windows-nt/Source/XPSP1/NT/enduser/stuff/itircl/query/idxobr.cpp

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2020-09-26 03:20:57 -05:00
/*************************************************************************
* @doc SHROOM INTERNAL API *
* *
* IDXOBR.CPP *
* *
* Copyright (C) Microsoft Corporation 1997 *
* All Rights reserved. *
* *
* This file contains the implementation of CITIndexObjBridge, *
* which is a class used by CITIndexLocal to allow the old .c *
* search internals to call the new COM-based breaker and stemmer *
* objects.
* *
* *
**************************************************************************
* *
* Written By : Bill Aloof *
* Current Owner: billa *
* *
**************************************************************************/
#include <mvopsys.h>
#ifdef _DEBUG
static char s_aszModule[] = __FILE__; /* For error report */
#endif
#include <atlinc.h>
// MediaView (InfoTech) includes
#include <orkin.h>
#include <groups.h>
#include <itquery.h>
#include <itcat.h>
#include <itwbrk.h>
#include <itwbrkid.h>
#include "indeximp.h"
#include "queryimp.h"
#include "mvsearch.h"
#include "idxobr.h"
#include "common.h"
//---------------------------------------------------------------------------
// Constructor and Destructor
//---------------------------------------------------------------------------
CITIndexObjBridge::CITIndexObjBridge()
{
m_cRef = 0;
m_piwbrk = NULL;
m_piwbrkc = NULL;
m_pistem = NULL;
m_piitstwdl = NULL;
m_pexbrkpm = NULL;
m_fNormWord = FALSE;
m_dwCodePageID = 0;
m_hmemSrc = m_hmemDestNorm = m_hmemDestRaw = NULL;
m_cbBufSrcCur = m_cbBufDestNormCur = m_cbBufDestRawCur = 0;
m_lpsipbTermHit = NULL;
}
CITIndexObjBridge::~CITIndexObjBridge()
{
if (m_cRef > 0)
{
ITASSERT(FALSE);
}
if (m_hmemSrc != NULL)
{
_GLOBALFREE(m_hmemSrc);
m_hmemSrc = NULL;
m_cbBufSrcCur = 0;
}
if (m_hmemDestNorm != NULL)
{
_GLOBALFREE(m_hmemDestNorm);
m_hmemDestNorm = NULL;
m_cbBufDestNormCur = 0;
}
if (m_hmemDestRaw != NULL)
{
_GLOBALFREE(m_hmemDestRaw);
m_hmemDestRaw = NULL;
m_cbBufDestRawCur = 0;
}
if (m_piwbrk != NULL)
{
m_piwbrk->Release();
m_piwbrk = NULL;
}
if (m_piwbrkc != NULL)
{
m_piwbrkc->Release();
m_piwbrkc = NULL;
}
if (m_pistem != NULL)
{
m_pistem->Release();
m_pistem = NULL;
}
if (m_piitstwdl != NULL)
{
m_piitstwdl->Release();
m_piitstwdl = NULL;
}
MVStopListDispose(m_lpsipbTermHit);
}
//---------------------------------------------------------------------------
// IUnknown Method Implementations
//---------------------------------------------------------------------------
// NOTE: This implementation of IUnknown assumes that this object is used
// only in a local context, meaning that no piece of code will hold onto
// an IUnknown pointer obtained via QueryInterface beyond the scope that
// an instance of this object was created in. For example, this object
// will very likely be created/destroyed in the same method. That's why
// there's no controlling IUnknown for us to forward AddRef's and Release's
// to. It is also the reason that IUnknown::Release doesn't call the
// class's destructor when the ref count goes to 0.
STDMETHODIMP
CITIndexObjBridge::QueryInterface(REFIID riid, LPVOID *ppvObj)
{
HRESULT hr = S_OK;
void *pvObj = NULL;
if (ppvObj == NULL)
return (SetErrReturn(E_POINTER));
if (riid == IID_IWordSink)
pvObj = (void *)((PIWRDSNK) this);
else if (riid == IID_IStemSink)
pvObj = (void *)((PISTEMSNK) this);
else if (riid == IID_IUnknown)
pvObj = (void *)((IUnknown *) ((PIWRDSNK) this));
if (pvObj != NULL)
*ppvObj = pvObj;
else
hr = E_NOINTERFACE;
return (hr);
}
STDMETHODIMP_(ULONG)
CITIndexObjBridge::AddRef(void)
{
return (++m_cRef);
}
STDMETHODIMP_(ULONG)
CITIndexObjBridge::Release(void)
{
if (m_cRef > 0)
--m_cRef;
else
{
ITASSERT(FALSE);
}
return (m_cRef);
}
//---------------------------------------------------------------------------
// IWordSink Method Implementations
//---------------------------------------------------------------------------
/*****************************************************************
* @method STDMETHODIMP | IWordSink | PutWord |
* This method notifies IWordSink of a new word.
*
* @parm WCHAR const | *pwcInBuf | Pointer to the word to add.
* @parm ULONG |cwc | Count of characters in the word.
* @parm ULONG |cwcSrcLen | count of characters in pTextSource buffer
* (see <om IWordBreaker.BreakText>) that corresponds to the output word
* @parm ULONG |cwcSrcPos | the position of the word in pTextSource
* buffer that corresponds to the output word
*
* @rvalue S_OK | The operation completed successfully.
* @rvalue E_POINTER | Input buffer is NULL.
*
* @comm The values of <p cwcSrcLen> and <p cwcSrcPos> are used by the
* ISearch interface, which given a query and a text source, will highlight
* all hits within the text source that match the query. The location
* of the text to be highlighted is computed from <p cwcSrcLen> and
* <p cwcSrcPos>. Since <p pwcInfbuf> is constant and should not be
* modified by PutWord, it can point directly into <p pTextSource>.
* Values of cwc larger than the ulMaxTokenSize specified in
* <om IWordBreaker.Init> will result in LANGUAGE_S_LARGE_WORD.
* @comm Text sent to PutWord should match the source text as closely
* as possible, including capitalization and accents.
*
* @comm You need to call this method for every word retrieved from
* <p pTextSource> except those for which the <om .PutAltWord> call
* has been made. The word sink automatically adds an end of word break
* (EOW) after this token.
*
****************************************************************/
STDMETHODIMP
CITIndexObjBridge::PutWord(WCHAR const *pwcInBuf, ULONG cwc,
ULONG cwcSrcLen, ULONG cwcSrcPos)
{
HRESULT hr;
DWORD cbAnsi;
if (pwcInBuf == NULL)
return (E_POINTER);
cbAnsi = (sizeof(WCHAR) * cwc) + sizeof(WORD);
if (SUCCEEDED(hr =
ReallocBuffer(&m_hmemDestRaw, &m_cbBufDestRawCur, cbAnsi)))
{
char *lpchBufRaw;
lpchBufRaw = (char *) _GLOBALLOCK(m_hmemDestRaw);
if ((*((WORD *)lpchBufRaw) = (WORD)
WideCharToMultiByte(m_dwCodePageID, NULL, pwcInBuf, cwc,
lpchBufRaw + sizeof(WORD), cbAnsi - sizeof(WORD),
NULL, NULL)) > 0)
{
char *lpchBufNorm;
lpchBufNorm = (char *) _GLOBALLOCK(m_hmemDestNorm);
if (!m_fNormWord)
MEMCPY(lpchBufNorm, lpchBufRaw,
*((WORD *)lpchBufRaw) + sizeof(WORD));
ITASSERT(m_pexbrkpm != NULL);
if (m_pexbrkpm->lpfnOutWord != NULL)
{
DWORD ibAnsiOffset;
WCHAR *lpwchSrc;
lpwchSrc = (WCHAR *) _GLOBALLOCK(m_hmemSrc);
// Compute the ANSI offset of the beginning of the raw word.
// The ANSI buffer we pass won't get written to - we just
// pass a pointer just in case the routine requires a non-NULL
// for that param (documentation doesn't say).
ibAnsiOffset = WideCharToMultiByte(m_dwCodePageID, NULL,
lpwchSrc, cwcSrcPos,
lpchBufRaw, 0, NULL, NULL);
// Call the supplied word callback function.
hr = m_pexbrkpm->lpfnOutWord((LPBYTE)lpchBufRaw,
(LPBYTE)lpchBufNorm,
ibAnsiOffset, m_pexbrkpm->lpvUser);
_GLOBALUNLOCK(m_hmemSrc);
}
_GLOBALUNLOCK(m_hmemDestNorm);
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemDestRaw);
}
return (hr);
}
/****************************************************************
* @method STDMETHODIMP | IWordSink | PutAltWord |
* Allows the word breaker to put more than one word in the same place.
* @parm WCHAR const | *pwcInBuf | Pointer to the word to add.
* @parm ULONG |cwc | Count of characters in the word.
* @parm ULONG |cwcSrcLen | count of characters in pTextSource buffer
* (see <om IWordBreaker.BreakText>) that corresponds to the output word.
* @parm ULONG |cwcSrcPos | the position of the word in pTextSource
* buffer that corresponds to the output word
*
* @rvalue S_OK | The operation completed successfully.
* @rvalue E_POINTER | Input buffer is NULL.
*
* @comm
* When you need to add more than one word in the same place, use
* PutAltWord for all alternative words except the last one. Use
* PutWord for the final alternative, indicating movement to the next position.
* @ex The phrase "Where is Kyle's document" would be stored as: |
* pWSink->PutWord( L"Where", 5, 5, 0 );
* pWSink->PutWord( L"is", 2, 2, 6 );
* pWSink->PutAltWord( L"Kyle", 4, 6, 9 );
* pWSink->PutWord( L"Kyle's", 6, 6, 9 );
* pWSink->PutWord( L"document", 8, 8, 16 );
*
*
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::PutAltWord(WCHAR const *pwcInBuf, ULONG cwc,
ULONG cwcSrcLen, ULONG cwcSrcPos)
{
HRESULT hr;
DWORD cbAnsi;
if (pwcInBuf == NULL)
return (E_POINTER);
cbAnsi = (sizeof(WCHAR) * cwc) + sizeof(WORD);
if (SUCCEEDED(hr =
ReallocBuffer(&m_hmemDestNorm, &m_cbBufDestNormCur, cbAnsi)))
{
char *lpchBuf;
lpchBuf = (char *) _GLOBALLOCK(m_hmemDestNorm);
if ((*((WORD *)lpchBuf) = (WORD)
WideCharToMultiByte(m_dwCodePageID, NULL, pwcInBuf, cwc,
lpchBuf + sizeof(WORD), cbAnsi - sizeof(WORD),
NULL, NULL)) > 0)
{
m_fNormWord = TRUE;
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemDestNorm);
}
return (hr);
}
/****************************************************************
* @method STDMETHODIMP | IWordSink | StartAltPhrase |
* This method is not implemented.
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::StartAltPhrase(void)
{
return (E_NOTIMPL);
}
/****************************************************************
* @method STDMETHODIMP | IWordSink | EndAltPhrase|
* This method is not implemented.
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::EndAltPhrase(void)
{
return (E_NOTIMPL);
}
/****************************************************************
* @method STDMETHODIMP | IWordSink | PutBreak |
* This method is not implemented.
*
* @parm WORDREP_BREAK_TYPE | breakType | Specifies break type
*
*
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::PutBreak(WORDREP_BREAK_TYPE breakType)
{
return (E_NOTIMPL);
}
//---------------------------------------------------------------------------
// IStemSink Method Implementations
//---------------------------------------------------------------------------
/****************************************************************
* @method STDMETHODIMP | IStemSink | PutWord |
* Notifies IStemSink of a word that is similar to the input word
* of <om IStemmer.StemWord> method.
*
* @parm WCHAR const | *pwcInBuf | Pointer to the word
* @parm ULONG | cwc | Number of characters in the word
*
* @rvalue E_POINTER | The input buffer is NULL.
*
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::PutWord(WCHAR const *pwcInBuf, ULONG cwc)
{
HRESULT hr;
DWORD cbAnsi;
if (pwcInBuf == NULL)
return (E_POINTER);
cbAnsi = (sizeof(WCHAR) * cwc) + sizeof(WORD);
if (SUCCEEDED(hr =
ReallocBuffer(&m_hmemDestNorm, &m_cbBufDestNormCur, cbAnsi)))
{
char *lpchBuf;
lpchBuf = (char *) _GLOBALLOCK(m_hmemDestNorm);
if ((*((WORD *)lpchBuf) = (WORD)
WideCharToMultiByte(m_dwCodePageID, NULL, pwcInBuf, cwc,
lpchBuf + sizeof(WORD), cbAnsi - sizeof(WORD),
NULL, NULL)) == 0)
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemDestNorm);
}
return (hr);
}
/****************************************************************
* @method STDMETHODIMP | IStemSink | PutAltWord |
* Notifies IStemSink of a word that is similar to the input word
* of <om IStemmer.StemWord> method.
* @parm WCHAR const | *pwcInBuf | Pointer to the word
* @parm ULONG | cwc | Number of characters in the word
*
* @rvalue S_OK | This method always returns success.
*
* @comm
* InfoTech Search only supports getting back one stemmed version
* of the raw word. Any others are ignored.
* @xref <om .PutWord>
***************************************************************/
STDMETHODIMP
CITIndexObjBridge::PutAltWord(WCHAR const *pwcInBuf, ULONG cwc)
{
// We only support getting back one stemmed version of the raw word,
// so we ignore all the others.
return (S_OK);
}
//---------------------------------------------------------------------------
// Other Public Method Implementations
//---------------------------------------------------------------------------
// By the time this method is called, we assume the breaker has been fully
// initialized via IWordBreakerConfig (if present) and via IWordBreaker::Init.
STDMETHODIMP
CITIndexObjBridge::SetWordBreaker(PIWBRK piwbrk)
{
LCID lcid;
if (piwbrk == NULL)
return (SetErrReturn(E_POINTER));
if (m_piwbrk != NULL)
return (SetErrReturn(E_ALREADYINIT));
// Pick up IWordBreakerConfig if its there, otherwise we'll go without it.
// Do the same for IStemmer if we got IWordBreakerConfig.
if (SUCCEEDED(piwbrk->QueryInterface(IID_IWordBreakerConfig,
(LPVOID *) &m_piwbrkc)))
m_piwbrkc->GetWordStemmer(&m_pistem);
// Pick up IITStopWordList if its there, otherwise we'll go without it.
piwbrk->QueryInterface(IID_IITStopWordList, (LPVOID *) &m_piitstwdl);
if (m_piwbrkc == NULL ||
FAILED(m_piwbrkc->GetLocaleInfo(&m_dwCodePageID, &lcid)))
m_dwCodePageID = GetACP();
(m_piwbrk = piwbrk)->AddRef();
return (S_OK);
}
// NOTE: If CITIndexObjBridge::BreakText was going to provide more than
// one buffer's worth of text to the COM breaker, then the very first members of
// CITIndexObjBridge would be made to match those of TEXT_SOURCE so that
// FillTextSource callback could call back into us (by casting the TEXT_SOURCE
// param passed to it). Otherwise, we would have no way of providing
// object-oriented breaking - we would have to resort to using globals.
SCODE __stdcall FillTextSource(TEXT_SOURCE *pTextSource)
{
// We always return failure to signify no more text.
return E_FAIL;
}
STDMETHODIMP
CITIndexObjBridge::BreakText(PEXBRKPM pexbrkpm)
{
HRESULT hr = S_OK;
if (m_piwbrk == NULL)
return (E_UNEXPECTED);
if (pexbrkpm == NULL)
return (SetErrReturn(E_POINTER));
if (pexbrkpm->lpbBuf == NULL)
return (SetErrReturn(E_INVALIDARG));
// Configure word breaker if we got IWordBreakerConfig; otherwise,
// check values in *pexbrkpm to see if they are compatible with defaults.
if (m_piwbrkc != NULL)
{
DWORD grfBreakFlags;
if (SUCCEEDED(hr =
m_piwbrkc->SetBreakWordType(pexbrkpm->dwBreakWordType)) &&
SUCCEEDED(hr =
m_piwbrkc->GetControlInfo(&grfBreakFlags, NULL)))
{
SetGrfFlag(&grfBreakFlags, IITWBC_BREAK_ACCEPT_WILDCARDS,
(pexbrkpm->fFlags & ACCEPT_WILDCARD));
hr = m_piwbrkc->SetControlInfo(grfBreakFlags, NULL);
}
}
else
{
if (pexbrkpm->dwBreakWordType != IITWBC_BREAKTYPE_TEXT)
hr = E_NOTSUPPORTED;
}
if (SUCCEEDED(hr))
{
DWORD cwch;
m_fNormWord = FALSE;
m_pexbrkpm = pexbrkpm;
cwch = pexbrkpm->cbBufCount;
if (SUCCEEDED(hr = ReallocBuffer(&m_hmemSrc, &m_cbBufSrcCur,
sizeof(WCHAR) * cwch)))
{
WCHAR *lpwchBuf;
lpwchBuf = (WCHAR *) _GLOBALLOCK(m_hmemSrc);
// Convert the text source buffer to Unicode.
if ((cwch = MultiByteToWideChar(m_dwCodePageID, NULL,
(LPCSTR) pexbrkpm->lpbBuf, pexbrkpm->cbBufCount,
lpwchBuf, cwch)) > 0)
{
TEXT_SOURCE txtsrc;
txtsrc.pfnFillTextBuffer = FillTextSource;
txtsrc.awcBuffer = lpwchBuf;
txtsrc.iCur = 0;
txtsrc.iEnd = cwch;
// Send the Unicode text buffer to the breaker.
hr = m_piwbrk->BreakText(&txtsrc, (PIWRDSNK) this, NULL);
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemSrc);
}
m_pexbrkpm = NULL;
}
return (hr);
}
// The stop word is in WORD length prefix format.
STDMETHODIMP
CITIndexObjBridge::LookupStopWord(LPBYTE lpbStopWord)
{
HRESULT hr;
DWORD cwch;
DWORD cbAnsi;
if (lpbStopWord == NULL)
return (SetErrReturn(E_POINTER));
if (m_piitstwdl == NULL)
return (SetErrReturn(E_NOTIMPL));
cwch = cbAnsi = (DWORD)(*((WORD *)lpbStopWord));
if (SUCCEEDED(hr = ReallocBuffer(&m_hmemSrc, &m_cbBufSrcCur,
sizeof(WCHAR) * cwch)))
{
WCHAR *lpwchBuf;
lpwchBuf = (WCHAR *) _GLOBALLOCK(m_hmemSrc);
// Convert the stop word to Unicode.
if ((cwch = MultiByteToWideChar(m_dwCodePageID, NULL,
(LPCSTR)lpbStopWord + sizeof(WORD), cbAnsi,
lpwchBuf, cwch)) > 0)
{
// Lookup the stop word.
hr = m_piitstwdl->LookupWord(lpwchBuf, cwch);
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemSrc);
}
return (hr);
}
// Stem the raw word and return result in lpbStemWord.
// Both word buffers are in WORD length prefix format.
STDMETHODIMP
CITIndexObjBridge::StemWord(LPBYTE lpbStemWord, LPBYTE lpbRawWord)
{
HRESULT hr;
DWORD cwch;
DWORD cbAnsi;
if (lpbStemWord == NULL || lpbRawWord == NULL)
return (SetErrReturn(E_POINTER));
if (m_pistem == NULL)
return (SetErrReturn(E_NOSTEMMER));
cwch = cbAnsi = (DWORD)(*((WORD *)lpbRawWord));
if (SUCCEEDED(hr = ReallocBuffer(&m_hmemSrc, &m_cbBufSrcCur,
sizeof(WCHAR) * cwch)))
{
WCHAR *lpwchBuf;
lpwchBuf = (WCHAR *) _GLOBALLOCK(m_hmemSrc);
// Convert the word to be stemmed to Unicode.
if ((cwch = MultiByteToWideChar(m_dwCodePageID, NULL,
(LPCSTR)lpbRawWord + sizeof(WORD), cbAnsi,
lpwchBuf, cwch)) > 0)
{
// Stem the raw word.
if (SUCCEEDED(hr =
m_pistem->StemWord(lpwchBuf, cwch, (PISTEMSNK) this)))
{
char *lpchStemBuf;
WORD cbStemWord;
lpchStemBuf = (char *) _GLOBALLOCK(m_hmemDestNorm);
// Copy stem word from the normalized word destination buffer
// (where our implementation of IStemSink::PutWord put it) to
// lpbStemWord as long as it is not longer than the raw word.
if ((cbStemWord = *((WORD *)lpchStemBuf)) <= cbAnsi)
MEMCPY(lpbStemWord, lpchStemBuf, cbStemWord + sizeof(WORD));
else
hr = E_WORDTOOLONG;
_GLOBALUNLOCK(m_hmemDestNorm);
}
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemSrc);
}
return (hr);
}
// On entry, lpbTermHit is a WORD-prefixed MBCS string.
// On exit, *ppvTermHit is a WORD-prefixed Unicode string.
STDMETHODIMP
CITIndexObjBridge::AddQueryResultTerm(LPBYTE lpbTermHit, LPVOID *ppvTermHit)
{
DWORD cwch;
DWORD cbAnsi;
HRESULT hr = S_OK;
if (lpbTermHit == NULL || ppvTermHit == NULL)
return (SetErrReturn(E_POINTER));
if (m_dwCodePageID == 0)
return (SetErrReturn(E_NOTINIT));
cwch = cbAnsi = (DWORD)(*((WORD *)lpbTermHit));
// When allocating the buffer, add 1 char to leave room for the
// Unicode string's WORD prefix.
if ((m_lpsipbTermHit != NULL ||
(m_lpsipbTermHit = MVStopListInitiate(IDXOBR_TERMHASH_SIZE,
&hr)) != NULL) &&
SUCCEEDED(hr = ReallocBuffer(&m_hmemSrc, &m_cbBufSrcCur,
sizeof(WCHAR) * (cwch + 1))))
{
WCHAR *lpwchBuf;
lpwchBuf = (WCHAR *) _GLOBALLOCK(m_hmemSrc);
// Convert lpbTermHit to Unicode before searching or storing it;
// leave space in the Unicode buffer for the WORD length prefix.
if ((cwch = MultiByteToWideChar(m_dwCodePageID, NULL,
(LPCSTR)lpbTermHit + sizeof(WORD), cbAnsi,
lpwchBuf + 1, cwch)) > 0)
{
// Store the Unicode string length, but restate it in bytes
// since the stopword list lookup code assumes MBCS.
*lpwchBuf = (WORD)cwch * sizeof(WCHAR);
// Add the word to the list and then get a pointer to it.
if (SUCCEEDED(hr = MVStopListAddWord(m_lpsipbTermHit,
(LPBYTE) lpwchBuf)))
{
hr = MVStopListFindWordPtr(m_lpsipbTermHit,
(LST)lpwchBuf, (LST *)ppvTermHit);
}
}
else
hr = E_UNEXPECTED;
_GLOBALUNLOCK(m_hmemSrc);
}
return (hr);
}
// This method should only be called after a query term hit list has been
// completely built. It will iterate over all the terms and reduce the
// length prefixes from byte-based to WCHAR-based - i.e. the lengths
// ill be divided by two. Once this method has been called, it will
// no longer be possible to search for terms in the term list.
// We do this so that the direct pointer refs to terms that end up in the
// query result list point to correct WCHAR-based length prefixes.
STDMETHODIMP
CITIndexObjBridge::AdjustQueryResultTerms(void)
{
if (m_lpsipbTermHit != NULL)
{
LST lstWord;
LONG lWordInfo = -1L;
LPVOID pvWordInfo = NULL;
while (SUCCEEDED(MVStopListEnumWords(m_lpsipbTermHit, &lstWord,
&lWordInfo, &pvWordInfo)))
{
ITASSERT(*((WORD *)lstWord) % sizeof(WCHAR) == 0);
*((WORD *)lstWord) /= sizeof(WCHAR);
}
}
return (S_OK);
}
//---------------------------------------------------------------------------
// Private Method Implementations
//---------------------------------------------------------------------------
HRESULT
CITIndexObjBridge::ReallocBuffer(HGLOBAL *phmemBuf, DWORD *pcbBufCur,
DWORD cbBufNew)
{
return (ReallocBufferHmem(phmemBuf, pcbBufCur,
max(cbBufNew, cbConvBufInit)));
}