Leaked source code of windows server 2003
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

1735 lines
57 KiB

//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 2000.
//
// File: PARSER.CXX
//
// Contents: Implementation of the CQueryParser class
//
// History: 30-Apr-92 AmyA Created.
// 23-Jun-92 MikeHew Added weight parsing.
// 11-May-94 t-jeffc Rewrote to support new queries;
// added exception handling
// 02-Mar-95 t-colinb Added CPropertyValueParser and
// augmented the parser to generate
// a CPropertyRestriction with a
// value
// 25-Sep-95 sundarA Modified relative date calculation;
// Replaced 'c' runtime dependant time
// functions. Modified
// CPropertyValueParser::CheckForRelativeDate
//
// Notes: See bnf.txt for a complete listing of the grammar.
//
//----------------------------------------------------------------------------
#include <pch.cxx>
#pragma hdrstop
#include <cichkstk.hxx>
#include <parser.hxx>
DECLARE_INFOLEVEL(qutil);
static const GUID guidSystem = PSGUID_STORAGE;
static CDbColId psContents( guidSystem, PID_STG_CONTENTS );
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::ParseQueryPhrase, public
//
// Synopsis: Parses a query and returns it in the form of a tree.
//
// Arguments: - none -
//
// History: 03 Feb 1998 AlanW Added error checks
//
//----------------------------------------------------------------------------
CDbRestriction * CQueryParser::ParseQueryPhrase()
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstQuery( Query( 0 ) );
// extraneous input at the end of the query?
if( !_scan.IsEmpty() )
{
SCODE sc = QPARSE_E_EXPECTING_EOS;
if ( _scan.LookAhead() == NOT_TOKEN )
sc = QPARSE_E_UNEXPECTED_NOT;
THROW( CParserException( sc ) );
}
return prstQuery.Acquire();
} //ParseQueryPhrase
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::Query, private
//
// Synopsis: Recursive function that calls QExpr and creates a vector node
// if necessary.
//
// Arguments: [prstVector] -- if non-null, a Vector node that can be added to.
//
// Production: Query : QExpr
// | QExpr COMMA_TOKEN Query
//
// History: 01-May-92 AmyA Created
// 23-Jun-92 MikeHew Added weight parsing.
// 10-Feb-93 KyleP Convert to restrictions
// 11-May-94 t-jeffc Rewrote to support vectors
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::Query( CDbNodeRestriction * prstVector )
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstExpr( QExpr( 0 ) );
unsigned pos;
if( _scan.LookAhead() == COMMA_TOKEN )
{
_scan.Accept();
if ( prstVector == 0 )
{
//
// Special case: If the first value is a rank method specifier.
//
if ( prstExpr->GetCommandType() == DBOP_content )
{
CDbContentRestriction * pContent = (CDbContentRestriction *)prstExpr.GetPointer();
WCHAR const * pPhrase = pContent->GetPhrase();
if ( pPhrase[0] == L'-')
{
if ( 0 == _wcsicmp( L"--Jaccard--", pPhrase) )
{
_rankMethod = VECTOR_RANK_JACCARD;
delete prstExpr.Acquire();
}
else if ( 0 == _wcsicmp( L"--Dice--", pPhrase) )
{
_rankMethod = VECTOR_RANK_DICE;
delete prstExpr.Acquire();
}
else if ( 0 == _wcsicmp( L"--Inner--", pPhrase) )
{
_rankMethod = VECTOR_RANK_INNER;
delete prstExpr.Acquire();
}
else if ( 0 == _wcsicmp( L"--Max--", pPhrase) )
{
_rankMethod = VECTOR_RANK_MAX;
delete prstExpr.Acquire();
}
else if ( 0 == _wcsicmp( L"--Min--", pPhrase) )
{
_rankMethod = VECTOR_RANK_MIN;
delete prstExpr.Acquire();
}
}
}
qutilDebugOut(( DEB_TRACE,
"setting rank method to: %d\n",
_rankMethod ));
// create smart Vector node
XDbVectorRestriction prstNew( new CDbVectorRestriction( _rankMethod ) );
if ( prstNew.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
// add left expression & release its smart pointer
if ( !prstExpr.IsNull() )
{
prstNew->AppendChild( prstExpr.GetPointer() );
prstExpr.Acquire();
}
if ( !prstNew->IsValid() )
THROW( CException( E_OUTOFMEMORY ) );
// parse right expression
CDbRestriction * prst = Query( prstNew.GetPointer() );
// release pointer to the vector node
prstNew.Acquire();
return prst;
}
else // there already is a vector node
{
// add expression & release its smart pointer
prstVector->AppendChild( prstExpr.GetPointer() );
prstExpr.Acquire();
// parse right expression
return Query( prstVector );
}
}
else // no more COMMA_TOKENs
{
if( prstVector != 0 ) // add last child
{
// add expression & release its smart pointer
prstVector->AppendChild( prstExpr.GetPointer() );
prstExpr.Acquire();
return prstVector;
}
else // no vector nodes
{
// release & return expression
return prstExpr.Acquire();
}
}
} //Query
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QExpr, private
//
// Synopsis: Recursive function that calls QTerm and creates an Or
// node if necessary.
//
// Arguments: [prstOr] -- if non-null, an Or node that can be added to.
//
// Production: QExpr : QTerm
// | QTerm OR_TOKEN QExpr
//
// History: 05-May-94 t-jeffc Created
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QExpr( CDbBooleanNodeRestriction * prstOr )
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstTerm( QTerm( 0 ) );
if ( _scan.LookAhead() == OR_TOKEN )
{
_scan.Accept();
if ( 0 == prstOr )
{
// create smart Or node
XDbBooleanNodeRestriction prstNew( new CDbBooleanNodeRestriction( DBOP_or ) );
if ( prstNew.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
// add left term & release its smart pointer
prstNew->AppendChild( prstTerm.GetPointer() );
// release smart Or node pointer
prstTerm.Acquire();
// parse right expression
CDbRestriction * prst = QExpr( prstNew.GetPointer() );
// release smart Or node pointer
prstNew.Acquire();
return prst;
}
else // there already is an Or node to add to
{
// add left term & release its smart pointer
prstOr->AppendChild( prstTerm.GetPointer() );
prstTerm.Acquire();
// add more children
return QExpr( prstOr );
}
}
else // no more OR_TOKENs
{
if( prstOr != 0 ) // add last child
{
// add term & release its smart pointer
prstOr->AppendChild( prstTerm.GetPointer() );
prstTerm.Acquire();
return prstOr;
}
else // no OR_TOKENs at all
// release & return term
return prstTerm.Acquire();
}
} //QExpr
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QTerm, private
//
// Synopsis: Recursive function that calls QFactor and creates an And
// node if necessary.
//
// Arguments: [prstAnd] -- if non-null, an And node that can be added to.
//
// Production: QTerm : (NOT_TOKEN) QProp (W_OPEN_TOKEN Weight W_CLOSE_TOKEN)
// | (NOT_TOKEN) QProp (W_OPEN_TOKEN Weight W_CLOSE_TOKEN) AND_TOKEN QTerm
//
// History: 01-May-92 AmyA Created
// 11-May-94 t-jeffc Added NOTs; moved weights to this level
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QTerm( CDbBooleanNodeRestriction * prstAnd )
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstTerm;
if ( _scan.LookAhead() == NOT_TOKEN )
{
_scan.Accept();
// create smart Not node
XDbNotRestriction prstNot( new CDbNotRestriction );
if ( prstNot.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
// parse factor
XDbRestriction prst( QProp() );
// set child of Not node & release smart factor pointer
prstNot->SetChild( prst.GetPointer() );
prst.Acquire();
// transfer ownership from prstNot to prstTerm
prstTerm.Set( prstNot.Acquire() );
}
else
{
// wrap just the factor in the smart pointer
prstTerm.Set( QProp() );
}
LONG lWeight;
if( _scan.LookAhead() == W_OPEN_TOKEN )
{
_scan.Accept();
BOOL fAtEnd;
BOOL isNumber = _scan.GetNumber( lWeight, fAtEnd );
if( !isNumber )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
_scan.Accept();
if( _scan.LookAhead() != W_CLOSE_TOKEN )
THROW( CParserException( QPARSE_E_EXPECTING_BRACE ) );
_scan.Accept();
if ( lWeight > MAX_QUERY_RANK )
THROW( CParserException( QPARSE_E_WEIGHT_OUT_OF_RANGE ) );
}
else
{
lWeight = MAX_QUERY_RANK;
}
// We should be able to set weights on all the nodes.
prstTerm->SetWeight( lWeight );
if ( _scan.LookAhead() == AND_TOKEN )
{
_scan.Accept();
if( 0 == prstAnd )
{
// create smart And node
XDbBooleanNodeRestriction prstNew( new CDbBooleanNodeRestriction( DBOP_and ) );
if ( prstNew.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
// add left factor & release its smart pointer
prstNew->AppendChild( prstTerm.GetPointer() );
prstTerm.Acquire();
// parse right expression
CDbRestriction * prst = QTerm( prstNew.GetPointer() );
// release smart And node pointer
prstNew.Acquire();
return prst;
}
else // there already is an And node to add to
{
// add left factor & release its smart pointer
prstAnd->AppendChild( prstTerm.GetPointer() );
prstTerm.Acquire();
// add more children
return QTerm( prstAnd );
}
}
else // no more AND_TOKENs
{
if ( 0 != prstAnd ) // add last child
{
// add factor & release its smart pointer
prstAnd->AppendChild( prstTerm.GetPointer() );
prstTerm.Acquire();
return prstAnd;
}
// no AND_TOKENs at all
// release & return factor
return prstTerm.Acquire();
}
} //QTerm
//
// array for converting token to relop - this relies on the order
// of the token enumeration in scanner.hxx
//
enum DBOPModifier
{
DBOPModifyNone = 0,
DBOPModifyAll = 1,
DBOPModifyAny = 2
};
static const DBCOMMANDOP rgRelopToken[] =
{
DBOP_equal,
DBOP_not_equal,
DBOP_greater,
DBOP_greater_equal,
DBOP_less,
DBOP_less_equal,
DBOP_allbits,
DBOP_anybits,
DBOP_equal_all,
DBOP_not_equal_all,
DBOP_greater_all,
DBOP_greater_equal_all,
DBOP_less_all,
DBOP_less_equal_all,
DBOP_allbits_all,
DBOP_anybits_all,
DBOP_equal_any,
DBOP_not_equal_any,
DBOP_greater_any,
DBOP_greater_equal_any,
DBOP_less_any,
DBOP_less_equal_any,
DBOP_allbits_any,
DBOP_anybits_any,
};
const unsigned cRelopToken = sizeof rgRelopToken / sizeof rgRelopToken[0];
inline DBCOMMANDOP FormDBOP( ULONG op, ULONG opModifier )
{
Win4Assert( cRelopToken == (SOMEOF_TOKEN+1) * (DBOPModifyAny+1) );
Win4Assert( op <= SOMEOF_TOKEN );
Win4Assert( opModifier <= DBOPModifyAny );
return rgRelopToken[ opModifier*(SOMEOF_TOKEN+1) + op ];
}
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QProp, private
//
// Synopsis: Allows a prop specification or uses the current property
// for the following factor.
//
// Production: QProp : QFactor
// | PROP_TOKEN property QFactor
// | PROP_REGEX_TOKEN property (EQUAL_TOKEN) REGEX
// | PROP_NATLANG_TOKEN property QPhrase
//
// History: 05-May-92 AmyA Created
// 11-May-94 t-jeffc Added regex support and expanded
// property restrictions
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QProp()
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstFactor;
XPtrST<WCHAR> wcsProperty;
switch( _scan.LookAhead() )
{
case PROP_TOKEN:
{
_scan.Accept();
// parse property name & cache in smart pointer
wcsProperty.Set( _scan.AcqColumn() );
if( wcsProperty.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PROPERTY ) );
_scan.AcceptColumn();
// make this property the current one
SetCurrentProperty( wcsProperty.GetPointer(), CONTENTS );
prstFactor.Set( QFactor() );
break;
}
case PROP_REGEX_TOKEN: // process 'PROP_REGEX_TOKEN property regex' rule
{
_scan.Accept();
// get property name & cache in smart pointer
wcsProperty.Set( _scan.AcqColumn() );
if( wcsProperty.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PROPERTY ) );
_scan.AcceptColumn();
SetCurrentProperty( wcsProperty.GetPointer(), REGEX );
// allow optional equal token in regex queries
if ( EQUAL_TOKEN == _scan.LookAhead() )
_scan.Accept();
prstFactor.Set( QPhrase() );
break;
}
case PROP_NATLANG_TOKEN: // process 'PROP_NATLANG_TOKEN property QGroup' rule
_scan.Accept();
// get property name & cache in smart pointer
wcsProperty.Set( _scan.AcqColumn() );
if( wcsProperty.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PROPERTY ) );
_scan.AcceptColumn();
SetCurrentProperty( wcsProperty.GetPointer(), NATLANGUAGE );
prstFactor.Set( QPhrase() );
break;
default: // No property name
prstFactor.Set( QFactor() );
break;
} // switch( _scan.LookAhead() )
// release & return smart factor
return prstFactor.Acquire();
} //QProp
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QFactor, private
//
// Synopsis: Calls Query if parentheses are detected. Processes property
// query if a PROP_TOKEN, PROP_REGEX_TOKEN or OP_TOKEN are found.
// Otherwise calls QGroup.
//
// Production: QFactor : QGroup
// | OPEN_TOKEN Query CLOSE_TOKEN
// | OP_TOKEN phrase
//
// History: 05-May-92 AmyA Created
// 11-May-94 t-jeffc Added regex support and expanded
// property restrictions
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QFactor()
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prstFactor;
XPtrST<WCHAR> wcsProperty;
switch( _scan.LookAhead() )
{
case OPEN_TOKEN: // process 'OPEN_TOKEN Query CLOSE_TOKEN' rule
{
_scan.Accept();
// save-away the current property so it can be restored after
// the expression in parenthesis is parsed.
unsigned cwc = wcslen( GetCurrentProperty() );
XGrowable<WCHAR, 20> xSaveProp( cwc + 1 );
wcscpy( xSaveProp.Get(), GetCurrentProperty() );
PropertyType ptSave = _propType;
// parse expression
prstFactor.Set( Query( 0 ) );
if( _scan.LookAhead() != CLOSE_TOKEN )
{
SCODE sc = QPARSE_E_EXPECTING_PAREN;
if ( _scan.LookAhead() == NOT_TOKEN )
sc = QPARSE_E_UNEXPECTED_NOT;
THROW( CParserException( sc ) );
}
_scan.Accept();
SetCurrentProperty( xSaveProp.Get(), ptSave );
break;
}
case EQUAL_TOKEN: // process 'OP_TOKEN phrase' rule
case NOT_EQUAL_TOKEN: // (only if in non-regex mode)
case GREATER_TOKEN:
case GREATER_EQUAL_TOKEN:
case LESS_TOKEN:
case LESS_EQUAL_TOKEN:
case ALLOF_TOKEN:
case SOMEOF_TOKEN:
if( !IsRegEx() )
{
prstFactor.Set( ParsePropertyRst() );
break;
}
// FALL THROUGH
default: // No parentheses or op token
prstFactor.Set( QGroup( 0 ) );
break;
} // switch( _scan.LookAhead() )
// release & return smart factor
return prstFactor.Acquire();
} //QFactor
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::ParsePropertyRst, private
//
// Synopsis: Parses a relational property restriction and returns
// a CPropertyRestriction
//
// History: 26-May-94 t-jeffc Created
// 02-Mar-95 t-colinb Added the parsing of vector properties
//
//----------------------------------------------------------------------------
CDbRestriction * CQueryParser::ParsePropertyRst()
{
CTrackRecursionDepth<CQueryParser> track( *this );
// create smart Property node
XDbPropertyRestriction prstProp( new CDbPropertyRestriction );
if ( prstProp.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
DBID *pdbid = 0;
DBTYPE ptype;
if( FAILED(_xList->GetPropInfoFromName(
GetCurrentProperty(),
&pdbid,
&ptype,
0 )) )
THROW( CParserException( QPARSE_E_NO_SUCH_PROPERTY ) );
CDbColId * pps = (CDbColId *)pdbid;
Win4Assert( 0 != pps && pps->IsValid() );
if (! prstProp->SetProperty( *pps ) )
THROW( CException( E_OUTOFMEMORY ) );
// don't allow @contents <relop> X -- it's too expensive and we'll
// never find any hits anyway (until we implement this feature)
if ( *pps == psContents )
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
ULONG op = _scan.LookAhead();
_scan.Accept();
ULONG opModifier = DBOPModifyNone;
//
// look for a relop modifier like allof or anyof
//
switch( _scan.LookAhead() )
{
case ALLOF_TOKEN :
opModifier = DBOPModifyAll;
_scan.Accept();
break;
case SOMEOF_TOKEN :
opModifier = DBOPModifyAny;
_scan.Accept();
break;
}
prstProp->SetRelation( FormDBOP( op, opModifier ) );
switch( _scan.LookAhead() )
{
case PROP_TOKEN:
case PROP_REGEX_TOKEN: // process 'PROP_TOKEN property OP_TOKEN PROP_TOKEN property' rule
#if 0
{
_scan.Accept();
THROW( CParserException( QPARSE_E_NOT_YET_IMPLEMENTED ) );
}
#endif // 0
default: // process 'PROP_TOKEN property OP_TOKEN string' rule
{
CPropertyValueParser PropValueParser( _scan, ptype, _locale );
XPtr<CStorageVariant> pStorageVar( PropValueParser.AcquireStgVariant() );
if ( 0 != pStorageVar.GetPointer() )
{
// This should always be the case - else PropValueParser would have thrown
if ( ! ( ( prstProp->SetValue( pStorageVar.GetReference() ) ) &&
( prstProp->IsValid() ) ) )
THROW( CException( E_OUTOFMEMORY ) );
}
}
} // switch
// release & return property restriction
return prstProp.Acquire();
} //ParsePropertyRst
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QGroup, private
//
// Synopsis: Recursive function that calls QPhrase and creates a Proximity
// node if necessary.
//
// Arguments: [prstProx] -- if non-null, a Proximity node that can be added to.
//
// Production: QGroup : QPhrase
// | QPhrase PROX_TOKEN QGroup
//
// History: 04-May-92 AmyA Created
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QGroup( CDbProximityNodeRestriction * prstProx )
{
CTrackRecursionDepth<CQueryParser> track( *this );
XDbRestriction prst;
if ( 0 == prstProx )
prst.Set( QPhrase() );
else
prst.Set( QProp() );
if( _scan.LookAhead() == PROX_TOKEN )
{
_scan.Accept();
if ( 0 == prstProx )
{
// create smart Prox node
XDbProximityNodeRestriction prstNew(new CDbProximityNodeRestriction());
if( prstNew.IsNull() || !prstNew->IsValid() )
THROW( CException( E_OUTOFMEMORY ) );
// add left phrase & release its smart pointer
prstNew->AppendChild( prst.GetPointer() );
prst.Acquire();
// parse right expression
CDbRestriction * prst = QGroup( prstNew.GetPointer() );
// release smart Prox node pointer
prstNew.Acquire();
return prst;
}
else // there already is a Prox node to add to
{
// add left phrase & release its smart pointer
prstProx->AppendChild( prst.GetPointer() );
prst.Acquire();
// add more children
return QGroup( prstProx );
}
}
else // no more PROX_TOKENs
{
if( prstProx != 0 ) // add last child
{
// add phrase & release its smart pointer
prstProx->AppendChild( prst.GetPointer() );
prst.Acquire();
return prstProx;
}
else // no PROX_TOKENs at all
// release & return phrase
return prst.Acquire();
}
} //QGroup
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::QPhrase, private
//
// Synopsis: If expecting a content query, acquires the phrase, determines
// the fuzzy level and creates a ContentRestriction. If expecting
// a natural language query, acquires the phrase and creates a
// NatLanguageRestriction. If expecting a regular expression,
// acquires that from the scanner and creates a new PropertyRestriction.
//
// Production: QPhrase : phrase(FUZZY_TOKEN | FUZ2_TOKEN)
// | REGEX
// | QUOTES_TOKEN extended_phrase(FUZZY_TOKEN | FUZ2_TOKEN)
//
// History: 01-May-92 AmyA Created
// 25-May-93 BartoszM Changed fuzzy syntax
// 10-May-94 t-jeffc Recognizes regex phrases
//
//----------------------------------------------------------------------------
CDbRestriction* CQueryParser::QPhrase()
{
CTrackRecursionDepth<CQueryParser> track( *this );
CDbColId * pps = 0;
DBID *pdbid = 0;
DBTYPE dbType;
if( FAILED(_xList->GetPropInfoFromName( GetCurrentProperty(),
&pdbid,
&dbType,
0 )) )
THROW( CParserException( QPARSE_E_NO_SUCH_PROPERTY ) );
pps = (CDbColId *)pdbid;
if( IsRegEx() ) // used PROP_REGEX_CHAR to specify property
{
if ( ( ( DBTYPE_WSTR|DBTYPE_BYREF ) != dbType ) &&
( ( DBTYPE_STR|DBTYPE_BYREF ) != dbType ) &&
( VT_BSTR != dbType ) &&
( VT_LPWSTR != dbType ) &&
( VT_LPSTR != dbType ) )
THROW( CParserException( QPARSE_E_EXPECTING_REGEX_PROPERTY ) );
XPtrST<WCHAR> phraseRegEx( _scan.AcqRegEx() );
if( phraseRegEx.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_REGEX ) );
_scan.Accept();
// create smart Property node
XDbPropertyRestriction prstProp( new CDbPropertyRestriction );
if ( prstProp.IsNull() )
THROW( CException( E_OUTOFMEMORY ) );
prstProp->SetRelation(DBOP_like); // LIKE relation
if ( ( ! prstProp->SetProperty( *pps ) ) ||
( ! prstProp->SetValue( phraseRegEx.GetPointer() ) ) ||
( ! prstProp->IsValid() ) )
THROW( CException( E_OUTOFMEMORY ) );
// release & return smart Property node
return prstProp.Acquire();
}
else
{
XPtrST<WCHAR> phrase;
if ( _scan.LookAhead() == QUOTES_TOKEN )
{
_scan.AcceptQuote();
phrase.Set( _scan.AcqPhraseInQuotes() );
}
else
phrase.Set( _scan.AcqPhrase() );
if( phrase.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
_scan.Accept();
int fuzzy = 0;
Token tok = _scan.LookAhead();
if ( tok == FUZZY_TOKEN )
{
_scan.Accept();
fuzzy = 1;
}
else if ( tok == FUZ2_TOKEN )
{
_scan.Accept();
fuzzy = 2;
}
if ( _propType == CONTENTS ) // used PROP_TOKEN to specify property
{
// create smart Content node
XDbContentRestriction prstContent( new CDbContentRestriction( phrase.GetPointer(),
*pps,
fuzzy,
_locale ));
if ( prstContent.IsNull() || !prstContent->IsValid() )
THROW( CException( E_OUTOFMEMORY ) );
// release & return smart Content node
return prstContent.Acquire();
}
else // used PROP_NATLANG_TOKEN to specify property
{
// create smart Natural Language node
XDbNatLangRestriction pNatLangRst( new CDbNatLangRestriction( phrase.GetPointer(),
*pps,
_locale ));
if ( pNatLangRst.IsNull() || !pNatLangRst->IsValid() )
THROW( CException( E_OUTOFMEMORY ) );
// release & return smart Natural Language node
return pNatLangRst.Acquire();
}
}
} //QPhrase
//+---------------------------------------------------------------------------
//
// Member: CQueryParser::SetCurrentProperty, private
//
// Synopsis: Changes the property used in content and property restrictions
// from this point on in the input line.
//
// Arguments: wcsProperty -- friendly name of property
// (can be 0)
// propType -- specifies the property type
//
// Notes: Makes its own copy of the property name
// (unlike GetCurrentProperty, which just returns a pointer)
//
// History: 18-May-94 t-jeffc Created
//
//----------------------------------------------------------------------------
void CQueryParser::SetCurrentProperty( WCHAR const * wcsProperty,
PropertyType propType )
{
delete [] _wcsProperty;
_wcsProperty = 0;
if ( 0 != wcsProperty )
{
int cwc = wcslen( wcsProperty ) + 1;
_wcsProperty = new WCHAR[ cwc ];
RtlCopyMemory( _wcsProperty, wcsProperty, cwc * sizeof WCHAR );
}
_propType = propType;
} //SetCurrentProperty
//+---------------------------------------------------------------------------
//
// Member: CPropertyValueParser::CPropertyValueParser, public
//
// Synopsis: This constructor reads token from scanner and
// generates the corresponding CStorageVariant
//
// History: 02-Mar-95 t-colinb Created.
// 02-Sep-98 KLam Added locale
//
//----------------------------------------------------------------------------
CPropertyValueParser::CPropertyValueParser(
CQueryScanner &scanner,
DBTYPE PropType,
LCID locale ) :
_pStgVariant( 0 ),
_locale ( locale )
{
unsigned cElements=0;
BOOL fParsingVector = (C_OPEN_TOKEN == scanner.LookAhead());
if ( fParsingVector )
{
// this is a vector
if ( DBTYPE_VECTOR != ( PropType & DBTYPE_VECTOR ) )
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
scanner.Accept();
VARENUM ve = (VARENUM ) PropType;
if ( PropType == ( DBTYPE_VECTOR | DBTYPE_WSTR ) )
ve = (VARENUM) (VT_VECTOR | VT_LPWSTR);
else if ( PropType == ( DBTYPE_VECTOR | DBTYPE_STR ) )
ve = (VARENUM) (VT_VECTOR | VT_LPSTR);
_pStgVariant.Set( new CStorageVariant( ve, cElements ) );
}
else
{
// ok to look for singletons with a vector (sometimes)
_pStgVariant.Set( new CStorageVariant() );
}
if ( 0 == _pStgVariant.GetPointer() )
THROW( CException( E_OUTOFMEMORY ) );
// first check for an empty vector -- these are legal
if ( ( fParsingVector ) &&
( C_CLOSE_TOKEN == scanner.LookAhead() ) )
{
scanner.Accept();
return;
}
BOOL fFinished = FALSE;
do
{
XPtrST<WCHAR> wcsPhrase;
if ( QUOTES_TOKEN == scanner.LookAhead() )
{
// this is a phrase in quotes
scanner.AcceptQuote();
wcsPhrase.Set( scanner.AcqPhraseInQuotes() );
if ( wcsPhrase.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
}
else
{
wcsPhrase.Set( scanner.AcqPhrase() );
if ( wcsPhrase.GetPointer() == 0 )
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
}
scanner.Accept();
switch ( PropType & ~DBTYPE_VECTOR )
{
case DBTYPE_WSTR :
case DBTYPE_WSTR | DBTYPE_BYREF :
{
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetLPWSTR( wcsPhrase.GetPointer(), cElements );
else
_pStgVariant->SetLPWSTR( wcsPhrase.GetPointer() );
break;
}
case DBTYPE_BSTR :
{
BSTR bstr = SysAllocString( wcsPhrase.GetPointer() );
if ( 0 == bstr )
THROW( CException( E_OUTOFMEMORY ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetBSTR( bstr, cElements );
else
_pStgVariant->SetBSTR( bstr );
SysFreeString( bstr );
break;
}
case DBTYPE_STR :
case DBTYPE_STR | DBTYPE_BYREF :
{
// make sure there's enough room to translate
unsigned cbBuffer = 1 + 3 * wcslen( wcsPhrase.GetPointer() );
XArray<char> xBuf( cbBuffer );
int cc = WideCharToMultiByte( CP_ACP,
0,
wcsPhrase.GetPointer(),
-1,
xBuf.Get(),
cbBuffer,
NULL,
NULL );
if ( 0 == cc )
{
#if CIDBG
ULONG ul = GetLastError();
#endif
THROW( CParserException( QPARSE_E_EXPECTING_PHRASE ) );
}
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetLPSTR( xBuf.Get(), cElements );
else
_pStgVariant->SetLPSTR( xBuf.Get() );
break;
}
case DBTYPE_I1 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
LONG l = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( l, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( ( l > SCHAR_MAX ) ||
( l < SCHAR_MIN ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetI1( (CHAR) l, cElements );
else
_pStgVariant->SetI1( (CHAR) l );
break;
}
case DBTYPE_UI1 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
ULONG ul = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( ul, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( ul > UCHAR_MAX )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetUI1( (BYTE) ul, cElements );
else
_pStgVariant->SetUI1( (BYTE) ul );
break;
}
case DBTYPE_I2 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
LONG l = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( l, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( ( l > SHRT_MAX ) ||
( l < SHRT_MIN ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetI2( (short) l, cElements );
else
_pStgVariant->SetI2( (short) l );
break;
}
case DBTYPE_UI2 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
ULONG ul = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( ul, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( ul > USHRT_MAX )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetUI2( (USHORT) ul, cElements );
else
_pStgVariant->SetUI2( (USHORT) ul );
break;
}
case DBTYPE_I4 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
LONG l = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( l, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetI4( l, cElements );
else
_pStgVariant->SetI4( l );
break;
}
case DBTYPE_UI4 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
ULONG ul = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( ul, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetUI4( ul, cElements );
else
_pStgVariant->SetUI4( ul );
break;
}
case DBTYPE_ERROR :
{
// SCODE/HRESULT are typedefed as long (signed)
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
SCODE sc = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( sc, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetERROR( sc, cElements );
else
_pStgVariant->SetERROR( sc );
break;
}
case DBTYPE_I8 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
_int64 ll = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( ll, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
LARGE_INTEGER LargeInt;
LargeInt.QuadPart = ll;
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetI8( LargeInt, cElements );
else
_pStgVariant->SetI8( LargeInt );
break;
}
case DBTYPE_UI8 :
{
CQueryScanner scan( wcsPhrase.GetPointer(), FALSE, locale );
unsigned _int64 ull = 0;
BOOL fAtEndOfString;
if ( ! ( scan.GetNumber( ull, fAtEndOfString ) &&
fAtEndOfString ) )
THROW( CParserException( QPARSE_E_EXPECTING_INTEGER ) );
ULARGE_INTEGER LargeInt;
LargeInt.QuadPart = ull;
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetUI8( LargeInt, cElements );
else
_pStgVariant->SetUI8( LargeInt );
break;
}
case DBTYPE_BOOL :
{
if( wcsPhrase.GetPointer()[0] == 'T' ||
wcsPhrase.GetPointer()[0] == 't' )
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetBOOL( VARIANT_TRUE, cElements );
else
_pStgVariant->SetBOOL( VARIANT_TRUE );
else
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetBOOL( VARIANT_FALSE, cElements );
else
_pStgVariant->SetBOOL( VARIANT_FALSE );
break;
}
case DBTYPE_R4 :
{
WCHAR *pwcEnd = 0;
float Float = (float)( wcstod( wcsPhrase.GetPointer(), &pwcEnd ) );
if( *pwcEnd != 0 && !iswspace( *pwcEnd ) )
THROW( CParserException( QPARSE_E_EXPECTING_REAL ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetR4( Float, cElements );
else
_pStgVariant->SetR4( Float );
break;
}
case DBTYPE_R8 :
{
WCHAR *pwcEnd = 0;
double Double = ( double )( wcstod( wcsPhrase.GetPointer(), &pwcEnd ) );
if( *pwcEnd != 0 && !iswspace( *pwcEnd ) )
THROW( CParserException( QPARSE_E_EXPECTING_REAL ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetR8( Double, cElements );
else
_pStgVariant->SetR8( Double );
break;
}
case DBTYPE_DECIMAL :
{
WCHAR *pwcEnd = 0;
double Double = ( double )( wcstod( wcsPhrase.GetPointer(), &pwcEnd ) );
if( *pwcEnd != 0 && !iswspace( *pwcEnd ) )
THROW( CParserException( QPARSE_E_EXPECTING_REAL ) );
// Vectors are not supported by OLE for VT_DECIMAL (yet)
Win4Assert( 0 == ( PropType & DBTYPE_VECTOR ) );
PROPVARIANT * pPropVar = (PROPVARIANT *) _pStgVariant.GetPointer();
VarDecFromR8( Double, &(pPropVar->decVal) );
pPropVar->vt = VT_DECIMAL;
break;
}
case DBTYPE_DATE :
{
FILETIME ftValue;
ParseDateTime( wcsPhrase.GetPointer(), ftValue );
SYSTEMTIME stValue;
BOOL fOK = FileTimeToSystemTime( &ftValue, &stValue );
if ( !fOK )
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
DATE dosDate;
fOK = SystemTimeToVariantTime( &stValue, &dosDate );
if ( !fOK )
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetDATE( dosDate, cElements );
else
_pStgVariant->SetDATE( dosDate );
break;
}
case VT_FILETIME :
{
FILETIME ftValue;
ParseDateTime( wcsPhrase.GetPointer(), ftValue );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetFILETIME( ftValue, cElements );
else
_pStgVariant->SetFILETIME( ftValue );
break;
}
case DBTYPE_CY :
{
double dbl;
if( swscanf( wcsPhrase.GetPointer(),
L"%lf",
&dbl ) < 1 )
THROW( CParserException( QPARSE_E_EXPECTING_CURRENCY ) );
CY cyCurrency;
VarCyFromR8( dbl, &cyCurrency );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetCY( cyCurrency, cElements );
else
_pStgVariant->SetCY( cyCurrency );
break;
}
case DBTYPE_GUID :
case DBTYPE_GUID | DBTYPE_BYREF:
{
CLSID clsid;
if( swscanf( wcsPhrase.GetPointer(),
L"%08lX-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X",
&clsid.Data1,
&clsid.Data2,
&clsid.Data3,
&clsid.Data4[0], &clsid.Data4[1],
&clsid.Data4[2], &clsid.Data4[3],
&clsid.Data4[4], &clsid.Data4[5],
&clsid.Data4[6], &clsid.Data4[7] ) < 11 )
THROW( CParserException( QPARSE_E_EXPECTING_GUID ) );
if ( PropType & DBTYPE_VECTOR )
_pStgVariant->SetCLSID( clsid, cElements );
else
_pStgVariant->SetCLSID( &clsid );
break;
}
default:
{
THROW( CParserException( QPARSE_E_UNSUPPORTED_PROPERTY_TYPE ) );
}
} // switch
// make sure memory allocations succeeded
if ( !_pStgVariant->IsValid() )
THROW( CException( E_OUTOFMEMORY ) );
if ( fParsingVector )
{
cElements++;
switch( scanner.LookAhead() )
{
case COMMA_TOKEN :
scanner.Accept();
break;
case C_CLOSE_TOKEN :
scanner.Accept();
fFinished = TRUE;
break;
default:
THROW( CParserException( QPARSE_E_EXPECTING_COMMA ) );
}
}
else
{
fFinished = TRUE;
}
} while ( !fFinished );
} //CPropertyValueParser
//+---------------------------------------------------------------------------
//
// Member: CPropertyValueParser::ParseDateTime, private
//
// Synopsis: Attempts to parse a date expression.
//
// Arguments: phrase -- pointer to the phrase to parse
// ft -- reference to the FILETIME structure to fill in
// with the result
//
// History: 31-May-96 dlee Created
// 23-Jan-97 KyleP Better Year 2000 support
// 02-Sep-98 KLam Use user settings for Y2K support
//
//----------------------------------------------------------------------------
void CPropertyValueParser::ParseDateTime(
WCHAR const * phrase,
FILETIME & ft )
{
if( !CheckForRelativeDate( phrase, ft ) )
{
SYSTEMTIME stValue = { 0, 0, 0, 0, 0, 0, 0, 0 };
int cItems = swscanf( phrase,
L"%4hd/%2hd/%2hd %2hd:%2hd:%2hd:%3hd",
&stValue.wYear,
&stValue.wMonth,
&stValue.wDay,
&stValue.wHour,
&stValue.wMinute,
&stValue.wSecond,
&stValue.wMilliseconds );
if ( 1 == cItems )
cItems = swscanf( phrase,
L"%4hd-%2hd-%2hd %2hd:%2hd:%2hd:%3hd",
&stValue.wYear,
&stValue.wMonth,
&stValue.wDay,
&stValue.wHour,
&stValue.wMinute,
&stValue.wSecond,
&stValue.wMilliseconds );
if( cItems != 3 && cItems != 6 && cItems != 7)
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
//
// Make a sensible split for Year 2000 using the user's system settings
//
if ( stValue.wYear < 100 )
{
DWORD dwYearHigh = 0;
if ( 0 == GetCalendarInfo ( _locale,
CAL_GREGORIAN,
CAL_ITWODIGITYEARMAX | CAL_RETURN_NUMBER,
0,
0,
&dwYearHigh ) )
{
THROW ( CException ( ) );
}
if ( ( dwYearHigh < 99 ) || ( dwYearHigh > 9999 ) )
dwYearHigh = 2029;
WORD wMaxDecade = (WORD) dwYearHigh % 100;
WORD wMaxCentury = (WORD) dwYearHigh - wMaxDecade;
if ( stValue.wYear <= wMaxDecade )
stValue.wYear += wMaxCentury;
else
stValue.wYear += ( wMaxCentury - 100 );
}
if( !SystemTimeToFileTime( &stValue, &ft ) )
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
}
} //ParseDateTime
//+---------------------------------------------------------------------------
//
// Member: CPropertyValueParser::CheckForRelativeDate, static
//
// Synopsis: Attempts to parse a relative date expression. If successful,
// it fills in the FILETIME structure with the calculated
// absolute date.
//
// Notes: Returns TRUE if the phrase is recognized as a relative
// date (i.e., it begins with a '-'). Otherwise, returns FALSE.
// The format of a relative date is
// "-"{INTEGER("h"|"n"|"s"|"y"|"q"|"m"|"d"|"w")}*
// Case is not significant.
//
// Arguments: phrase -- pointer to the phrase to parse
// ft -- reference to the FILETIME structure to fill in
// with the result
//
// History: 26-May-94 t-jeffc Created
// 02-Mar-95 t-colinb Moved from CQueryParser to
// be more accessible
// 22-Jan-97 KyleP Fix local/UTC discrepancy
// 25-Sep-98 sundarA Removed dependency on 'c' runtime
// functions for time.
//----------------------------------------------------------------------------
BOOL CPropertyValueParser::CheckForRelativeDate(
WCHAR const * phrase,
FILETIME & ft )
{
if( *phrase++ == L'-' )
{
SYSTEMTIME st;
LARGE_INTEGER liLocal;
LONGLONG llTicksInADay = ((LONGLONG)10000000) * ((LONGLONG)3600)
* ((LONGLONG) 24);
LONGLONG llTicksInAHour = ((LONGLONG) 10000000) * ((LONGLONG)3600);
int iMonthDays[12] = {1,-1,1,0,1,0,1,1,0,1,0,1};
int iLoopValue, iPrevMonth, iPrevQuarter, iQuarterOffset;
WORD wYear, wDayOfMonth, wStartDate;
//
//Obtain system time and convert it to file time
//Copy the filetime to largeint data struct
//
GetSystemTime(&st);
if(!SystemTimeToFileTime(&st, &ft))
THROW( CParserException( QPARSE_E_INVALID_LITERAL ));
liLocal.LowPart = ft.dwLowDateTime;
liLocal.HighPart = ft.dwHighDateTime;
LONGLONG llRelDate = (LONGLONG)0;
for( ;; )
{
// eat white space
while( iswspace( *phrase ) )
phrase++;
if( *phrase == 0 ) break;
// parse the number
WCHAR * pwcEnd;
LONG lValue = wcstol( phrase, &pwcEnd, 10 );
if( lValue < 0 )
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
// eat white space
phrase = pwcEnd;
while( iswspace( *phrase ) )
phrase++;
// grab the unit char & subtract the appropriate amount
WCHAR wcUnit = *phrase++;
switch( wcUnit )
{
case L'y':
case L'Y':
lValue *= 4;
// Fall through and handle year like 4 quarters
case L'q':
case L'Q':
lValue *= 3;
// Fall through and handle quarters like 3 months
case L'm':
case L'M':
// Getting the System time to determine the day and month.
if(!FileTimeToSystemTime(&ft, &st))
{
THROW(CParserException(QPARSE_E_INVALID_LITERAL));
}
wStartDate = st.wDay;
wDayOfMonth = st.wDay;
iLoopValue = lValue;
while(iLoopValue)
{
// Subtracting to the end of previous month
llRelDate = llTicksInADay * ((LONGLONG)(wDayOfMonth));
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
SYSTEMTIME stTemp;
if(!FileTimeToSystemTime(&ft, &stTemp))
{
THROW(CParserException(QPARSE_E_INVALID_LITERAL));
}
//
// if the end of previous month is greated then start date then we subtract to back up to the
// start date. This will take care of 28/29 Feb(backing from 30/31 by 1 month).
//
if(stTemp.wDay > wStartDate)
{
llRelDate = llTicksInADay * ((LONGLONG)(stTemp.wDay - wStartDate));
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
// Getting the date into stTemp for further iteration
if(!FileTimeToSystemTime(&ft, &stTemp))
{
THROW( CParserException( QPARSE_E_INVALID_LITERAL ));
}
}
wDayOfMonth = stTemp.wDay;
iLoopValue--;
} //End While
break;
case L'w':
case L'W':
lValue *= 7;
case L'd':
case L'D':
llRelDate = llTicksInADay * ((LONGLONG)lValue) ;
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
break;
case L'h':
case L'H':
llRelDate = llTicksInAHour * ((LONGLONG)lValue) ;
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
break;
case L'n':
case L'N':
llRelDate = ((LONGLONG)10000000) * ((LONGLONG)60)
* ((LONGLONG)lValue) ;
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
break;
case L's':
case L'S':
llRelDate = ((LONGLONG)10000000) * ((LONGLONG)lValue);
liLocal.QuadPart -= llRelDate;
ft.dwLowDateTime = liLocal.LowPart;
ft.dwHighDateTime = liLocal.HighPart;
break;
default:
THROW( CParserException( QPARSE_E_EXPECTING_DATE ) );
}
} // for( ;; )
FileTimeToSystemTime(&ft, &st);
liLocal.LowPart = ft.dwLowDateTime;
liLocal.HighPart = ft.dwHighDateTime;
qutilDebugOut(( DEB_ERROR,
"Low part : %d ; High part ; %d \n",
liLocal.LowPart, liLocal.HighPart ));
qutilDebugOut(( DEB_ERROR,
"64 bit number %I64d \n",
liLocal.QuadPart ));
qutilDebugOut(( DEB_ERROR,
"st.Year %d ; month %d ; day %d ; hour %d ; min %d ; sec %d ; msec %d \n",
st.wYear, st.wMonth, st.wDay, st.wHour, st.wMinute, st.wSecond, st.wMilliseconds));
return TRUE;
}
else
{
return FALSE;
}
} //CheckForRelativeDate