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652 lines
18 KiB
652 lines
18 KiB
/*--------------------------------------------------------------------------*
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*
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* Microsoft Windows
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* Copyright (C) Microsoft Corporation, 1992 - 1998.
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*
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* File: strtable.inl
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*
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* Contents: Inline functions for strtable.h
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*
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* History: 25-Jun-98 jeffro Created
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*
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*--------------------------------------------------------------------------*/
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#ifndef STRTABLE_INL
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#define STRTABLE_INL
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#pragma once
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#include "macros.h" // for THROW_ON_FAIL
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#include "stgio.h"
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/*+-------------------------------------------------------------------------*
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* operator>>
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*
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* Reads a IdentifierRange<T> from a stream.
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*--------------------------------------------------------------------------*/
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template<class T>
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inline IStream& operator>> (IStream& stm, IdentifierRange<T>& range)
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{
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stm >> range.idMin >> range.idMax;
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if (range.idMin > range.idMax)
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_com_issue_error (E_FAIL);
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return (stm);
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}
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/*+-------------------------------------------------------------------------*
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* operator<<
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*
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* Writes a IdentifierRange<T> to a stream.
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*--------------------------------------------------------------------------*/
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template<class T>
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inline IStream& operator<< (IStream& stm, const IdentifierRange<T>& range)
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{
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return (stm << range.idMin << range.idMax);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::CIdentifierPool
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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inline CIdentifierPool<T>::CIdentifierPool (T idMin_, T idMax_)
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: m_idAbsoluteMin (idMin_),
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m_idAbsoluteMax (idMax_),
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m_idNextAvailable (idMin_)
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{
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ASSERT (m_idAbsoluteMin <= m_idAbsoluteMax);
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m_AvailableIDs.push_front (Range (m_idAbsoluteMin, m_idAbsoluteMax));
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ASSERT (m_StaleIDs.empty());
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}
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template<class T>
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inline CIdentifierPool<T>::CIdentifierPool (IStream& stm)
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{
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stm >> *this;
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::Reserve
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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T CIdentifierPool<T>::Reserve ()
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{
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/*
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* if no more IDs are available, recycle the stale IDs
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*/
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if (m_AvailableIDs.empty())
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{
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m_AvailableIDs.splice (m_AvailableIDs.end(), m_StaleIDs);
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ASSERT (m_StaleIDs.empty());
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}
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/*
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* if still no more IDs are available, throw an exception
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*/
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if (m_AvailableIDs.empty())
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throw (pool_exhausted());
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/*
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* get the first ID from the first ID range
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*/
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Range& FirstRange = m_AvailableIDs.front();
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T idReserved = FirstRange.idMin;
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/*
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* if we get here, we're going to return an ID, make sure it's the one
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* we though it was going to be
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*/
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ASSERT (idReserved == m_idNextAvailable);
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/*
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* if the first ID range is now empty, remove it; otherwise,
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* remove the ID we just reserved from the available range
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*/
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if (FirstRange.idMin == FirstRange.idMax)
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m_AvailableIDs.pop_front();
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else
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FirstRange.idMin++;
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/*
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* remember the next available ID
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*/
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if (!m_AvailableIDs.empty())
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m_idNextAvailable = m_AvailableIDs.front().idMin;
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else if (!m_StaleIDs.empty())
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m_idNextAvailable = m_StaleIDs.front().idMin;
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else
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m_idNextAvailable = m_idAbsoluteMin;
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return (idReserved);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::Release
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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bool CIdentifierPool<T>::Release (T idRelease)
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{
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/*
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* if the ID to be released falls outside
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* the range managed by this pool, fail
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*/
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if ((idRelease < m_idAbsoluteMin) || (idRelease > m_idAbsoluteMax))
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{
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ASSERT (false);
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return (false);
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}
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/*
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* put the released ID in the stale pool
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*/
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return (AddToRangeList (m_StaleIDs, idRelease));
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::IsValid
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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bool CIdentifierPool<T>::IsValid () const
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{
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if (m_idAbsoluteMin > m_idAbsoluteMax)
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return (false);
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if (!IsRangeListValid (m_AvailableIDs))
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return (false);
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if (!IsRangeListValid (m_StaleIDs))
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return (false);
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return (true);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::IsRangeListValid
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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bool CIdentifierPool<T>::IsRangeListValid (const RangeList& rl) const
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{
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RangeList::const_iterator it;
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for (it = rl.begin(); it != rl.end(); ++it)
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{
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if ((it->idMin < m_idAbsoluteMin) ||
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(it->idMax > m_idAbsoluteMax))
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return (false);
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}
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return (true);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::ScGenerate
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*
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*
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*--------------------------------------------------------------------------*/
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template<class T>
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SC CIdentifierPool<T>::ScGenerate (const RangeList& rlInUseIDs)
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{
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DECLARE_SC (sc, _T("CIdentifierPool<T>::ScGenerate"));
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m_AvailableIDs.clear();
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m_StaleIDs.clear();
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/*
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* Invert the in-use IDs. We'll then have a collection of all the
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* ID's that are not in use. Note that not all of these ID's are
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* necessarily "available", since some may be stale.
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*/
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RangeList rlNotInUseIDs = rlInUseIDs;
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sc = ScInvertRangeList (rlNotInUseIDs);
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if (sc)
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return (sc);
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/*
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* Find the range containing the next available ID.
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*/
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RangeList::iterator it;
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for (it = rlNotInUseIDs.begin(); it != rlNotInUseIDs.end(); ++it)
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{
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/*
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* if this range contains the next available ID, we've found a hit
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*/
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if ((m_idNextAvailable >= it->idMin) && (m_idNextAvailable <= it->idMax))
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{
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/*
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* if the next available ID is at the beginning of this range,
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* things are simple; we can just break out of the loop
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*/
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if (m_idNextAvailable == it->idMin)
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break;
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/*
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* otherwise, we need to split the current range into two
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* adjacent ranges so the code below that copies to the
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* stale and available ranges can work; then we can break out
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* of the loop
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*/
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Range range (m_idNextAvailable, it->idMax);
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it->idMax = m_idNextAvailable - 1;
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it = rlNotInUseIDs.insert (++it, range);
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break;
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}
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}
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/*
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* confirm that we found one
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*/
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ASSERT (it != rlNotInUseIDs.end());
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/*
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* everything before the next available ID that's not it use is stale;
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* everything after the next available ID that's not in use is available;
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*/
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std::copy (rlNotInUseIDs.begin(), it, std::back_inserter(m_StaleIDs));
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std::copy (it, rlNotInUseIDs.end(), std::back_inserter(m_AvailableIDs));
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return (sc);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::AddToRangeList
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*
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* This adds an identifier to the specified range list.
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*
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* This really should be a member function on a RangeList class, like so:
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*
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* class RangeList : public std::list<Range>
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* {
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* public:
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* bool Add (const Range& rangeToAdd);
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* bool Add (T tAdd);
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* };
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*
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* but compiler bugs prevent it.
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*--------------------------------------------------------------------------*/
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template<class T>
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bool CIdentifierPool<T>::AddToRangeList (RangeList& rl, T idAdd)
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{
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return (AddToRangeList (rl, Range (idAdd, idAdd)));
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}
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template<class T>
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bool CIdentifierPool<T>::AddToRangeList (RangeList& l, const Range& rangeToAdd)
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{
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RangeList::iterator it;
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for (it = l.begin(); it != l.end(); ++it)
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{
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Range& rangeT = *it;
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/*
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* the range to add shouldn't overlap the existing range in any way
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*/
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if (((rangeToAdd.idMin >= rangeT.idMin) && (rangeToAdd.idMin <= rangeT.idMax)) ||
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((rangeToAdd.idMax >= rangeT.idMin) && (rangeToAdd.idMax <= rangeT.idMax)))
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{
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ASSERT (false);
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return (false);
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}
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/*
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* If the range to add is immediately to the left of the current
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* range (that is, the upper bound of the range to add is immediately
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* adjacent to the lower bound of the current range), it can be
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* absorbed into the current range and we're done.
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*
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* Note that we don't have to worry about coalescing this range
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* with the preceeding range. That case would have been covered
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* by the next clause, in the preceeding iteration of this loop.
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*/
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if (rangeToAdd.idMax == (rangeT.idMin - 1))
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{
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rangeT.idMin = rangeToAdd.idMin;
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return (true);
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}
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/*
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* If the range to add is immediately to the right of the current
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* range (that is, the lower bound of the range to add is immediately
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* adjacent to the upper bound of the current range), it can be
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* absorbed into the current range and we're done.
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*/
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else if (rangeToAdd.idMin == (rangeT.idMax + 1))
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{
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rangeT.idMax = rangeToAdd.idMax;
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/*
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* Now check the next available range (if there is one).
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* If it begins where the current range now ends, then
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* the two ranges can be coalesced into a single range.
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*/
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if (++it != l.end())
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{
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Range& rangeNext = *it;
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ASSERT (rangeT.idMax < rangeNext.idMin);
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if (rangeT.idMax == (rangeNext.idMin - 1))
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{
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rangeT.idMax = rangeNext.idMax;
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l.erase (it);
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}
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}
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return (true);
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}
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/*
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* If the upper bound of the range to insert is less than the
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* lower bound of the current available range, we need to insert
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* the new range here. The insertion is handled outside the loop.
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*/
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else if (rangeToAdd.idMax < rangeT.idMin)
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break;
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}
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/*
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* If we get here, then we need to create a new available range
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* to the left of the current iterator, which will address the
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* end of the list if the ID is greater than the current maximum
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* available ID.
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*/
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ASSERT ((it == l.end()) || (rangeToAdd.idMax < (it->idMin - 1)));
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l.insert (it, rangeToAdd);
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return (true);
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}
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/*+-------------------------------------------------------------------------*
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* CIdentifierPool<T>::ScInvertRangeList
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*
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* Changes rlInvert into a range list containing all elements between
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* m_idAbsoluteMin and m_idAbsoluteMax that were not originally in
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* rlInvert.
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*
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* So, if the range looks like this before inversion:
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*
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* +----+----+ +----+----+
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* m_idAbsoluteMin | 5 | 10 | --------> | 15 | 20 | m_idAbsoluteMax
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* +----+----+ +----+----+
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*
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* it will look like this after inversion:
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*
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* +-----------------+----+ +----+----+ +----+-----------------+
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* | m_idAbsoluteMin | 4 | --------> | 11 | 14 | --------> | 21 | m_idAbsoluteMax |
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* +-----------------+----+ +----+----+ +----+-----------------+
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*--------------------------------------------------------------------------*/
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template<class T>
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SC CIdentifierPool<T>::ScInvertRangeList (RangeList& rlInvert) const
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{
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DECLARE_SC (sc, _T("CIdentifierPool::ScInvertRangeList"));
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/*
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* if there's nothing in the list to invert, the inverted
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* list will contain a single range spanning min to max
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*/
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if (rlInvert.empty())
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{
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rlInvert.push_front (Range (m_idAbsoluteMin, m_idAbsoluteMax));
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return (sc);
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}
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/*
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* determine whether we'll need to add ranges on the front or back,
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* and initialize the ranges we'll add if we will
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*/
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Range rFirst;
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bool fAddFirstRange = (rlInvert.front().idMin > m_idAbsoluteMin);
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if (fAddFirstRange)
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{
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rFirst.idMin = m_idAbsoluteMin;
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rFirst.idMax = rlInvert.front().idMin - 1;
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}
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Range rLast;
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bool fAddLastRange = (rlInvert.back().idMax < m_idAbsoluteMax);
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if (fAddLastRange)
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{
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rLast.idMin = rlInvert.back().idMax + 1;
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rLast.idMax = m_idAbsoluteMax;
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}
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/*
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* Change rlInvert to contain ranges that represent the gaps
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* between the ranges it currently contains. The size of rlInvert
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* will be one less than its original size when this process is
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* complete.
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*/
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RangeList::iterator it = rlInvert.begin();
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RangeList::iterator itNext = ++rlInvert.begin();
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while (itNext != rlInvert.end())
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{
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/*
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* morph this range into the range representing the gap between
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* this range and the next one
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*/
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it->idMin = it->idMax + 1;
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it->idMax = itNext->idMin - 1;
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/*
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* advance the iterators
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*/
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it = itNext++;
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}
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/*
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* remove the extraneous node at the end of the list
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*/
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rlInvert.pop_back();
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/*
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* append to the beginning and/or end, if necessary
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*/
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if (fAddFirstRange)
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rlInvert.push_front (rFirst);
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if (fAddLastRange)
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rlInvert.push_back (rLast);
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return (sc);
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}
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/*+-------------------------------------------------------------------------*
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* operator>>
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*
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* Reads a CIdentifierPool<T> from a stream
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*--------------------------------------------------------------------------*/
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template<class T>
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IStream& operator>> (IStream& stm, CIdentifierPool<T>& pool)
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{
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/*
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* read the min and max IDs from the stream
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*/
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stm >> pool.m_idAbsoluteMin >> pool.m_idAbsoluteMax;
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/*
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* read the available and stale IDs
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*/
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stm >> pool.m_AvailableIDs >> pool.m_StaleIDs;
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/*
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* find out how big the stream is
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*/
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STATSTG statstg;
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HRESULT hr = stm.Stat (&statstg, STATFLAG_NONAME);
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if (FAILED (hr))
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_com_issue_error (hr);
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/*
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* get our seek position
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*/
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ULARGE_INTEGER uliSeekPos;
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LARGE_INTEGER liOffset;
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liOffset.QuadPart = 0;
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hr = stm.Seek (liOffset, STREAM_SEEK_CUR, &uliSeekPos);
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if (FAILED (hr))
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_com_issue_error (hr);
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/*
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* Older files won't have saved the next available ID. If it's there,
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* read it; if not, use a default value for pool.m_idNextAvailable.
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*/
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if (statstg.cbSize.QuadPart > uliSeekPos.QuadPart)
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{
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stm >> pool.m_idNextAvailable;
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}
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else
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{
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if (!pool.m_AvailableIDs.empty())
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pool.m_idNextAvailable = pool.m_AvailableIDs.front().idMin;
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else
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pool.m_idNextAvailable = pool.m_idAbsoluteMin;
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}
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/*
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* validate what we read
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*/
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if (!pool.IsValid ())
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_com_issue_error (E_FAIL);
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return (stm);
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}
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|
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|
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/*+-------------------------------------------------------------------------*
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* operator<<
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*
|
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* Writes a CIdentifierPool<T> to a stream.
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*--------------------------------------------------------------------------*/
|
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|
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template<class T>
|
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IStream& operator<< (IStream& stm, const CIdentifierPool<T>& pool)
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{
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/*
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* write the min and max IDs to the stream
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*/
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stm << pool.m_idAbsoluteMin << pool.m_idAbsoluteMax;
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/*
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* Write an empty collection of available and stale IDs to keep the
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* stream format the same as previous versions. Beginning with MMC 2.0,
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* the available and stale IDs will be regenerated from the next available
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* ID and in-use IDs after the string table is read in. This is done to
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* minimize the data that needs to be saved with the new XML file format.
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*/
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CIdentifierPool<T>::RangeList rlEmpty;
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stm << rlEmpty; // available IDs
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stm << rlEmpty; // stale IDs
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/*
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* write the next available ID
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*/
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stm << pool.m_idNextAvailable;
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return (stm);
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}
|
|
|
|
template<class T>
|
|
void CIdentifierPool<T>::Persist(CPersistor &persistor)
|
|
{
|
|
persistor.PersistAttribute(XML_ATTR_ID_POOL_ABSOLUTE_MIN, m_idAbsoluteMin);
|
|
persistor.PersistAttribute(XML_ATTR_ID_POOL_ABSOLUTE_MAX, m_idAbsoluteMax);
|
|
persistor.PersistAttribute(XML_ATTR_ID_POOL_NEXT_AVAILABLE, m_idNextAvailable);
|
|
}
|
|
|
|
/*+-------------------------------------------------------------------------*
|
|
* CIdentifierPool<T>::Dump
|
|
*
|
|
*
|
|
*--------------------------------------------------------------------------*/
|
|
|
|
#ifdef DBG
|
|
|
|
template<class T>
|
|
void CIdentifierPool<T>::DumpRangeList (const RangeList& l) const
|
|
{
|
|
int cEntries = 0;
|
|
|
|
for (RangeList::const_iterator it = l.begin(); it != l.end(); ++it)
|
|
{
|
|
Trace (tagStringTable, _T("Range %d:min=%d, max=%d"),
|
|
++cEntries, (int) it->idMin, (int) it->idMax);
|
|
}
|
|
}
|
|
|
|
template<class T>
|
|
void CIdentifierPool<T>::Dump () const
|
|
{
|
|
Trace (tagStringTable, _T("Next available ID: %d"), m_idNextAvailable);
|
|
|
|
Trace (tagStringTable, _T("Available IDs:"));
|
|
DumpRangeList (m_AvailableIDs);
|
|
|
|
Trace (tagStringTable, _T("Stale IDs:"));
|
|
DumpRangeList (m_StaleIDs);
|
|
}
|
|
|
|
#endif // DBG
|
|
|
|
|
|
/*+-------------------------------------------------------------------------*
|
|
* operator>>
|
|
*
|
|
*
|
|
*--------------------------------------------------------------------------*/
|
|
|
|
inline IStorage& operator>> (IStorage& stg, CComObject<CMasterStringTable>& mst)
|
|
{
|
|
return (stg >> static_cast<CMasterStringTable&>(mst));
|
|
}
|
|
|
|
|
|
/*+-------------------------------------------------------------------------*
|
|
* operator<<
|
|
*
|
|
*
|
|
*--------------------------------------------------------------------------*/
|
|
|
|
inline IStorage& operator<< (IStorage& stg, const CComObject<CMasterStringTable>& mst)
|
|
{
|
|
return (stg << static_cast<const CMasterStringTable&>(mst));
|
|
}
|
|
|
|
|
|
#endif /* STRTABLE_INL */
|