Source code of Windows XP (NT5)
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1991 - 2000.
//
// File: QKREP.CXX
//
// Contents: Query Key Repository
//
// Classes: CQueryKeyRepository
//
// History: 04-Jun-91 t-WadeR Created.
// 23-Sep-91 BartosM Rewrote to use phrase expr.
// 31-Jan-93 KyleP Use restrictions, not expressions
//
//----------------------------------------------------------------------------
#include <pch.cxx>
#pragma hdrstop
#include <qparse.hxx>
#include <irest.hxx>
#include "qkrep.hxx"
#include <drep.hxx>
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::CQueryKeyRepository
//
// Synopsis: Creates Key repository
//
// History: 31-May-91 t-WadeR Created
// 23-Sep-91 BartoszM Rewrote to use phrase expr.
//
//----------------------------------------------------------------------------
CQueryKeyRepository::CQueryKeyRepository ( ULONG fuzzy )
: _occLast(OCC_INVALID),
_pOrRst(0),
_pCurAltPhrase(0),
_cInitialNoiseWords(0),
_fNoiseWordsOnly(FALSE),
_fHasSynonym( FALSE )
{
if ( fuzzy == GENERATE_METHOD_PREFIX )
_isRange = TRUE;
else
_isRange = FALSE;
_pPhrase = new CPhraseRestriction( INIT_PHRASE_WORDS );
Win4Assert( _pPhrase->IsValid() );
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::~CQueryKeyRepository
//
// Synopsis: Destroys
//
// History: 31-May-91 t-WadeR Created
// 23-Sep-91 BartoszM Rewrote to use phrase expr.
//
//----------------------------------------------------------------------------
CQueryKeyRepository::~CQueryKeyRepository()
{
delete _pPhrase;
delete _pOrRst;
delete _pCurAltPhrase;
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::AcqXpr
//
// Synopsis: Acquire Phrase(s)
//
// History: 07-Feb-92 BartoszM Created
// 24-Jan-97 KyleP Handle null phrase (from bad alt words)
//
//----------------------------------------------------------------------------
CRestriction * CQueryKeyRepository::AcqRst()
{
CNodeRestriction *pNodeRst;
if ( _pOrRst )
{
Win4Assert( _pPhrase == 0 );
pNodeRst = _pOrRst;
}
else
pNodeRst = _pPhrase;
//
// pNodeRst may be null, if alternate phrasing didn't work out.
//
if ( 0 == pNodeRst )
return 0;
switch( pNodeRst->Count() )
{
case 0:
return( 0 );
break;
case 1:
return( pNodeRst->RemoveChild(0) );
break;
default:
{
CRestriction * tmp = pNodeRst;
_pOrRst = 0;
_pPhrase = 0;
return( tmp );
break;
}
}
} //AcqRst
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::PutKey
//
// Synopsis: Puts a key into the key list and occurrence list
//
// Arguments: [cNoiseWordsSkipped] -- count of noise words that have been skipped
//
// History: 31-May-91 t-WadeR Created
// 23-Sep-91 BartoszM Rewrote to use phrase expr.
// 29-Nov-94 SitaramR Rewrote to take Start/EndAltPhrase into account
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::PutKey ( ULONG cNoiseWordsSkipped )
{
// check if there is a set of alt phrases with noise words only
if ( _fNoiseWordsOnly )
return;
ciDebugOut (( DEB_ITRACE, "QueryKeyRepository::PutKey \"%.*ws\", pid = %d\n",
_key.StrLen(), _key.GetStr(), _key.Pid() ));
if ( _pCurAltPhrase ) // if, we are processing an alternate phrase
AppendKey( _pCurAltPhrase, cNoiseWordsSkipped );
else
{
if ( _pOrRst )
{
Win4Assert( _pOrRst->Count() );
Win4Assert( _pPhrase == 0 );
for ( unsigned i=0; i<_pOrRst->Count(); i++)
{
CRestriction *pRst = _pOrRst->GetChild(i);
Win4Assert( pRst->Type() == RTPhrase );
AppendKey( (CPhraseRestriction *) pRst, cNoiseWordsSkipped );
}
}
else
AppendKey( _pPhrase, cNoiseWordsSkipped );
}
_occLast = _occ;
} //PutKey
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::AppendKey
//
// Synopsis: Appends a key to end of phraseRst
//
// Arguments: [pPhraseRst] -- restriction to append to
// [cNoiseWordsSkipped] -- count of noise words that have been skipped
//
// History: 29-Nov-94 SitaramR Created
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::AppendKey( CPhraseRestriction *pPhraseRst,
ULONG cNoiseWordsSkipped )
{
// _occ as generated by CKeyMaker is not accurate because it does not
// take StartAltPhrase/EndAltPhrase into account. We use _occ (and _occLast)
// solely to test for synonyms. The test is:
//
// if ( _occ == _occLast )
// then synonym
if ( _occ == _occLast )
{
ULONG iLast = pPhraseRst->Count()-1;
COccRestriction *pLastChild = pPhraseRst->GetChild( iLast );
Win4Assert( pLastChild );
if ( pLastChild->Type() == RTWord )
{
ciDebugOut (( DEB_ITRACE, "Create Synonym Expression\n" ));
const CKey* pKey = ((CWordRestriction*) pLastChild)->GetKey();
// there can be no noise words between synonyms
Win4Assert( cNoiseWordsSkipped == 0 );
_fHasSynonym = TRUE;
XPtr<CSynRestriction> xTmp(new CSynRestriction ( *pKey,
pLastChild->Occurrence(),
0, 0, _isRange ));
Win4Assert( xTmp->IsValid() );
delete pLastChild;
pLastChild = xTmp.Acquire();
pPhraseRst->SetChild ( pLastChild, iLast );
}
Win4Assert ( pLastChild->Type() == RTSynonym );
((CSynRestriction*) pLastChild)->AddKey ( _key );
}
else
{
XPtr<CWordRestriction> xChildRst( new CWordRestriction( _key, _occ,
cNoiseWordsSkipped, 0, _isRange ) );
Win4Assert( xChildRst->IsValid() );
// calculate correct occurrence taking noise words into account
OCCURRENCE occ = _ComputeOccurrence( xChildRst.GetPointer(), pPhraseRst );
xChildRst->SetOccurrence( occ );
pPhraseRst->AddChild ( xChildRst.GetPointer() );
xChildRst.Acquire();
}
} //AppendKey
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::StartAltPhrase
//
// Synopsis: Preparation for start of an alternate phrase
//
// Arguments: [cNoiseWordsSkipped] -- count of noise words that have been skipped
//
// History: 29-Nov-94 SitaramR Created
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::StartAltPhrase( ULONG cNoiseWordsSkipped )
{
// check if there is a set of alt phrases with noise words only
if ( _fNoiseWordsOnly )
return;
if ( _pCurAltPhrase )
{
if ( _pCurAltPhrase->Count() == 0 )
delete _pCurAltPhrase;
else
{
// add count of noise words skipped to last child of _pCurAltPhrase
COccRestriction *pOccRst = _pCurAltPhrase->GetChild( _pCurAltPhrase->Count()-1 );
Win4Assert( pOccRst );
pOccRst->AddCountPostNoiseWords( cNoiseWordsSkipped );
_stkAltPhrases.Push( _pCurAltPhrase );
}
}
else
{
if ( _pOrRst )
{
Win4Assert( _pOrRst->Count() );
Win4Assert( _pPhrase == 0 );
// add count of noise words of last child of every phrase in _pOrRst
for ( unsigned i=0; i<_pOrRst->Count(); i++)
{
CRestriction *pRst = _pOrRst->GetChild(i);
Win4Assert( pRst->Type() == RTPhrase );
COccRestriction *pOccRst =
((CPhraseRestriction *)pRst)->GetChild( ((CPhraseRestriction *)pRst)->Count()-1 );
Win4Assert( pOccRst );
pOccRst->AddCountPostNoiseWords( cNoiseWordsSkipped );
}
}
else
{
if ( _pPhrase->Count() != 0 )
{
// add count of noise words skipped to last child of _pPhrase
COccRestriction *pOccRst = _pPhrase->GetChild( _pPhrase->Count()-1 );
Win4Assert( pOccRst );
pOccRst->AddCountPostNoiseWords( cNoiseWordsSkipped );
}
else // sequence of noise words at the beginning of the phrase
_cInitialNoiseWords = cNoiseWordsSkipped;
}
}
_pCurAltPhrase = new CPhraseRestriction( INIT_PHRASE_WORDS );
_occLast = OCC_INVALID; // reset _occLast
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::EndAltPhrase
//
// Synopsis: Append all alternate phrases to existing phrases
//
// Arguments: [cNoiseWordsSkipped] -- count of noise words that have been skipped
//
// History: 29-Nov-94 SitaramR Created
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::EndAltPhrase( ULONG cNoiseWordsSkipped )
{
// check if there is a set of alt phrases with noise words only
if ( _fNoiseWordsOnly )
return;
// call on StartAltPhrase to stack the current alternate phrase
Win4Assert( _pCurAltPhrase );
StartAltPhrase( cNoiseWordsSkipped );
delete _pCurAltPhrase; // allocated in StartAltPhrase, but it is not needed
_pCurAltPhrase = 0;
// if all alternate phrases are noise, then the entire query is an
// uninteresting phrase because we cannot compute the occurrence of the
// first key after the set of alternate phrases. So, clean up and return.
if ( _stkAltPhrases.Count() == 0 )
{
_fNoiseWordsOnly = TRUE;
delete _pOrRst;
_pOrRst = 0;
delete _pPhrase;
_pPhrase = 0;
return;
}
XNodeRestriction xNewOrRst( new CNodeRestriction( RTOr ));
XPhraseRestriction xTailPhrase;
if ( _pOrRst )
{
// concatenate each of the stacked alternate phrases to every child phrase
// of _pOrRst
Win4Assert( _pOrRst->Count() );
Win4Assert( _pPhrase == 0 );
while ( _stkAltPhrases.Count() > 0 )
{
xTailPhrase.Set( _stkAltPhrases.Pop() );
for ( unsigned i=0; i< _pOrRst->Count(); i++)
{
CRestriction *pRst = _pOrRst->GetChild(i);
Win4Assert( pRst->Type() == RTPhrase );
CloneAndAdd( xNewOrRst.GetPointer(), (CPhraseRestriction *)pRst,
xTailPhrase.GetPointer() );
}
CPhraseRestriction *pTailPhrase = xTailPhrase.Acquire();
delete pTailPhrase;
}
}
else // only one phrase so far
{
while ( _stkAltPhrases.Count() > 0 )
{
xTailPhrase.Set( _stkAltPhrases.Pop() );
CloneAndAdd( xNewOrRst.GetPointer(), _pPhrase, xTailPhrase.GetPointer() );
CPhraseRestriction *pTailPhrase = xTailPhrase.Acquire();
delete pTailPhrase;
}
}
delete _pPhrase;
_pPhrase = 0;
delete _pOrRst;
_pOrRst = xNewOrRst.Acquire();
_occLast = OCC_INVALID; // reset _occLast
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::CloneAndAdd
//
// Synopsis: Clone pHeadPhrase, pTailPhrase, concatenate and add the
// resulting phrase to pOrRst
//
// Arguments: [pOrRst] -- Destination Or node
// [pHeadPhrase] -- first part of a phrase
// [pTailPhrase] -- remaining part of a phrase
//
// History: 29-Nov-94 SitaramR Created
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::CloneAndAdd( CNodeRestriction *pOrRst,
CPhraseRestriction *pHeadPhrase,
CPhraseRestriction *pTailPhrase )
{
XPhraseRestriction xPhraseRst( new CPhraseRestriction( INIT_PHRASE_WORDS ) );
Win4Assert( xPhraseRst->IsValid() );
// clone head
XOccRestriction xOccRst;
for ( unsigned i=0; i<pHeadPhrase->Count(); i++ )
{
xOccRst.Set( pHeadPhrase->GetChild(i)->Clone() );
Win4Assert( xOccRst->IsValid() );
xPhraseRst.GetPointer()->AddChild( xOccRst.GetPointer() );
xOccRst.Acquire();
}
// clone tail
for ( i=0; i<pTailPhrase->Count(); i++)
{
xOccRst.Set( pTailPhrase->GetChild(i)->Clone() );
Win4Assert( xOccRst->IsValid() );
OCCURRENCE occ = _ComputeOccurrence( xOccRst.GetPointer(), xPhraseRst.GetPointer() );
xOccRst.GetPointer()->SetOccurrence( occ );
xPhraseRst.GetPointer()->AddChild( xOccRst.GetPointer() );
xOccRst.Acquire();
}
pOrRst->AddChild( xPhraseRst.GetPointer() );
xPhraseRst.Acquire();
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::_ComputeOccurrence
//
// Synopsis: Computes the noise word adjusted occurrence
//
// Arguments: [pOccRst] -- restriction whose occurrence is to be computed
// [pPhrase] -- phrase to which pOccRst is being appended
//
// History: 29-Nov-94 SitaramR Created
//
//----------------------------------------------------------------------------
OCCURRENCE CQueryKeyRepository::_ComputeOccurrence( COccRestriction *pOccRst,
CPhraseRestriction *pPhraseRst )
{
OCCURRENCE occ;
if ( pPhraseRst->Count() )
{
COccRestriction *pPrevOccRst = pPhraseRst->GetChild( pPhraseRst->Count()-1 );
Win4Assert( pPrevOccRst );
// Occurrence of pOccRst is computed as:
// occurrence of previous child (pPrevOccRst) in pPhraseRst
// + count of noise words following pPrevOccRst
// + count of noise words preceeding pOccRst
// + 1
occ = pPrevOccRst->Occurrence() + pPrevOccRst->CountPostNoiseWords() +
pOccRst->CountPrevNoiseWords() + 1;
}
else
{
// Since there are no preivous restrictions, occurrence of
// pOccRst is computed as:
//
// count of noise words at the beginning of phrase
// + count of noise words preceeding pOccRst
// + 1
occ = _cInitialNoiseWords + pOccRst->CountPrevNoiseWords() + 1;
}
return occ;
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::GetBuffers
//
// Synopsis: Returns address of repository's input buffers
//
// Effects:
//
// Arguments: [ppcbInBuf] -- pointer to pointer to size of input buffer
// [ppbInBuf] -- pointer to pointer to recieve address of buffer
// [ppocc] -- pointer to pointer to recieve address of occurrences
//
// History: 05-June-91 t-WadeR Created.
//
// Notes:
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::GetBuffers( unsigned** ppcbWordBuf,
BYTE** ppbWordBuf, OCCURRENCE** ppocc )
{
_key.SetCount(MAXKEYSIZE);
*ppcbWordBuf = _key.GetCountAddress();
*ppbWordBuf = _key.GetWritableBuf();
*ppocc = &_occ;
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::GetFlags
//
// Synopsis: Returns address of rank and range flags
//
// Arguments: [ppRange] -- range flag
// [ppRank] -- rank flag
//
// History: 11-Feb-92 BartoszM Created.
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::GetFlags ( BOOL** ppRange, CI_RANK** ppRank )
{
*ppRange = &_isRange;
*ppRank = &_rank;
}
//+---------------------------------------------------------------------------
//
// Member: CQueryKeyRepository::FixUp
//
// Synopsis: This funstion creates a word restriction with the cached phrase
// in the CDataRepository. Then it connects the new Word Restriction
// to the phrase (internal restriction ) with a new Or restriction.
// If the internal restriction is an Or restriction, than it simply
// do a AddChild to the Or restriction.
//
// Arguments : [drep] -- CDataRepository containing the cached phrase
//
// History: 10-Feb-2000 KitmanH Created
//
// Note: This function is a hack to fix a word breaker issue. The word
// breaker does compund word breaking for some languages, such as
// German. For example, "tes" is broken into "tes" and "1".
// "tes" get a synonyn "t" and "1" gets a synonym "es". This is a
// result of a hack in the infosoft word breaker. The "1" is a place
// holder and is thrown out in a non prefix match phrase to capture
// the case ("tes" | "t") "es". However, this breaks the prefix
// matching scenerio. Noise words are not thrown out in a prefix
// matching (GENERATE_METHOD_PREFIX) query, "tes*" becomes
// (tes*|t*) (1*|es*). In this case, tes*" is not a match unless
// it is followed immediately with a 1* or es*, e.g. "test case"
// is not a match whereas "tested 1000 times" and "testing especially"
// are matches. The hack here is to Or a CWordRestriction of the
// originally phrase without word breaking. This hack works fine,
// if the original phrase is a single word. It will not work in the
// multiple word case.
//
//----------------------------------------------------------------------------
void CQueryKeyRepository::FixUp( CDataRepository & drep )
{
//
// If the keyRep has synonym, we assume word breaking has occured.
//
if ( _isRange && _fHasSynonym )
{
XNodeRestriction xOrRst;
if ( _pPhrase )
{
xOrRst.Set( new CNodeRestriction( RTOr, 2 ) );
xOrRst->AddChild ( _pPhrase );
}
else
{
Win4Assert( 0 != _pOrRst );
xOrRst.Set( _pOrRst );
}
CKeyBuf KeyBuf;
KeyBuf.SetPid( _key.Pid() );
drep.NormalizeWStr( KeyBuf.GetWritableBuf(), KeyBuf.GetCountAddress() );
// Create a CWordRestriction with the Normalized form of the whole phrase
XPtr<CWordRestriction> xWordRst( new CWordRestriction( KeyBuf,
0, // occurence
0,
0,
TRUE ) );
xOrRst->AddChild( xWordRst.GetPointer() );
xWordRst.Acquire();
_pOrRst = xOrRst.Acquire();
_pPhrase = 0;
}
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::CVectorKeyRepository
//
// Synopsis: Creates Vector Key repository
//
// History: 18-Jan-95 SitaramR Created
//
//----------------------------------------------------------------------------
CVectorKeyRepository::CVectorKeyRepository( const CFullPropSpec & ps,
LCID lcid,
ULONG ulWeight,
CPidMapper & pidMap,
CLangList & langList )
: _occLast(OCC_INVALID),
_ps(ps),
_lcid(lcid),
_ulWeight(ulWeight),
_pidMap(pidMap),
_langList( langList )
{
_pVectorRst = new CVectorRestriction( VECTOR_RANK_JACCARD );
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::~CVectorKeyRepository
//
// History: 18-Jan-95 SitaramR Created
//
//----------------------------------------------------------------------------
CVectorKeyRepository::~CVectorKeyRepository()
{
delete _pVectorRst;
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::AcqRst
//
// Synopsis: Acquire vector restriction
//
// History: 18-Jan-95 SitaramR Created
//
//----------------------------------------------------------------------------
CVectorRestriction* CVectorKeyRepository::AcqRst()
{
if ( _pVectorRst->Count() == 0 )
return 0;
else
{
CVectorRestriction *pTmp = _pVectorRst;
_pVectorRst = 0;
return pTmp;
}
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::PutKey
//
// Synopsis: Adds a key to the vector restriction
//
// Arguments: cNoiseWordsSkipped -- ignored (used by CQueryKeyRepository::PutKey )
//
// History: 18-Jan-95 SitaramR Created
//
//----------------------------------------------------------------------------
void CVectorKeyRepository::PutKey( ULONG cNoiseWordsSkipped )
{
ciDebugOut (( DEB_ITRACE, "VectorKeyRepository::PutKey \"%.*ws\", pid=%d\n",
_key.StrLen(), _key.GetStr(), _key.Pid() ));
// _occ as generated by CKeyMaker is not accurate because it does not
// take StartAltPhrase/EndAltPhrase into account. We use _occ (and _occLast)
// solely to test for synonyms. The test is:
//
// if ( _occ == _occLast )
// then synonym
if ( _occ == _occLast )
{
ULONG iLast = _pVectorRst->Count()-1;
COccRestriction *pLastChild = (COccRestriction *)_pVectorRst->GetChild( iLast );
Win4Assert( pLastChild );
if ( pLastChild->Type() == RTWord )
{
ciDebugOut (( DEB_ITRACE, "Create Synonym Expression\n" ));
const CKey* pKey = ((CWordRestriction*) pLastChild)->GetKey();
// there can be no noise words between synonyms
Win4Assert( cNoiseWordsSkipped == 0 );
CSynRestriction* tmp = new CSynRestriction ( *pKey,
pLastChild->Occurrence(),
0, 0, FALSE );
Win4Assert( tmp->IsValid() );
delete pLastChild;
pLastChild = tmp;
_pVectorRst->SetChild ( tmp, iLast );
}
Win4Assert ( pLastChild->Type() == RTSynonym );
((CSynRestriction*) pLastChild)->AddKey ( _key );
}
else
{
XWordRestriction xWordRst( new CWordRestriction( _key, 1, 0, 0, FALSE ));
_pVectorRst->AddChild( xWordRst.GetPointer() );
xWordRst.Acquire();
}
_occLast = _occ;
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::GetBuffers
//
// Synopsis: Returns address of repository's input buffers
//
// Arguments: [ppcbInBuf] -- pointer to pointer to size of input buffer
// [ppbInBuf] -- pointer to pointer to recieve address of buffer
// [ppocc] -- pointer to pointer to recieve address of occurrences
//
// History: 18-Jan-95 SitaramR Created.
//
//----------------------------------------------------------------------------
void CVectorKeyRepository::GetBuffers( unsigned** ppcbWordBuf,
BYTE** ppbWordBuf, OCCURRENCE** ppocc )
{
_key.SetCount(MAXKEYSIZE);
*ppcbWordBuf = _key.GetCountAddress();
*ppbWordBuf = _key.GetWritableBuf();
*ppocc = &_occ;
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::GetFlags
//
// Synopsis: Returns address of rank and range flags
//
// Arguments: [ppRange] -- range flag
// [ppRank] -- rank flag
//
// History: 18-Jan-95 SitaramR Created.
//
//----------------------------------------------------------------------------
void CVectorKeyRepository::GetFlags ( BOOL** ppRange, CI_RANK** ppRank )
{
*ppRange = 0;
*ppRank = 0;
}
//+---------------------------------------------------------------------------
//
// Member: CVectorKeyRepository::PutPhrase
//
// Synopsis: Stores query time phrases
//
// Arguments: [pwcPhrase] -- phrase as it exists in the text sources
// [cwcPhrase] -- count of characters in pwcPhrase
//
// History: 14-Feb-95 SitaramR Created.
//
//----------------------------------------------------------------------------
SCODE CVectorKeyRepository::PutPhrase( WCHAR const *pwcPhrase, ULONG cwcPhrase )
{
XPtrST<WCHAR> xString( new WCHAR[cwcPhrase+1] );
RtlCopyMemory( xString.GetPointer(), pwcPhrase, cwcPhrase*sizeof(WCHAR) );
xString.GetPointer()[cwcPhrase] = 0;
CQueryKeyRepository keyRep( GENERATE_METHOD_EXACT );
BreakPhrase( xString.GetPointer(), _ps, _lcid, GENERATE_METHOD_EXACT, keyRep, 0, _pidMap, _langList );
CRestriction *pPhraseRst = keyRep.AcqRst();
if ( 0 != pPhraseRst )
{
XPtr<CRestriction> xRst( pPhraseRst );
pPhraseRst->SetWeight( _ulWeight );
_pVectorRst->AddChild( pPhraseRst );
xRst.Acquire();
}
_occLast = OCC_INVALID; // reset _occLast
return S_OK;
}
//
// The following are needed to make midl happy. There are no other interfaces
// to bind to. Inheritance from IUnknown is unnecessary.
//
SCODE STDMETHODCALLTYPE CVectorKeyRepository::QueryInterface(REFIID riid, void * * ppvObject)
{
*ppvObject = 0;
return( E_NOTIMPL );
}
ULONG STDMETHODCALLTYPE CVectorKeyRepository::AddRef()
{
return( 1 );
}
ULONG STDMETHODCALLTYPE CVectorKeyRepository::Release()
{
return( 1 );
}