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645 lines
14 KiB
645 lines
14 KiB
/*
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* @doc INTERNAL
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*
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* @module - FORMAT.C
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* CCharFormatArray and CParaFormatArray classes |
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*
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* Authors:
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* Original RichEdit code: David R. Fulmer
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* Christian Fortini
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* Murray Sargent
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*
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* Copyright (c) 1995-2000, Microsoft Corporation. All rights reserved.
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*/
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#include "_common.h"
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#include "_format.h"
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ASSERTDATA
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// =============================== CFixArrayBase =================================
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CFixArrayBase::CFixArrayBase(
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LONG cbElem)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CFixArrayBase::CFixArrayBase");
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_prgel = NULL;
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_cel = 0;
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_ielFirstFree = 0;
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#ifdef _WIN64
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// Make sure each element + Ref. count is 64-bit aligned.
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LONG cbTemp = (cbElem + 4) & 7; // Do a Mod 8
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_cbPad = 0;
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if (cbTemp) // Need padding?
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_cbPad = 8 - cbTemp;
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#endif
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_cbElem = cbElem + 4 + _cbPad; // 4 is for reference count
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}
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/*
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* CFixArrayBase::Add()
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*
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* @mfunc
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* Return index of new element, reallocing if necessary
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*
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* @rdesc
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* Index of new element.
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*
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* @comm
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* Free elements are maintained in place as a linked list indexed
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* by a chain of ref-count entries with their sign bits set and the
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* rest of the entry giving the index of the next element on the
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* free list. The list is terminated by a 0 entry. This approach
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* enables element 0 to be on the free list.
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*/
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LONG CFixArrayBase::Add()
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CFixArrayBase::Add");
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char *pel;
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LONG iel, ielRet;
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if(_ielFirstFree) // Return first element of free list
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{
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ielRet = _ielFirstFree & ~FLBIT;
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_ielFirstFree = RefCount(ielRet);
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}
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else // All lower positions taken: need
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{ // to add another celGrow elements
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pel = (char*)PvReAlloc(_prgel, (_cel + celGrow) * _cbElem);
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if(!pel)
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return -1;
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// Clear out the *end* of the newly allocated memory
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ZeroMemory(pel + _cel*_cbElem, celGrow*_cbElem);
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_prgel = pel;
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ielRet = _cel; // Return first one added
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iel = _cel + 1;
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_cel += celGrow;
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// Add elements _cel+1 thru _cel+celGrow-1 to free list. The last
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// of these retains a 0, stored by fZeroFill in Alloc
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_ielFirstFree = iel | FLBIT;
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for(pel = (char *)&RefCount(iel);
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++iel < _cel;
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pel += _cbElem)
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{
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*(INT *)pel = iel | FLBIT;
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}
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}
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return ielRet;
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}
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void CFixArrayBase::Free(
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LONG iel)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CFixArrayBase::Free(iel)");
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// Simply add it to free list
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RefCount(iel) = _ielFirstFree;
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_ielFirstFree = iel | FLBIT;
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}
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void CFixArrayBase::Free()
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CFixArrayBase::Free()");
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#if defined(DEBUG) && !defined(NOFULLDEBUG)
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// Only do this validation if all the ped's are gone. Visual basic shutsdown apps
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// without freeing all the resources so this safety check is necessary.
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if (0 == W32->GetRefs())
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{
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// Display message if any CCharFormats, CParaFormats, or CTabs have
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// reference counts > 0. This only happens if an error has occurred.
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// Since this is called as the RichEdit dll is unloading, we can't use
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// the usual AssertSz() macros.
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BOOL fComplained = FALSE;
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for(LONG iel = 0; iel < Count(); iel++)
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{
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while(RefCount(iel) > 0)
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{
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if (!fComplained)
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{
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fComplained = TRUE;
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AssertSz(FALSE, (_cbElem - _cbPad) == sizeof(CCharFormat) + 4 ? "CCharFormat not free" :
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(_cbElem - _cbPad) == sizeof(CParaFormat) + 4 ? "CParaFormat not free" :
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"CTabs not free");
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}
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Release(iel);
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}
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}
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}
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#endif
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FreePv(_prgel);
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_prgel = NULL;
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_cel = 0;
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_ielFirstFree = 0;
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}
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HRESULT CFixArrayBase::Deref(
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LONG iel,
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const void **ppel) const
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{
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Assert(ppel);
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AssertSz(iel >= 0,
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"CFixArrayBase::Deref: bad element index" );
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AssertSz(*(LONG *)(_prgel + (iel + 1) * _cbElem - 4) > 0,
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"CFixArrayBase::Deref: element index has bad ref count");
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if(!ppel)
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return E_INVALIDARG;
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*ppel = Elem(iel);
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return S_OK;
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}
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/*
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* CFixArrayBase::RefCount(iel)
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*
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* @mfunc
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* The reference count for an element is stored as a LONG immediately
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* following the element in the CFixArray. If the element isn't used
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* i.e., is free, then the reference count is used as a link to the
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* next free element. The last free element in this list has a 0
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* "reference count", which terminates the list.
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*
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* The ref count follows the element instead of preceding it because
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* this allows Elem(iel) to avoid an extra addition. Elem() is used
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* widely in the code.
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*
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* @rdesc
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* Ptr to reference count
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*/
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LONG & CFixArrayBase::RefCount(
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LONG iel)
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{
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Assert(iel < Count());
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return (LONG &)(*(_prgel + (iel + 1) * _cbElem - 4));
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}
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LONG CFixArrayBase::Release(
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LONG iel)
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{
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LONG cRef = -1;
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if(iel >= 0) // Ignore default iel
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{
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CLock lock;
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CheckFreeChain();
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AssertSz(RefCount(iel) > 0, "CFixArrayBase::Release(): already free");
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cRef = --RefCount(iel);
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if(!cRef) // Entry no longer referenced
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Free(iel); // Add it to the free chain
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}
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return cRef;
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}
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LONG CFixArrayBase::AddRef(
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LONG iel)
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{
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LONG cRef = -1;
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if(iel >= 0)
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{
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CLock lock;
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CheckFreeChain();
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AssertSz(RefCount(iel) > 0, "CFixArrayBase::AddRef(): add ref to free elem");
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cRef = ++RefCount(iel);
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}
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return cRef;
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}
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LONG CFixArrayBase::Find(
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const void *pel)
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{
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CheckFreeChain();
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for(LONG iel = 0; iel < Count(); iel++)
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{
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// RefCount < 0 means entry not in use and is index of next free entry.
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// RefCount = 0 marks last free element in list. _cbElem = sizeof(ELEM)
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// plus sizeof(RefCount), which is a LONG.
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if (RefCount(iel) > 0 &&
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!CompareMemory(Elem(iel), pel, _cbElem - sizeof(LONG) - _cbPad))
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{
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return iel;
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}
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}
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return -1;
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}
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HRESULT CFixArrayBase::Cache(
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const void *pel,
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LONG * piel)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CParaFormatArray::Cache");
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CLock lock;
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LONG iel = Find(pel);
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if(iel >= 0)
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RefCount(iel)++;
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else
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{
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iel = Add();
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if(iel < 0)
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return E_OUTOFMEMORY;
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CopyMemory(Elem(iel), pel, _cbElem - sizeof(LONG) - _cbPad);
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RefCount(iel) = 1;
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}
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CheckFreeChain();
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if(piel)
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*piel = iel;
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return S_OK;
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}
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#ifdef DEBUG
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void CFixArrayBase::CheckFreeChainFn(
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LPSTR szFile,
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INT nLine)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CFixArrayBase::CheckFreeChainFn");
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LONG cel = 0;
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LONG iel = _ielFirstFree;
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LONG ielT;
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while(iel)
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{
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Assert(iel < 0);
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ielT = RefCount(iel & ~FLBIT);
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if((LONG)(ielT & ~FLBIT) > _cel)
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Tracef(TRCSEVERR, "AttCheckFreeChainCF(): elem %ld points to out of range elem %ld", iel, ielT);
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iel = ielT;
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if(++cel > _cel)
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{
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AssertSzFn("CFixArrayBase::CheckFreeChain() - CF free chain seems to contain an infinite loop", szFile, nLine);
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return;
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}
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}
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}
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#endif
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// =========================== CCharFormatArray ===========================================
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HRESULT CCharFormatArray::Deref(
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LONG iCF,
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const CCharFormat **ppCF) const
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CCharFormatArray::Deref");
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return CFixArrayBase::Deref(iCF, (const void **)ppCF);
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}
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LONG CCharFormatArray::Release(
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LONG iCF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CCharFormatArray::ReleaseFormat");
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return CFixArrayBase::Release(iCF);
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}
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LONG CCharFormatArray::AddRef(
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LONG iCF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CCharFormatArray::AddRefFormat");
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return CFixArrayBase::AddRef(iCF);
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}
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void CCharFormatArray::Destroy()
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{
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delete this;
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}
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LONG CCharFormatArray::Find(
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const CCharFormat *pCF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CCharFormatArray::Find");
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LONG iCF;
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#define QUICKCRCSEARCHSIZE 15 // Must be 2^n - 1 for quick MOD
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// operation, it is a simple hash.
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static struct {
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BYTE bCRC;
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LONG iCF;
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} quickCrcSearch[QUICKCRCSEARCHSIZE+1];
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BYTE bCRC;
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WORD hashKey;
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CheckFreeChain();
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// Check our cache before going sequential
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bCRC = (BYTE)pCF->_iFont;
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hashKey = (WORD)(bCRC & QUICKCRCSEARCHSIZE);
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if(bCRC == quickCrcSearch[hashKey].bCRC)
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{
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iCF = quickCrcSearch[hashKey].iCF - 1;
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if (iCF >= 0 && iCF < Count() && RefCount(iCF) > 0 &&
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!CompareMemory(Elem(iCF), pCF, sizeof(CCharFormat)))
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{
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return iCF;
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}
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}
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for(iCF = 0; iCF < Count(); iCF++)
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{
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if(RefCount(iCF) > 0 && !CompareMemory(Elem(iCF), pCF, sizeof(CCharFormat)))
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{
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quickCrcSearch[hashKey].bCRC = bCRC;
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quickCrcSearch[hashKey].iCF = iCF + 1;
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return iCF;
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}
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}
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return -1;
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}
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HRESULT CCharFormatArray::Cache(
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const CCharFormat *pCF,
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LONG* piCF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CCharFormatArray::Cache");
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CLock lock;
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LONG iCF = Find(pCF);
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if(iCF >= 0)
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RefCount(iCF)++;
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else
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{
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iCF = Add();
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if(iCF < 0)
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return E_OUTOFMEMORY;
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*Elem(iCF) = *pCF; // Set entry iCF to *pCF
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RefCount(iCF) = 1;
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}
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CheckFreeChain();
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if(piCF)
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*piCF = iCF;
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return S_OK;
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}
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// =============================== CParaFormatArray ===========================================
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HRESULT CParaFormatArray::Deref(
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LONG iPF,
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const CParaFormat **ppPF) const
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CParaFormatArray::Deref");
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return CFixArrayBase::Deref(iPF, (const void **)ppPF);
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}
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LONG CParaFormatArray::Release(
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LONG iPF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CParaFormatArray::ReleaseFormat");
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CLock lock;
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LONG cRef = CFixArrayBase::Release(iPF);
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#ifdef TABS
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if(!cRef)
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GetTabsCache()->Release(Elem(iPF)->_iTabs);
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#endif
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return cRef;
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}
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LONG CParaFormatArray::AddRef(
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LONG iPF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CParaFormatArray::AddRefFormat");
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return CFixArrayBase::AddRef(iPF);
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}
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void CParaFormatArray::Destroy()
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{
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delete this;
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}
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HRESULT CParaFormatArray::Cache(
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const CParaFormat *pPF,
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LONG *piPF)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CParaFormatArray::Cache");
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HRESULT hr = CFixArrayBase::Cache((const void *)pPF, piPF);
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#ifdef TABS
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if(hr == NOERROR && RefCount(*piPF) == 1)
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GetTabsCache()->AddRef(pPF->_iTabs);
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#endif
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return hr;
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}
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// =============================== CTabsArray ===========================================
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CTabsArray::~CTabsArray()
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{
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for(LONG iTabs = 0; iTabs < Count(); iTabs++)
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{
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// It shouldn't be necessary to release any tabs, since when all
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// controls are gone, no reference counts should be > 0.
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while(RefCount(iTabs) > 0)
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{
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#ifdef DEBUG
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// Only do this validation if all the ped's are gone. Visual basic shutsdown apps
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// without freeing all the resources so this safety check is necessary.
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AssertSz(0 != W32->GetRefs(), "CTabs not free");
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#endif
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Release(iTabs);
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}
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}
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}
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const LONG *CTabsArray::Deref(
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LONG iTabs) const
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CTabsArray::Deref");
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return iTabs >= 0 ? Elem(iTabs)->_prgxTabs : NULL;
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}
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LONG CTabsArray::Release(
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LONG iTabs)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CTabsArray::Release");
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LONG cRef = CFixArrayBase::Release(iTabs);
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if(!cRef)
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FreePv(Elem(iTabs)->_prgxTabs);
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return cRef;
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}
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LONG CTabsArray::AddRef(
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LONG iTabs)
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CTabsArray::AddRef");
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return CFixArrayBase::AddRef(iTabs);
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}
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LONG CTabsArray::Find(
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const LONG *prgxTabs, //@parm Array of tab/cell data
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LONG cTab) //@parm # tabs or LONGs in cells
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{
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CheckFreeChain();
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CTabs *pTab;
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LONG cb = cTab*sizeof(LONG);
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for(LONG iel = 0; iel < Count(); iel++)
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{
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// RefCount < 0 means entry not in use and is index of next free entry.
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// RefCount = 0 marks last free element in list. _cbElem = sizeof(ELEM)
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// plus sizeof(RefCount), which is a LONG.
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if(RefCount(iel) > 0)
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{
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pTab = Elem(iel);
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if (pTab->_cTab == cTab &&
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!CompareMemory(pTab->_prgxTabs, prgxTabs, cb))
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{
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return iel;
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}
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}
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}
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return -1;
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}
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LONG CTabsArray::Cache(
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const LONG *prgxTabs, //@parm Array of tab/cell data
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LONG cTab) //@parm # tabs or LONGs in cells
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{
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TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CTabsArray::Cache");
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if(!cTab)
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return -1; // No tabs defined: use default
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CLock lock;
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LONG iTabs = Find(prgxTabs, cTab);
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if(iTabs >= 0)
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RefCount(iTabs)++;
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else
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{
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iTabs = Add();
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if(iTabs < 0) // Out of memory: use default
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return -1;
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CTabs *pTabs = Elem(iTabs);
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LONG cb = sizeof(LONG)*cTab;
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pTabs->_prgxTabs = (LONG *)PvAlloc(cb, GMEM_FIXED);
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if(!pTabs->_prgxTabs)
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return -1; // Out of memory: use default
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CopyMemory(pTabs->_prgxTabs, prgxTabs, cb);
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pTabs->_cTab = cTab;
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RefCount(iTabs) = 1;
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}
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return iTabs;
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}
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// ================================== Factories ===========================================
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static ICharFormatCache *pCFCache = NULL; // CCharFormat cache
|
|
static IParaFormatCache *pPFCache = NULL; // CParaFormat cache
|
|
static CTabsArray * pTabsCache = NULL; // CTabs cache
|
|
|
|
ICharFormatCache *GetCharFormatCache()
|
|
{
|
|
return pCFCache;
|
|
}
|
|
|
|
IParaFormatCache *GetParaFormatCache()
|
|
{
|
|
return pPFCache;
|
|
}
|
|
|
|
CTabsArray *GetTabsCache()
|
|
{
|
|
return pTabsCache;
|
|
}
|
|
|
|
HRESULT CreateFormatCaches() // Called by DllMain()
|
|
{
|
|
TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CreateFormatCaches");
|
|
CLock lock;
|
|
|
|
pCFCache = new CCharFormatArray();
|
|
if(!pCFCache)
|
|
return E_OUTOFMEMORY;
|
|
|
|
pPFCache = new CParaFormatArray();
|
|
if(!pPFCache)
|
|
{
|
|
delete pCFCache;
|
|
return E_OUTOFMEMORY;
|
|
}
|
|
|
|
pTabsCache = new CTabsArray();
|
|
if(!pTabsCache)
|
|
{
|
|
delete pCFCache;
|
|
delete pPFCache;
|
|
return E_OUTOFMEMORY;
|
|
}
|
|
return S_OK;
|
|
}
|
|
|
|
HRESULT DestroyFormatCaches() // Called by DllMain()
|
|
{
|
|
TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "DeleteFormatCaches");
|
|
|
|
if (pCFCache)
|
|
pCFCache->Destroy();
|
|
if (pPFCache)
|
|
pPFCache->Destroy();
|
|
if (pTabsCache)
|
|
delete pTabsCache;
|
|
return NOERROR;
|
|
}
|
|
|
|
/*
|
|
* ReleaseFormats(iCF, iPF)
|
|
*
|
|
* @mfunc
|
|
* Release char and para formats corresponding to the indices <p iCF>
|
|
* and <p iPF>, respectively
|
|
*/
|
|
void ReleaseFormats (
|
|
LONG iCF, //@parm CCharFormat index for releasing
|
|
LONG iPF) //@parm CParaFormat index for releasing
|
|
{
|
|
AssertSz(pCFCache && pPFCache,
|
|
"ReleaseFormats: uninitialized format caches");
|
|
if (iCF != -1)
|
|
pCFCache->Release(iCF);
|
|
if (iPF != -1)
|
|
pPFCache->Release(iPF);
|
|
}
|