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517 lines
10 KiB
C++
517 lines
10 KiB
C++
//-----------------------------------------------------------------------------
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// File: Linklist.h
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// Desc: Linked list class.
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//
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// THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
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// ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
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// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
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// PARTICULAR PURPOSE.
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//
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// Copyright (C) Microsoft Corporation. All rights reserved.
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//-----------------------------------------------------------------------------
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#pragma once
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// Notes:
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//
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// The List class template implements a simple double-linked list.
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// It uses STL's copy semantics.
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// There are two versions of the Clear() method:
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// Clear(void) clears the list w/out cleaning up the object.
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// Clear(FN fn) takes a functor object that releases the objects, if they need cleanup.
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// The List class supports enumeration. Example of usage:
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//
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// List<T>::POSIITON pos = list.GetFrontPosition();
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// while (pos != list.GetEndPosition())
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// {
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// T item;
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// hr = list.GetItemPos(&item);
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// pos = list.Next(pos);
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// }
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// The ComPtrList class template derives from List<> and implements a list of COM pointers.
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template <class T>
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struct NoOp
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{
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void operator()(T& t)
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{
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}
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};
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template <class T>
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class List
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{
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protected:
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// Nodes in the linked list
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struct Node
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{
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Node *prev;
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Node *next;
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T item;
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Node() : prev(nullptr), next(nullptr)
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{
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}
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Node(T item) : prev(nullptr), next(nullptr)
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{
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this->item = item;
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}
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T Item() const { return item; }
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};
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public:
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// Object for enumerating the list.
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class POSITION
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{
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friend class List<T>;
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public:
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POSITION() : pNode(nullptr)
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{
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}
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bool operator==(const POSITION &p) const
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{
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return pNode == p.pNode;
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}
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bool operator!=(const POSITION &p) const
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{
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return pNode != p.pNode;
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}
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private:
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const Node *pNode;
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POSITION(Node *p) : pNode(p)
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{
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}
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};
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protected:
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Node m_anchor; // Anchor node for the linked list.
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DWORD m_count; // Number of items in the list.
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Node* Front() const
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{
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return m_anchor.next;
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}
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Node* Back() const
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{
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return m_anchor.prev;
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}
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virtual HRESULT InsertAfter(T item, Node *pBefore)
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{
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if (pBefore == nullptr)
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{
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return E_POINTER;
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}
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Node *pNode = new Node(item);
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if (pNode == nullptr)
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{
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return E_OUTOFMEMORY;
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}
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Node *pAfter = pBefore->next;
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pBefore->next = pNode;
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pAfter->prev = pNode;
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pNode->prev = pBefore;
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pNode->next = pAfter;
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m_count++;
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return S_OK;
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}
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virtual HRESULT GetItem(const Node *pNode, T* ppItem)
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{
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if (pNode == nullptr || ppItem == nullptr)
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{
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return E_POINTER;
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}
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*ppItem = pNode->item;
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return S_OK;
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}
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// RemoveItem:
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// Removes a node and optionally returns the item.
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// ppItem can be nullptr.
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virtual HRESULT RemoveItem(Node *pNode, T *ppItem)
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{
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if (pNode == nullptr)
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{
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return E_POINTER;
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}
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assert(pNode != &m_anchor); // We should never try to remove the anchor node.
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if (pNode == &m_anchor)
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{
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return E_INVALIDARG;
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}
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T item;
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// The next node's previous is this node's previous.
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pNode->next->prev = pNode->prev;
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// The previous node's next is this node's next.
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pNode->prev->next = pNode->next;
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item = pNode->item;
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delete pNode;
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m_count--;
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if (ppItem)
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{
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*ppItem = item;
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}
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return S_OK;
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}
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public:
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List()
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{
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m_anchor.next = &m_anchor;
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m_anchor.prev = &m_anchor;
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m_count = 0;
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}
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virtual ~List()
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{
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Clear();
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}
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// Insertion functions
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HRESULT InsertBack(T item)
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{
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return InsertAfter(item, m_anchor.prev);
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}
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HRESULT InsertFront(T item)
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{
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return InsertAfter(item, &m_anchor);
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}
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HRESULT InsertPos(POSITION pos, T item)
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{
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if (pos.pNode == nullptr)
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{
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return InsertBack(item);
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}
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return InsertAfter(item, pos.pNode->prev);
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}
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// RemoveBack: Removes the tail of the list and returns the value.
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// ppItem can be nullptr if you don't want the item back. (But the method does not release the item.)
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HRESULT RemoveBack(T *ppItem)
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{
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if (IsEmpty())
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{
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return E_FAIL;
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}
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else
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{
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return RemoveItem(Back(), ppItem);
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}
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}
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// RemoveFront: Removes the head of the list and returns the value.
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// ppItem can be nullptr if you don't want the item back. (But the method does not release the item.)
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HRESULT RemoveFront(T *ppItem)
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{
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if (IsEmpty())
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{
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return E_FAIL;
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}
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else
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{
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return RemoveItem(Front(), ppItem);
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}
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}
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// GetBack: Gets the tail item.
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HRESULT GetBack(T *ppItem)
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{
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if (IsEmpty())
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{
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return E_FAIL;
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}
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else
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{
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return GetItem(Back(), ppItem);
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}
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}
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// GetFront: Gets the front item.
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HRESULT GetFront(T *ppItem)
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{
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if (IsEmpty())
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{
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return E_FAIL;
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}
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else
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{
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return GetItem(Front(), ppItem);
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}
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}
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// GetCount: Returns the number of items in the list.
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DWORD GetCount() const { return m_count; }
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bool IsEmpty() const
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{
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return (GetCount() == 0);
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}
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// Clear: Takes a functor object whose operator()
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// frees the object on the list.
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template <class FN>
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void Clear(FN& clear_fn)
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{
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Node *n = m_anchor.next;
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// Delete the nodes
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while (n != &m_anchor)
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{
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clear_fn(n->item);
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Node *tmp = n->next;
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delete n;
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n = tmp;
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}
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// Reset the anchor to point at itself
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m_anchor.next = &m_anchor;
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m_anchor.prev = &m_anchor;
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m_count = 0;
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}
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// Clear: Clears the list. (Does not delete or release the list items.)
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virtual void Clear()
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{
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NoOp<T> clearOp;
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Clear<>(clearOp);
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}
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// Enumerator functions
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POSITION FrontPosition()
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{
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if (IsEmpty())
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{
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return POSITION(nullptr);
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}
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else
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{
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return POSITION(Front());
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}
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}
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POSITION EndPosition() const
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{
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return POSITION();
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}
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HRESULT GetItemPos(POSITION pos, T *ppItem)
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{
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if (pos.pNode)
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{
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return GetItem(pos.pNode, ppItem);
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}
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else
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{
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return E_FAIL;
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}
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}
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POSITION Next(const POSITION pos)
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{
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if (pos.pNode && (pos.pNode->next != &m_anchor))
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{
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return POSITION(pos.pNode->next);
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}
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else
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{
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return POSITION(nullptr);
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}
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}
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// Remove an item at a position.
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// The item is returns in ppItem, unless ppItem is nullptr.
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// NOTE: This method invalidates the POSITION object.
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HRESULT Remove(POSITION& pos, T *ppItem)
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{
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if (pos.pNode)
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{
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// Remove const-ness temporarily...
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Node *pNode = const_cast<Node*>(pos.pNode);
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pos = POSITION();
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return RemoveItem(pNode, ppItem);
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}
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else
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{
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return E_INVALIDARG;
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}
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}
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};
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// Typical functors for Clear method.
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// ComAutoRelease: Releases COM pointers.
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// MemDelete: Deletes pointers to new'd memory.
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class ComAutoRelease
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{
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public:
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void operator()(IUnknown *p)
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{
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if (p)
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{
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p->Release();
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}
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}
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};
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class MemDelete
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{
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public:
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void operator()(void *p)
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{
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if (p)
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{
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delete p;
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}
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}
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};
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// ComPtrList class
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// Derived class that makes it safer to store COM pointers in the List<> class.
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// It automatically AddRef's the pointers that are inserted onto the list
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// (unless the insertion method fails).
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//
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// T must be a COM interface type.
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// example: ComPtrList<IUnknown>
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//
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// NULLABLE: If true, client can insert nullptr pointers. This means GetItem can
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// succeed but return a nullptr pointer. By default, the list does not allow nullptr
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// pointers.
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template <class T, bool NULLABLE = FALSE>
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class ComPtrList : public List<T*>
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{
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public:
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typedef T* Ptr;
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void Clear()
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{
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ComAutoRelease car;
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List<Ptr>::Clear(car);
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}
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~ComPtrList()
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{
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Clear();
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}
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protected:
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HRESULT InsertAfter(Ptr item, Node *pBefore)
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{
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// Do not allow nullptr item pointers unless NULLABLE is true.
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if (item == nullptr && !NULLABLE)
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{
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return E_POINTER;
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}
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if (item)
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{
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item->AddRef();
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}
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HRESULT hr = List<Ptr>::InsertAfter(item, pBefore);
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if (FAILED(hr) && item != nullptr)
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{
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item->Release();
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}
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return hr;
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}
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HRESULT GetItem(const Node *pNode, Ptr* ppItem)
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{
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Ptr pItem = nullptr;
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// The base class gives us the pointer without AddRef'ing it.
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// If we return the pointer to the caller, we must AddRef().
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HRESULT hr = List<Ptr>::GetItem(pNode, &pItem);
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if (SUCCEEDED(hr))
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{
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assert(pItem || NULLABLE);
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if (pItem)
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{
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*ppItem = pItem;
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(*ppItem)->AddRef();
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}
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}
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return hr;
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}
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HRESULT RemoveItem(Node *pNode, Ptr *ppItem)
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{
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// ppItem can be nullptr, but we need to get the
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// item so that we can release it.
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// If ppItem is not nullptr, we will AddRef it on the way out.
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Ptr pItem = nullptr;
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HRESULT hr = List<Ptr>::RemoveItem(pNode, &pItem);
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if (SUCCEEDED(hr))
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{
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assert(pItem || NULLABLE);
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if (ppItem && pItem)
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{
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*ppItem = pItem;
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(*ppItem)->AddRef();
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}
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if (pItem)
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{
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pItem->Release();
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pItem = nullptr;
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}
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}
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return hr;
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}
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};
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