public XmlObject changeType(SchemaType newType) { return underlyingXmlObject().changeType(newType); }
private Map<String, GerResourceRefType> mapResourceRefs(XmlObject[] refs) { Map<String, GerResourceRefType> refMap = new HashMap<String, GerResourceRefType>(); if (refs != null) { for (XmlObject ref1 : refs) { GerResourceRefType ref = (GerResourceRefType) ref1.copy().changeType(GerResourceRefType.type); refMap.put(ref.getRefName().trim(), ref); } } return refMap; }
private static Map<String, GerResourceEnvRefType> mapResourceEnvRefs(XmlObject[] refs) { Map<String, GerResourceEnvRefType> refMap = new HashMap<String, GerResourceEnvRefType>(); if (refs != null) { for (XmlObject ref1 : refs) { GerResourceEnvRefType ref = (GerResourceEnvRefType) ref1.copy().changeType(GerResourceEnvRefType.type); refMap.put(ref.getRefName().trim(), ref); } } return refMap; }
private static Map<String, GerResourceEnvRefType> mapResourceEnvRefs(XmlObject[] refs) { Map<String, GerResourceEnvRefType> refMap = new HashMap<String, GerResourceEnvRefType>(); if (refs != null) { for (XmlObject ref1 : refs) { GerResourceEnvRefType ref = (GerResourceEnvRefType) ref1.copy().changeType(GerResourceEnvRefType.type); refMap.put(getJndiName(ref.getRefName().trim()), ref); } } return refMap; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_AllSelectionItem.buildXmlTree()" ) ; AllSelectionItemType allSelection = (AllSelectionItemType)xo.changeType( AllSelectionItemType.type ) ; setGeneratedObject( allSelection ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_AllSelectionItem.buildXmlTree()" ) ; }
public static XmlObject typedCopy(XmlObject in, SchemaType type) throws XmlException { XmlObject out = in.copy().changeType(type); validateDD(out); return out; }
private Map<String, String> mapEnvEntries(XmlObject[] refs) { Map<String, String> envEntryMap = new HashMap<String, String>(); if (refs != null) { for (XmlObject ref1 : refs) { GerEnvEntryType ref = (GerEnvEntryType) ref1.copy().changeType(GerEnvEntryType.type); envEntryMap.put(getJndiName(ref.getEnvEntryName().trim()), ref.getEnvEntryValue()); } } return envEntryMap; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_OrderingSpecification.buildXmlTree()" ) ; OrderOptionType optionType = (OrderOptionType)xo.changeType( OrderOptionType.type ) ; OrderDirectionType.Enum direction = OrderDirectionType.Enum.forString( firstToken.image.toUpperCase() ) ; optionType.setDirection( direction ) ; setGeneratedObject( optionType ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_OrderingSpecification.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { // if( log.isTraceEnabled() ) enterTrace( log, "AST_JoinCondition.buildXmlTree()" ) ; JoinSpecType jst = (JoinSpecType)xo.changeType( JoinSpecType.type ) ; children[0].buildXmlTree( jst ) ; setGeneratedObject( children[0].getGeneratedObject() ) ; // if( log.isTraceEnabled() ) exitTrace( log, "AST_JoinCondition.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_Having.buildXmlTree()" ) ; HavingType havingType = (HavingType)xo.changeType( HavingType.type ) ; this.generatedObject = havingType ; children[0].buildXmlTree( havingType.addNewCondition() ) ; super.buildXmlTree( havingType ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_Having.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_ExistsPredicate.buildXmlTree()" ) ; ExistsPredType epType = (ExistsPredType)xo.changeType( ExistsPredType.type ) ; children[0].buildXmlTree( epType.addNewSubQuery() ) ; this.generatedObject = epType ; super.buildXmlTree(xo) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_ExistsPredicate.buildXmlTree()" ) ; }
public void buildXmlTree(XmlObject xo) { if( log.isTraceEnabled() ) enterTrace( log, "AST_CharacterStringLiteral.buildXmlTree()" ) ; AtomType at = (AtomType)xo.changeType( AtomType.type ) ; children[0].buildXmlTree( at.addNewLiteral() ) ; if( log.isDebugEnabled() ) { log.debug( "at.getLiteral(): " + at.getLiteral() ) ; } this.setGeneratedObject( at ) ; super.buildXmlTree(at) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_CharacterStringLiteral.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_NamedColumnsJoin.buildXmlTree()" ) ; NamedColumnsJoinType ncjType = (NamedColumnsJoinType)xo.changeType( NamedColumnsJoinType.type ) ; children[0].buildXmlTree( ncjType.addNewColumnList() ) ; this.generatedObject = ncjType ; super.buildXmlTree(xo) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_NamedColumnsJoin.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { AtomType atomType = (AtomType)xo.changeType( AtomType.type ) ; RealType realType = RealType.Factory.newInstance() ; realType.setValue( new Double( getFirstToken().image ).doubleValue() ) ; atomType.setLiteral( realType ) ; this.generatedObject = atomType ; super.buildXmlTree( atomType ) ; }
public void buildXmlTree(XmlObject xo) { if( log.isTraceEnabled() ) enterTrace( log, "AST_CharacterStringLiteral.buildXmlTree()" ) ; AtomType at = (AtomType)xo.changeType( AtomType.type ) ; children[0].buildXmlTree( at.addNewLiteral() ) ; if( log.isDebugEnabled() ) { log.debug( "at.getLiteral(): " + at.getLiteral() ) ; } this.setGeneratedObject( at ) ; super.buildXmlTree(at) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_CharacterStringLiteral.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_Having.buildXmlTree()" ) ; HavingType havingType = (HavingType)xo.changeType( HavingType.type ) ; this.generatedObject = havingType ; children[0].buildXmlTree( havingType.addNewCondition() ) ; super.buildXmlTree( havingType ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_Having.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { AtomType atomType = (AtomType)xo.changeType( AtomType.type ) ; RealType realType = RealType.Factory.newInstance() ; realType.setValue( new Double( getFirstToken().image ).doubleValue() * sign ) ; atomType.setLiteral( realType ) ; this.generatedObject = atomType ; super.buildXmlTree( atomType ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_VariableSpec.buildXmlTree()" ) ; VariableSpecType vst = (VariableSpecType)xo.changeType( VariableSpecType.type ) ; LiteralType lt = vst.addNewVariable().addNewLiteral() ; StringType st = (StringType)lt.changeType(StringType.type) ; st.setValue( variableName ) ; this.generatedObject = st ; super.buildXmlTree( st ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_VariableSpec.buildXmlTree()" ) ; } }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_SortSpecificationList.buildXmlTree()" ) ; OrderExpressionType oeType = (OrderExpressionType)xo.changeType( OrderExpressionType.type ) ; int childCount = jjtGetNumChildren() ; for( int i=0; i<childCount; i++ ) { children[i].buildXmlTree( oeType.addNewItem() ) ; } setGeneratedObject( oeType ) ; super.buildXmlTree( oeType ) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_SortSpecificationList.buildXmlTree()" ) ; }
public void buildXmlTree( XmlObject xo ) { if( log.isTraceEnabled() ) enterTrace( log, "AST_ComparisonPredicate.buildXmlTree()" ) ; ComparisonPredType cpType = (ComparisonPredType)xo.changeType( ComparisonPredType.type ) ; children[0].buildXmlTree( cpType.addNewArg() ) ; children[2].buildXmlTree( cpType.addNewArg() ) ; children[1].buildXmlTree( ComparisonType.Factory.newInstance() ) ; ComparisonType comp = (ComparisonType)children[1].getGeneratedObject() ; cpType.xsetComparison( comp ) ; this.generatedObject = cpType ; super.buildXmlTree(xo) ; if( log.isTraceEnabled() ) exitTrace( log, "AST_ComparisonPredicate.buildXmlTree()" ) ; }