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public:
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CListEntry* Flink; // forward link
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CListEntry* Blink; // backward link
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};
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//--------------------------------------------------------------------
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// A non-threadsafe circular doubly linked list
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//--------------------------------------------------------------------
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class IRTL_DLLEXP CDoubleList
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{
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protected:
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CListEntry m_leHead; // external head node
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public:
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CDoubleList()
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{
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m_leHead.Flink = m_leHead.Blink = &m_leHead;
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}
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~CDoubleList()
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{
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IRTLASSERT(m_leHead.Flink != NULL && m_leHead.Blink != NULL);
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IRTLASSERT(IsEmpty());
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}
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bool
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IsEmpty() const
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{
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return m_leHead.Flink == &m_leHead;
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}
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void
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InsertHead(
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CListEntry* const ple)
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{
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ple->Blink = &m_leHead;
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ple->Flink = m_leHead.Flink;
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ple->Flink->Blink = ple;
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m_leHead.Flink = ple;
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}
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void
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InsertTail(
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CListEntry* const ple)
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{
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ple->Flink = &m_leHead;
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ple->Blink = m_leHead.Blink;
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ple->Blink->Flink = ple;
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m_leHead.Blink = ple;
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}
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const CListEntry* const
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HeadNode() const
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{
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return &m_leHead;
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}
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CListEntry* const
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First() const
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{
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return m_leHead.Flink;
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}
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CListEntry* const
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RemoveHead()
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{
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CListEntry* ple = First();
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RemoveEntry(ple);
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return ple;
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}
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CListEntry* const
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Last() const
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{
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return m_leHead.Blink;
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}
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CListEntry* const
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RemoveTail()
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{
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CListEntry* ple = Last();
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RemoveEntry(ple);
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return ple;
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}
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static void
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RemoveEntry(
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CListEntry* const ple)
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{
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CListEntry* const pleOldBlink = ple->Blink;
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IRTLASSERT(pleOldBlink != NULL);
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CListEntry* const pleOldFlink = ple->Flink;
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IRTLASSERT(pleOldFlink != NULL);
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pleOldBlink->Flink = pleOldFlink;
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pleOldFlink->Blink = pleOldBlink;
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}
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};
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//--------------------------------------------------------------------
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// A threadsafe circular doubly linked list
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//--------------------------------------------------------------------
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class IRTL_DLLEXP CLockedDoubleList
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{
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protected:
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LSTENTRY_LOCK m_lock;
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CDoubleList m_list;
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public:
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#ifdef LOCK_INSTRUMENTATION
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CLockedDoubleList()
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: m_lock(NULL)
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{}
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#endif // LOCK_INSTRUMENTATION
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void
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Lock()
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{
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m_lock.WriteLock();
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}
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void
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Unlock()
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{
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m_lock.WriteUnlock();
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}
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bool
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IsLocked() const
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{
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return m_lock.IsWriteLocked();
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}
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bool
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IsUnlocked() const
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{
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return m_lock.IsWriteUnlocked();
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}
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bool
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IsEmpty() const
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{
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return m_list.IsEmpty();
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}
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void
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InsertHead(
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CListEntry* const ple)
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{
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Lock();
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m_list.InsertHead(ple);
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Unlock();
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}
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void
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InsertTail(
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CListEntry* const ple)
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{
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Lock();
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m_list.InsertTail(ple);
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Unlock();
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}
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// not threadsafe
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const CListEntry* const
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HeadNode() const
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{
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return m_list.HeadNode();
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}
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// not threadsafe
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CListEntry* const
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First()
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{
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return m_list.First();
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}
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CListEntry* const
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RemoveHead()
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{
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Lock();
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CListEntry* const ple = m_list.RemoveHead();
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Unlock();
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return ple;
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}
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// not threadsafe
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CListEntry* const
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Last()
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{
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return m_list.Last();
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}
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CListEntry* const
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RemoveTail()
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{
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Lock();
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CListEntry* const ple = m_list.RemoveTail();
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Unlock();
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return ple;
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}
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void
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RemoveEntry(
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CListEntry* const ple)
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{
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Lock();
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m_list.RemoveEntry(ple);
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Unlock();
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}
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};
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#ifndef CONTAINING_RECORD
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//
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// Calculate the address of the base of the structure given its type, and an
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// address of a field within the structure.
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//
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#define CONTAINING_RECORD(address, type, field) \
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((type *)((PCHAR)(address) - (ULONG_PTR)(&((type *)0)->field)))
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#endif // !CONTAINING_RECORD
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#endif // __LSTENTRY_H__
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