Split (3)

train · 12.9k rows

text stringlengths 30 1.67M
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . EObjectResolvingEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . eclipse . xtext . common . types . JvmType ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . PojoPropertyModifier ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoPropertyImpl extends MinimalEObjectImpl . Container implements PojoProperty { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String NATIVE_EDEFAULT = null ; protected String native_ = NATIVE_EDEFAULT ; protected EList < PojoProperty > attrs ; protected PojoEntity ref ; protected JvmType type ; protected PojoEntity gref ; protected JvmType gtype ; protected static final boolean ARRAY_EDEFAULT = false ; protected boolean array = ARRAY_EDEFAULT ; protected EList < PojoPropertyModifier > modifiers ; protected PojoPropertyImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_PROPERTY ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__NAME , oldName , name ) ) ; } public String getNative ( ) { return native_ ; } public void setNative ( String newNative ) { String oldNative = native_ ; native_ = newNative ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__NATIVE , oldNative , native_ ) ) ; } public EList < PojoProperty > getAttrs ( ) { if ( attrs == null ) { attrs = new EObjectResolvingEList < PojoProperty > ( PojoProperty . class , this , ProcessorDslPackage . POJO_PROPERTY__ATTRS ) ; } return attrs ; } public PojoEntity getRef ( ) { if ( ref != null && ref . eIsProxy ( ) ) { InternalEObject oldRef = ( InternalEObject ) ref ; ref = ( PojoEntity ) eResolveProxy ( oldRef ) ; if ( ref != oldRef ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_PROPERTY__REF , oldRef , ref ) ) ; } } return ref ; } public PojoEntity basicGetRef ( ) { return ref ; } public void setRef ( PojoEntity newRef ) { PojoEntity oldRef = ref ; ref = newRef ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__REF , oldRef , ref ) ) ; } public JvmType getType ( ) { if ( type != null && type . eIsProxy ( ) ) { InternalEObject oldType = ( InternalEObject ) type ; type = ( JvmType ) eResolveProxy ( oldType ) ; if ( type != oldType ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_PROPERTY__TYPE , oldType , type ) ) ; } } return type ; } public JvmType basicGetType ( ) { return type ; } public void setType ( JvmType newType ) { JvmType oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__TYPE , oldType , type ) ) ; } public PojoEntity getGref ( ) { if ( gref != null && gref . eIsProxy ( ) ) { InternalEObject oldGref = ( InternalEObject ) gref ; gref = ( PojoEntity ) eResolveProxy ( oldGref ) ; if ( gref != oldGref ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_PROPERTY__GREF , oldGref , gref ) ) ; } } return gref ; } public PojoEntity basicGetGref ( ) { return gref ; } public void setGref ( PojoEntity newGref ) { PojoEntity oldGref = gref ; gref = newGref ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__GREF , oldGref , gref ) ) ; } public JvmType getGtype ( ) { if ( gtype != null && gtype . eIsProxy ( ) ) { InternalEObject oldGtype = ( InternalEObject ) gtype ; gtype = ( JvmType ) eResolveProxy ( oldGtype ) ; if ( gtype != oldGtype ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_PROPERTY__GTYPE , oldGtype , gtype ) ) ; } } return gtype ; } public JvmType basicGetGtype ( ) { return gtype ; } public void setGtype ( JvmType newGtype ) { JvmType oldGtype = gtype ; gtype = newGtype ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__GTYPE , oldGtype , gtype ) ) ; } public boolean isArray ( ) { return array ; } public void setArray ( boolean newArray ) { boolean oldArray = array ; array = newArray ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_PROPERTY__ARRAY , oldArray , array ) ) ; } public EList < PojoPropertyModifier > getModifiers ( ) { if ( modifiers == null ) { modifiers = new EObjectContainmentEList < PojoPropertyModifier > ( PojoPropertyModifier . class , this , ProcessorDslPackage . POJO_PROPERTY__MODIFIERS ) ; } return modifiers ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . POJO_PROPERTY__MODIFIERS : return ( ( InternalEList < ? > ) getModifiers ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_PROPERTY__NAME : return getName ( ) ; case ProcessorDslPackage . POJO_PROPERTY__NATIVE : return getNative ( ) ; case ProcessorDslPackage . POJO_PROPERTY__ATTRS : return getAttrs ( ) ; case ProcessorDslPackage . POJO_PROPERTY__REF : if ( resolve ) return getRef ( ) ; return basicGetRef ( ) ; case ProcessorDslPackage . POJO_PROPERTY__TYPE : if ( resolve ) return getType ( ) ; return basicGetType ( ) ; case ProcessorDslPackage . POJO_PROPERTY__GREF : if ( resolve ) return getGref ( ) ; return basicGetGref ( ) ; case ProcessorDslPackage . POJO_PROPERTY__GTYPE : if ( resolve ) return getGtype ( ) ; return basicGetGtype ( ) ; case ProcessorDslPackage . POJO_PROPERTY__ARRAY : return isArray ( ) ; case ProcessorDslPackage . POJO_PROPERTY__MODIFIERS : return getModifiers ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_PROPERTY__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__NATIVE : setNative ( ( String ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__ATTRS : getAttrs ( ) . clear ( ) ; getAttrs ( ) . addAll ( ( Collection < ? extends PojoProperty > ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__REF : setRef ( ( PojoEntity ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__TYPE : setType ( ( JvmType ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__GREF : setGref ( ( PojoEntity ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__GTYPE : setGtype ( ( JvmType ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__ARRAY : setArray ( ( Boolean ) newValue ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__MODIFIERS : getModifiers ( ) . clear ( ) ; getModifiers ( ) . addAll ( ( Collection < ? extends PojoPropertyModifier > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_PROPERTY__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__NATIVE : setNative ( NATIVE_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__ATTRS : getAttrs ( ) . clear ( ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__REF : setRef ( ( PojoEntity ) null ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__TYPE : setType ( ( JvmType ) null ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__GREF : setGref ( ( PojoEntity ) null ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__GTYPE : setGtype ( ( JvmType ) null ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__ARRAY : setArray ( ARRAY_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_PROPERTY__MODIFIERS : getModifiers ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_PROPERTY__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . POJO_PROPERTY__NATIVE : return NATIVE_EDEFAULT == null ? native_ != null : ! NATIVE_EDEFAULT . equals ( native_ ) ; case ProcessorDslPackage . POJO_PROPERTY__ATTRS : return attrs != null && ! attrs . isEmpty ( ) ; case ProcessorDslPackage . POJO_PROPERTY__REF : return ref != null ; case ProcessorDslPackage . POJO_PROPERTY__TYPE : return type != null ; case ProcessorDslPackage . POJO_PROPERTY__GREF : return gref != null ; case ProcessorDslPackage . POJO_PROPERTY__GTYPE : return gtype != null ; case ProcessorDslPackage . POJO_PROPERTY__ARRAY : return array != ARRAY_EDEFAULT ; case ProcessorDslPackage . POJO_PROPERTY__MODIFIERS : return modifiers != null && ! modifiers . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( native_ ) ; result . append ( "<STR_LIT>" ) ; result . append ( array ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . ecore . EAttribute ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . EPackage ; import org . eclipse . emf . ecore . EReference ; import org . eclipse . emf . ecore . impl . EPackageImpl ; import org . eclipse . xtext . common . types . TypesPackage ; import org . sqlproc . dsl . processorDsl . AbstractPojoEntity ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . ColumnAssignement ; import org . sqlproc . dsl . processorDsl . ColumnTypeAssignement ; import org . sqlproc . dsl . processorDsl . ColumnUsage ; import org . sqlproc . dsl . processorDsl . ColumnUsageExt ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . ConstantUsage ; import org . sqlproc . dsl . processorDsl . ConstantUsageExt ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . DatabaseProperty ; import org . sqlproc . dsl . processorDsl . DatabaseTable ; import org . sqlproc . dsl . processorDsl . ExportAssignement ; import org . sqlproc . dsl . processorDsl . Extends ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . IdentifierUsage ; import org . sqlproc . dsl . processorDsl . IdentifierUsageExt ; import org . sqlproc . dsl . processorDsl . IfMetaSql ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlBool ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . IfSqlFragment ; import org . sqlproc . dsl . processorDsl . Implements ; import org . sqlproc . dsl . processorDsl . Import ; import org . sqlproc . dsl . processorDsl . ImportAssignement ; import org . sqlproc . dsl . processorDsl . InheritanceAssignement ; import org . sqlproc . dsl . processorDsl . JoinTableAssignement ; import org . sqlproc . dsl . processorDsl . ManyToManyAssignement ; import org . sqlproc . dsl . processorDsl . Mapping ; import org . sqlproc . dsl . processorDsl . MappingColumn ; import org . sqlproc . dsl . processorDsl . MappingItem ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MappingUsage ; import org . sqlproc . dsl . processorDsl . MappingUsageExt ; import org . sqlproc . dsl . processorDsl . MetaSql ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . OptionalFeature ; import org . sqlproc . dsl . processorDsl . OrdSql ; import org . sqlproc . dsl . processorDsl . OrdSql2 ; import org . sqlproc . dsl . processorDsl . PackageDeclaration ; import org . sqlproc . dsl . processorDsl . PojoDefinition ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier1 ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier2 ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . PojoPropertyModifier ; import org . sqlproc . dsl . processorDsl . PojoType ; import org . sqlproc . dsl . processorDsl . PojoUsage ; import org . sqlproc . dsl . processorDsl . PojoUsageExt ; import org . sqlproc . dsl . processorDsl . PojogenProperty ; import org . sqlproc . dsl . processorDsl . ProcessorDslFactory ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . Property ; import org . sqlproc . dsl . processorDsl . ShowColumnTypeAssignement ; import org . sqlproc . dsl . processorDsl . Sql ; import org . sqlproc . dsl . processorDsl . SqlFragment ; import org . sqlproc . dsl . processorDsl . SqlTypeAssignement ; import org . sqlproc . dsl . processorDsl . TableAssignement ; import org . sqlproc . dsl . processorDsl . TableDefinition ; import org . sqlproc . dsl . processorDsl . TableUsage ; public class ProcessorDslPackageImpl extends EPackageImpl implements ProcessorDslPackage { private EClass artifactsEClass = null ; private EClass sqlTypeAssignementEClass = null ; private EClass columnTypeAssignementEClass = null ; private EClass showColumnTypeAssignementEClass = null ; private EClass tableAssignementEClass = null ; private EClass joinTableAssignementEClass = null ; private EClass columnAssignementEClass = null ; private EClass importAssignementEClass = null ; private EClass exportAssignementEClass = null ; private EClass inheritanceAssignementEClass = null ; private EClass manyToManyAssignementEClass = null ; private EClass propertyEClass = null ; private EClass databasePropertyEClass = null ; private EClass pojogenPropertyEClass = null ; private EClass pojoDefinitionEClass = null ; private EClass pojoUsageEClass = null ; private EClass columnUsageEClass = null ; private EClass identifierUsageEClass = null ; private EClass constantUsageEClass = null ; private EClass mappingUsageEClass = null ; private EClass pojoUsageExtEClass = null ; private EClass columnUsageExtEClass = null ; private EClass identifierUsageExtEClass = null ; private EClass constantUsageExtEClass = null ; private EClass mappingUsageExtEClass = null ; private EClass tableDefinitionEClass = null ; private EClass tableUsageEClass = null ; private EClass metaStatementEClass = null ; private EClass sqlEClass = null ; private EClass sqlFragmentEClass = null ; private EClass metaSqlEClass = null ; private EClass ifSqlEClass = null ; private EClass ifSqlFragmentEClass = null ; private EClass ifMetaSqlEClass = null ; private EClass ifSqlCondEClass = null ; private EClass ifSqlBoolEClass = null ; private EClass ordSqlEClass = null ; private EClass ordSql2EClass = null ; private EClass columnEClass = null ; private EClass constantEClass = null ; private EClass identifierEClass = null ; private EClass databaseColumnEClass = null ; private EClass databaseTableEClass = null ; private EClass mappingRuleEClass = null ; private EClass mappingEClass = null ; private EClass mappingItemEClass = null ; private EClass mappingColumnEClass = null ; private EClass optionalFeatureEClass = null ; private EClass pojoTypeEClass = null ; private EClass packageDeclarationEClass = null ; private EClass abstractPojoEntityEClass = null ; private EClass importEClass = null ; private EClass implementsEClass = null ; private EClass extendsEClass = null ; private EClass pojoEntityModifier1EClass = null ; private EClass pojoEntityModifier2EClass = null ; private EClass pojoEntityEClass = null ; private EClass pojoPropertyModifierEClass = null ; private EClass pojoPropertyEClass = null ; private ProcessorDslPackageImpl ( ) { super ( eNS_URI , ProcessorDslFactory . eINSTANCE ) ; } private static boolean isInited = false ; public static ProcessorDslPackage init ( ) { if ( isInited ) return ( ProcessorDslPackage ) EPackage . Registry . INSTANCE . getEPackage ( ProcessorDslPackage . eNS_URI ) ; ProcessorDslPackageImpl theProcessorDslPackage = ( ProcessorDslPackageImpl ) ( EPackage . Registry . INSTANCE . get ( eNS_URI ) instanceof ProcessorDslPackageImpl ? EPackage . Registry . INSTANCE . get ( eNS_URI ) : new ProcessorDslPackageImpl ( ) ) ; isInited = true ; TypesPackage . eINSTANCE . eClass ( ) ; theProcessorDslPackage . createPackageContents ( ) ; theProcessorDslPackage . initializePackageContents ( ) ; theProcessorDslPackage . freeze ( ) ; EPackage . Registry . INSTANCE . put ( ProcessorDslPackage . eNS_URI , theProcessorDslPackage ) ; return theProcessorDslPackage ; } public EClass getArtifacts ( ) { return artifactsEClass ; } public EReference getArtifacts_Features ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getArtifacts_Statements ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getArtifacts_Mappings ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getArtifacts_Pojos ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getArtifacts_Usages ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EReference getArtifacts_Properties ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EReference getArtifacts_Tables ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:6> ) ; } public EReference getArtifacts_TableUsages ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:7> ) ; } public EReference getArtifacts_PojoPackages ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:8> ) ; } public EReference getArtifacts_UsagesExt ( ) { return ( EReference ) artifactsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:9> ) ; } public EClass getSqlTypeAssignement ( ) { return sqlTypeAssignementEClass ; } public EAttribute getSqlTypeAssignement_TypeName ( ) { return ( EAttribute ) sqlTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getSqlTypeAssignement_Size ( ) { return ( EAttribute ) sqlTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getSqlTypeAssignement_Type ( ) { return ( EReference ) sqlTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getColumnTypeAssignement ( ) { return columnTypeAssignementEClass ; } public EAttribute getColumnTypeAssignement_DbColumn ( ) { return ( EAttribute ) columnTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getColumnTypeAssignement_Type ( ) { return ( EReference ) columnTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getShowColumnTypeAssignement ( ) { return showColumnTypeAssignementEClass ; } public EAttribute getShowColumnTypeAssignement_DbColumn ( ) { return ( EAttribute ) showColumnTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getShowColumnTypeAssignement_Type ( ) { return ( EAttribute ) showColumnTypeAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getTableAssignement ( ) { return tableAssignementEClass ; } public EAttribute getTableAssignement_DbTable ( ) { return ( EAttribute ) tableAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getTableAssignement_NewName ( ) { return ( EAttribute ) tableAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getJoinTableAssignement ( ) { return joinTableAssignementEClass ; } public EAttribute getJoinTableAssignement_DbTable ( ) { return ( EAttribute ) joinTableAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getJoinTableAssignement_DbTables ( ) { return ( EAttribute ) joinTableAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getColumnAssignement ( ) { return columnAssignementEClass ; } public EAttribute getColumnAssignement_DbColumn ( ) { return ( EAttribute ) columnAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getColumnAssignement_NewName ( ) { return ( EAttribute ) columnAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getImportAssignement ( ) { return importAssignementEClass ; } public EAttribute getImportAssignement_DbColumn ( ) { return ( EAttribute ) importAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getImportAssignement_PkTable ( ) { return ( EAttribute ) importAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getImportAssignement_PkColumn ( ) { return ( EAttribute ) importAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getExportAssignement ( ) { return exportAssignementEClass ; } public EAttribute getExportAssignement_DbColumn ( ) { return ( EAttribute ) exportAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getExportAssignement_FkTable ( ) { return ( EAttribute ) exportAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getExportAssignement_FkColumn ( ) { return ( EAttribute ) exportAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getInheritanceAssignement ( ) { return inheritanceAssignementEClass ; } public EAttribute getInheritanceAssignement_Discriminator ( ) { return ( EAttribute ) inheritanceAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getInheritanceAssignement_DbTable ( ) { return ( EAttribute ) inheritanceAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getInheritanceAssignement_DbColumns ( ) { return ( EAttribute ) inheritanceAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getManyToManyAssignement ( ) { return manyToManyAssignementEClass ; } public EAttribute getManyToManyAssignement_PkColumn ( ) { return ( EAttribute ) manyToManyAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getManyToManyAssignement_PkTable ( ) { return ( EAttribute ) manyToManyAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getManyToManyAssignement_FkColumn ( ) { return ( EAttribute ) manyToManyAssignementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getProperty ( ) { return propertyEClass ; } public EAttribute getProperty_Name ( ) { return ( EAttribute ) propertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getProperty_Database ( ) { return ( EReference ) propertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getProperty_Pojogen ( ) { return ( EReference ) propertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getDatabaseProperty ( ) { return databasePropertyEClass ; } public EAttribute getDatabaseProperty_Name ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getDatabaseProperty_DbUrl ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getDatabaseProperty_DbUsername ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EAttribute getDatabaseProperty_DbPassword ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EAttribute getDatabaseProperty_DbSchema ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EAttribute getDatabaseProperty_DbDriver ( ) { return ( EAttribute ) databasePropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EClass getPojogenProperty ( ) { return pojogenPropertyEClass ; } public EAttribute getPojogenProperty_Name ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getPojogenProperty_SqlTypes ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getPojogenProperty_DbTable ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getPojogenProperty_ColumnTypes ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getPojogenProperty_ColumnType ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EAttribute getPojogenProperty_DbTables ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EReference getPojogenProperty_JoinTables ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:6> ) ; } public EAttribute getPojogenProperty_DbColumns ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:7> ) ; } public EReference getPojogenProperty_Tables ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:8> ) ; } public EReference getPojogenProperty_Columns ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:9> ) ; } public EReference getPojogenProperty_Exports ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:10> ) ; } public EReference getPojogenProperty_Imports ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:11> ) ; } public EReference getPojogenProperty_Many2s ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:12> ) ; } public EAttribute getPojogenProperty_DbColumn ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT> ) ; } public EReference getPojogenProperty_Inheritance ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT> ) ; } public EAttribute getPojogenProperty_Methods ( ) { return ( EAttribute ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:15> ) ; } public EReference getPojogenProperty_ToImplements ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:16> ) ; } public EReference getPojogenProperty_ToExtends ( ) { return ( EReference ) pojogenPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT> ) ; } public EClass getPojoDefinition ( ) { return pojoDefinitionEClass ; } public EAttribute getPojoDefinition_Name ( ) { return ( EAttribute ) pojoDefinitionEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoDefinition_Class ( ) { return ( EAttribute ) pojoDefinitionEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getPojoUsage ( ) { return pojoUsageEClass ; } public EReference getPojoUsage_Pojo ( ) { return ( EReference ) pojoUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getColumnUsage ( ) { return columnUsageEClass ; } public EReference getColumnUsage_Statement ( ) { return ( EReference ) columnUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getIdentifierUsage ( ) { return identifierUsageEClass ; } public EReference getIdentifierUsage_Statement ( ) { return ( EReference ) identifierUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getConstantUsage ( ) { return constantUsageEClass ; } public EReference getConstantUsage_Statement ( ) { return ( EReference ) constantUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getMappingUsage ( ) { return mappingUsageEClass ; } public EReference getMappingUsage_Statement ( ) { return ( EReference ) mappingUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getPojoUsageExt ( ) { return pojoUsageExtEClass ; } public EReference getPojoUsageExt_Pojo ( ) { return ( EReference ) pojoUsageExtEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getColumnUsageExt ( ) { return columnUsageExtEClass ; } public EReference getColumnUsageExt_Statement ( ) { return ( EReference ) columnUsageExtEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getIdentifierUsageExt ( ) { return identifierUsageExtEClass ; } public EReference getIdentifierUsageExt_Statement ( ) { return ( EReference ) identifierUsageExtEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getConstantUsageExt ( ) { return constantUsageExtEClass ; } public EReference getConstantUsageExt_Statement ( ) { return ( EReference ) constantUsageExtEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getMappingUsageExt ( ) { return mappingUsageExtEClass ; } public EReference getMappingUsageExt_Statement ( ) { return ( EReference ) mappingUsageExtEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getTableDefinition ( ) { return tableDefinitionEClass ; } public EAttribute getTableDefinition_Name ( ) { return ( EAttribute ) tableDefinitionEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getTableDefinition_Table ( ) { return ( EAttribute ) tableDefinitionEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getTableUsage ( ) { return tableUsageEClass ; } public EReference getTableUsage_Statement ( ) { return ( EReference ) tableUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getTableUsage_Table ( ) { return ( EReference ) tableUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getTableUsage_Prefix ( ) { return ( EAttribute ) tableUsageEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getMetaStatement ( ) { return metaStatementEClass ; } public EAttribute getMetaStatement_Name ( ) { return ( EAttribute ) metaStatementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getMetaStatement_Type ( ) { return ( EAttribute ) metaStatementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getMetaStatement_Filters ( ) { return ( EAttribute ) metaStatementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getMetaStatement_Statement ( ) { return ( EReference ) metaStatementEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getSql ( ) { return sqlEClass ; } public EReference getSql_Sqls ( ) { return ( EReference ) sqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getSqlFragment ( ) { return sqlFragmentEClass ; } public EAttribute getSqlFragment_Value ( ) { return ( EAttribute ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getSqlFragment_Col ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getSqlFragment_Cnst ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getSqlFragment_Ident ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getSqlFragment_Meta ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EReference getSqlFragment_Dbtab ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EReference getSqlFragment_Dbcol ( ) { return ( EReference ) sqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:6> ) ; } public EClass getMetaSql ( ) { return metaSqlEClass ; } public EReference getMetaSql_Ifs ( ) { return ( EReference ) metaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getMetaSql_Type ( ) { return ( EAttribute ) metaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getMetaSql_Cond ( ) { return ( EReference ) metaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EAttribute getMetaSql_Ftype ( ) { return ( EAttribute ) metaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getMetaSql_Ord ( ) { return ( EReference ) metaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EClass getIfSql ( ) { return ifSqlEClass ; } public EReference getIfSql_Sqls ( ) { return ( EReference ) ifSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getIfSqlFragment ( ) { return ifSqlFragmentEClass ; } public EAttribute getIfSqlFragment_Value ( ) { return ( EAttribute ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getIfSqlFragment_Col ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getIfSqlFragment_Cnst ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getIfSqlFragment_Ident ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getIfSqlFragment_Dbtab ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EReference getIfSqlFragment_Dbcol ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EReference getIfSqlFragment_Meta ( ) { return ( EReference ) ifSqlFragmentEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:6> ) ; } public EClass getIfMetaSql ( ) { return ifMetaSqlEClass ; } public EReference getIfMetaSql_Ifs ( ) { return ( EReference ) ifMetaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getIfMetaSql_Type ( ) { return ( EAttribute ) ifMetaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getIfMetaSql_Cond ( ) { return ( EReference ) ifMetaSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getIfSqlCond ( ) { return ifSqlCondEClass ; } public EReference getIfSqlCond_Bool1 ( ) { return ( EReference ) ifSqlCondEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getIfSqlCond_Oper ( ) { return ( EAttribute ) ifSqlCondEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getIfSqlCond_Bool2 ( ) { return ( EReference ) ifSqlCondEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getIfSqlBool ( ) { return ifSqlBoolEClass ; } public EAttribute getIfSqlBool_Not ( ) { return ( EAttribute ) ifSqlBoolEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getIfSqlBool_Cnst ( ) { return ( EReference ) ifSqlBoolEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getIfSqlBool_Ident ( ) { return ( EReference ) ifSqlBoolEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getIfSqlBool_Cond ( ) { return ( EReference ) ifSqlBoolEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getOrdSql ( ) { return ordSqlEClass ; } public EReference getOrdSql_Sqls ( ) { return ( EReference ) ordSqlEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getOrdSql2 ( ) { return ordSql2EClass ; } public EAttribute getOrdSql2_Value ( ) { return ( EAttribute ) ordSql2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getOrdSql2_Cnst ( ) { return ( EReference ) ordSql2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getOrdSql2_Ident ( ) { return ( EReference ) ordSql2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getOrdSql2_Dbcol ( ) { return ( EReference ) ordSql2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getColumn ( ) { return columnEClass ; } public EAttribute getColumn_Name ( ) { return ( EAttribute ) columnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getColumn_Type ( ) { return ( EAttribute ) columnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getColumn_Vals ( ) { return ( EAttribute ) columnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getConstant ( ) { return constantEClass ; } public EAttribute getConstant_Case ( ) { return ( EAttribute ) constantEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getConstant_Name ( ) { return ( EAttribute ) constantEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getConstant_Type ( ) { return ( EAttribute ) constantEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EAttribute getConstant_Vals ( ) { return ( EAttribute ) constantEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getIdentifier ( ) { return identifierEClass ; } public EAttribute getIdentifier_Mode ( ) { return ( EAttribute ) identifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getIdentifier_Case ( ) { return ( EAttribute ) identifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getIdentifier_Name ( ) { return ( EAttribute ) identifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EAttribute getIdentifier_Type ( ) { return ( EAttribute ) identifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EAttribute getIdentifier_Vals ( ) { return ( EAttribute ) identifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EClass getDatabaseColumn ( ) { return databaseColumnEClass ; } public EAttribute getDatabaseColumn_Name ( ) { return ( EAttribute ) databaseColumnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getDatabaseTable ( ) { return databaseTableEClass ; } public EAttribute getDatabaseTable_Name ( ) { return ( EAttribute ) databaseTableEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getMappingRule ( ) { return mappingRuleEClass ; } public EAttribute getMappingRule_Name ( ) { return ( EAttribute ) mappingRuleEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getMappingRule_Type ( ) { return ( EAttribute ) mappingRuleEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getMappingRule_Filters ( ) { return ( EAttribute ) mappingRuleEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getMappingRule_Mapping ( ) { return ( EReference ) mappingRuleEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getMapping ( ) { return mappingEClass ; } public EReference getMapping_MappingItems ( ) { return ( EReference ) mappingEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getMappingItem ( ) { return mappingItemEClass ; } public EAttribute getMappingItem_Col ( ) { return ( EAttribute ) mappingItemEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getMappingItem_Type ( ) { return ( EAttribute ) mappingItemEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getMappingItem_Attr ( ) { return ( EReference ) mappingItemEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getMappingColumn ( ) { return mappingColumnEClass ; } public EAttribute getMappingColumn_Name ( ) { return ( EAttribute ) mappingColumnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getMappingColumn_Vals ( ) { return ( EAttribute ) mappingColumnEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getOptionalFeature ( ) { return optionalFeatureEClass ; } public EAttribute getOptionalFeature_Name ( ) { return ( EAttribute ) optionalFeatureEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getOptionalFeature_Type ( ) { return ( EAttribute ) optionalFeatureEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getOptionalFeature_Filters ( ) { return ( EAttribute ) optionalFeatureEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EAttribute getOptionalFeature_Option ( ) { return ( EAttribute ) optionalFeatureEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getPojoType ( ) { return pojoTypeEClass ; } public EAttribute getPojoType_Native ( ) { return ( EAttribute ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EReference getPojoType_Ref ( ) { return ( EReference ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getPojoType_Type ( ) { return ( EReference ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getPojoType_Gref ( ) { return ( EReference ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getPojoType_Gtype ( ) { return ( EReference ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EAttribute getPojoType_Array ( ) { return ( EAttribute ) pojoTypeEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EClass getPackageDeclaration ( ) { return packageDeclarationEClass ; } public EAttribute getPackageDeclaration_Name ( ) { return ( EAttribute ) packageDeclarationEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPackageDeclaration_Suffix ( ) { return ( EAttribute ) packageDeclarationEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getPackageDeclaration_Elements ( ) { return ( EReference ) packageDeclarationEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getAbstractPojoEntity ( ) { return abstractPojoEntityEClass ; } public EClass getImport ( ) { return importEClass ; } public EAttribute getImport_ImportedNamespace ( ) { return ( EAttribute ) importEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getImplements ( ) { return implementsEClass ; } public EReference getImplements_Implements ( ) { return ( EReference ) implementsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getExtends ( ) { return extendsEClass ; } public EReference getExtends_Extends ( ) { return ( EReference ) extendsEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EClass getPojoEntityModifier1 ( ) { return pojoEntityModifier1EClass ; } public EAttribute getPojoEntityModifier1_Final ( ) { return ( EAttribute ) pojoEntityModifier1EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoEntityModifier1_Abstract ( ) { return ( EAttribute ) pojoEntityModifier1EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EClass getPojoEntityModifier2 ( ) { return pojoEntityModifier2EClass ; } public EReference getPojoEntityModifier2_SuperType ( ) { return ( EReference ) pojoEntityModifier2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoEntityModifier2_Discriminator ( ) { return ( EAttribute ) pojoEntityModifier2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getPojoEntityModifier2_Sernum ( ) { return ( EAttribute ) pojoEntityModifier2EClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getPojoEntity ( ) { return pojoEntityEClass ; } public EReference getPojoEntity_Modifiers1 ( ) { return ( EReference ) pojoEntityEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoEntity_Name ( ) { return ( EAttribute ) pojoEntityEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getPojoEntity_Modifiers2 ( ) { return ( EReference ) pojoEntityEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getPojoEntity_Features ( ) { return ( EReference ) pojoEntityEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EClass getPojoPropertyModifier ( ) { return pojoPropertyModifierEClass ; } public EAttribute getPojoPropertyModifier_Required ( ) { return ( EAttribute ) pojoPropertyModifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoPropertyModifier_Discriminator ( ) { return ( EAttribute ) pojoPropertyModifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EAttribute getPojoPropertyModifier_PrimaryKey ( ) { return ( EAttribute ) pojoPropertyModifierEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EClass getPojoProperty ( ) { return pojoPropertyEClass ; } public EAttribute getPojoProperty_Name ( ) { return ( EAttribute ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:0> ) ; } public EAttribute getPojoProperty_Native ( ) { return ( EAttribute ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:1> ) ; } public EReference getPojoProperty_Attrs ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:2> ) ; } public EReference getPojoProperty_Ref ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:3> ) ; } public EReference getPojoProperty_Type ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:4> ) ; } public EReference getPojoProperty_Gref ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:5> ) ; } public EReference getPojoProperty_Gtype ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:6> ) ; } public EAttribute getPojoProperty_Array ( ) { return ( EAttribute ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:7> ) ; } public EReference getPojoProperty_Modifiers ( ) { return ( EReference ) pojoPropertyEClass . getEStructuralFeatures ( ) . get ( <NUM_LIT:8> ) ; } public ProcessorDslFactory getProcessorDslFactory ( ) { return ( ProcessorDslFactory ) getEFactoryInstance ( ) ; } private boolean isCreated = false ; public void createPackageContents ( ) { if ( isCreated ) return ; isCreated = true ; artifactsEClass = createEClass ( ARTIFACTS ) ; createEReference ( artifactsEClass , ARTIFACTS__FEATURES ) ; createEReference ( artifactsEClass , ARTIFACTS__STATEMENTS ) ; createEReference ( artifactsEClass , ARTIFACTS__MAPPINGS ) ; createEReference ( artifactsEClass , ARTIFACTS__POJOS ) ; createEReference ( artifactsEClass , ARTIFACTS__USAGES ) ; createEReference ( artifactsEClass , ARTIFACTS__PROPERTIES ) ; createEReference ( artifactsEClass , ARTIFACTS__TABLES ) ; createEReference ( artifactsEClass , ARTIFACTS__TABLE_USAGES ) ; createEReference ( artifactsEClass , ARTIFACTS__POJO_PACKAGES ) ; createEReference ( artifactsEClass , ARTIFACTS__USAGES_EXT ) ; sqlTypeAssignementEClass = createEClass ( SQL_TYPE_ASSIGNEMENT ) ; createEAttribute ( sqlTypeAssignementEClass , SQL_TYPE_ASSIGNEMENT__TYPE_NAME ) ; createEAttribute ( sqlTypeAssignementEClass , SQL_TYPE_ASSIGNEMENT__SIZE ) ; createEReference ( sqlTypeAssignementEClass , SQL_TYPE_ASSIGNEMENT__TYPE ) ; columnTypeAssignementEClass = createEClass ( COLUMN_TYPE_ASSIGNEMENT ) ; createEAttribute ( columnTypeAssignementEClass , COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) ; createEReference ( columnTypeAssignementEClass , COLUMN_TYPE_ASSIGNEMENT__TYPE ) ; showColumnTypeAssignementEClass = createEClass ( SHOW_COLUMN_TYPE_ASSIGNEMENT ) ; createEAttribute ( showColumnTypeAssignementEClass , SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) ; createEAttribute ( showColumnTypeAssignementEClass , SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE ) ; tableAssignementEClass = createEClass ( TABLE_ASSIGNEMENT ) ; createEAttribute ( tableAssignementEClass , TABLE_ASSIGNEMENT__DB_TABLE ) ; createEAttribute ( tableAssignementEClass , TABLE_ASSIGNEMENT__NEW_NAME ) ; joinTableAssignementEClass = createEClass ( JOIN_TABLE_ASSIGNEMENT ) ; createEAttribute ( joinTableAssignementEClass , JOIN_TABLE_ASSIGNEMENT__DB_TABLE ) ; createEAttribute ( joinTableAssignementEClass , JOIN_TABLE_ASSIGNEMENT__DB_TABLES ) ; columnAssignementEClass = createEClass ( COLUMN_ASSIGNEMENT ) ; createEAttribute ( columnAssignementEClass , COLUMN_ASSIGNEMENT__DB_COLUMN ) ; createEAttribute ( columnAssignementEClass , COLUMN_ASSIGNEMENT__NEW_NAME ) ; importAssignementEClass = createEClass ( IMPORT_ASSIGNEMENT ) ; createEAttribute ( importAssignementEClass , IMPORT_ASSIGNEMENT__DB_COLUMN ) ; createEAttribute ( importAssignementEClass , IMPORT_ASSIGNEMENT__PK_TABLE ) ; createEAttribute ( importAssignementEClass , IMPORT_ASSIGNEMENT__PK_COLUMN ) ; exportAssignementEClass = createEClass ( EXPORT_ASSIGNEMENT ) ; createEAttribute ( exportAssignementEClass , EXPORT_ASSIGNEMENT__DB_COLUMN ) ; createEAttribute ( exportAssignementEClass , EXPORT_ASSIGNEMENT__FK_TABLE ) ; createEAttribute ( exportAssignementEClass , EXPORT_ASSIGNEMENT__FK_COLUMN ) ; inheritanceAssignementEClass = createEClass ( INHERITANCE_ASSIGNEMENT ) ; createEAttribute ( inheritanceAssignementEClass , INHERITANCE_ASSIGNEMENT__DISCRIMINATOR ) ; createEAttribute ( inheritanceAssignementEClass , INHERITANCE_ASSIGNEMENT__DB_TABLE ) ; createEAttribute ( inheritanceAssignementEClass , INHERITANCE_ASSIGNEMENT__DB_COLUMNS ) ; manyToManyAssignementEClass = createEClass ( MANY_TO_MANY_ASSIGNEMENT ) ; createEAttribute ( manyToManyAssignementEClass , MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN ) ; createEAttribute ( manyToManyAssignementEClass , MANY_TO_MANY_ASSIGNEMENT__PK_TABLE ) ; createEAttribute ( manyToManyAssignementEClass , MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN ) ; propertyEClass = createEClass ( PROPERTY ) ; createEAttribute ( propertyEClass , PROPERTY__NAME ) ; createEReference ( propertyEClass , PROPERTY__DATABASE ) ; createEReference ( propertyEClass , PROPERTY__POJOGEN ) ; databasePropertyEClass = createEClass ( DATABASE_PROPERTY ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__NAME ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__DB_URL ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__DB_USERNAME ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__DB_PASSWORD ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__DB_SCHEMA ) ; createEAttribute ( databasePropertyEClass , DATABASE_PROPERTY__DB_DRIVER ) ; pojogenPropertyEClass = createEClass ( POJOGEN_PROPERTY ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__NAME ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__SQL_TYPES ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__DB_TABLE ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__COLUMN_TYPES ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__COLUMN_TYPE ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__DB_TABLES ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__JOIN_TABLES ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__DB_COLUMNS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__TABLES ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__COLUMNS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__EXPORTS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__IMPORTS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__MANY2S ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__DB_COLUMN ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__INHERITANCE ) ; createEAttribute ( pojogenPropertyEClass , POJOGEN_PROPERTY__METHODS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__TO_IMPLEMENTS ) ; createEReference ( pojogenPropertyEClass , POJOGEN_PROPERTY__TO_EXTENDS ) ; pojoDefinitionEClass = createEClass ( POJO_DEFINITION ) ; createEAttribute ( pojoDefinitionEClass , POJO_DEFINITION__NAME ) ; createEAttribute ( pojoDefinitionEClass , POJO_DEFINITION__CLASS ) ; pojoUsageEClass = createEClass ( POJO_USAGE ) ; createEReference ( pojoUsageEClass , POJO_USAGE__POJO ) ; columnUsageEClass = createEClass ( COLUMN_USAGE ) ; createEReference ( columnUsageEClass , COLUMN_USAGE__STATEMENT ) ; identifierUsageEClass = createEClass ( IDENTIFIER_USAGE ) ; createEReference ( identifierUsageEClass , IDENTIFIER_USAGE__STATEMENT ) ; constantUsageEClass = createEClass ( CONSTANT_USAGE ) ; createEReference ( constantUsageEClass , CONSTANT_USAGE__STATEMENT ) ; mappingUsageEClass = createEClass ( MAPPING_USAGE ) ; createEReference ( mappingUsageEClass , MAPPING_USAGE__STATEMENT ) ; pojoUsageExtEClass = createEClass ( POJO_USAGE_EXT ) ; createEReference ( pojoUsageExtEClass , POJO_USAGE_EXT__POJO ) ; columnUsageExtEClass = createEClass ( COLUMN_USAGE_EXT ) ; createEReference ( columnUsageExtEClass , COLUMN_USAGE_EXT__STATEMENT ) ; identifierUsageExtEClass = createEClass ( IDENTIFIER_USAGE_EXT ) ; createEReference ( identifierUsageExtEClass , IDENTIFIER_USAGE_EXT__STATEMENT ) ; constantUsageExtEClass = createEClass ( CONSTANT_USAGE_EXT ) ; createEReference ( constantUsageExtEClass , CONSTANT_USAGE_EXT__STATEMENT ) ; mappingUsageExtEClass = createEClass ( MAPPING_USAGE_EXT ) ; createEReference ( mappingUsageExtEClass , MAPPING_USAGE_EXT__STATEMENT ) ; tableDefinitionEClass = createEClass ( TABLE_DEFINITION ) ; createEAttribute ( tableDefinitionEClass , TABLE_DEFINITION__NAME ) ; createEAttribute ( tableDefinitionEClass , TABLE_DEFINITION__TABLE ) ; tableUsageEClass = createEClass ( TABLE_USAGE ) ; createEReference ( tableUsageEClass , TABLE_USAGE__STATEMENT ) ; createEReference ( tableUsageEClass , TABLE_USAGE__TABLE ) ; createEAttribute ( tableUsageEClass , TABLE_USAGE__PREFIX ) ; metaStatementEClass = createEClass ( META_STATEMENT ) ; createEAttribute ( metaStatementEClass , META_STATEMENT__NAME ) ; createEAttribute ( metaStatementEClass , META_STATEMENT__TYPE ) ; createEAttribute ( metaStatementEClass , META_STATEMENT__FILTERS ) ; createEReference ( metaStatementEClass , META_STATEMENT__STATEMENT ) ; sqlEClass = createEClass ( SQL ) ; createEReference ( sqlEClass , SQL__SQLS ) ; sqlFragmentEClass = createEClass ( SQL_FRAGMENT ) ; createEAttribute ( sqlFragmentEClass , SQL_FRAGMENT__VALUE ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__COL ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__CNST ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__IDENT ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__META ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__DBTAB ) ; createEReference ( sqlFragmentEClass , SQL_FRAGMENT__DBCOL ) ; metaSqlEClass = createEClass ( META_SQL ) ; createEReference ( metaSqlEClass , META_SQL__IFS ) ; createEAttribute ( metaSqlEClass , META_SQL__TYPE ) ; createEReference ( metaSqlEClass , META_SQL__COND ) ; createEAttribute ( metaSqlEClass , META_SQL__FTYPE ) ; createEReference ( metaSqlEClass , META_SQL__ORD ) ; ifSqlEClass = createEClass ( IF_SQL ) ; createEReference ( ifSqlEClass , IF_SQL__SQLS ) ; ifSqlFragmentEClass = createEClass ( IF_SQL_FRAGMENT ) ; createEAttribute ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__VALUE ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__COL ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__CNST ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__IDENT ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__DBTAB ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__DBCOL ) ; createEReference ( ifSqlFragmentEClass , IF_SQL_FRAGMENT__META ) ; ifMetaSqlEClass = createEClass ( IF_META_SQL ) ; createEReference ( ifMetaSqlEClass , IF_META_SQL__IFS ) ; createEAttribute ( ifMetaSqlEClass , IF_META_SQL__TYPE ) ; createEReference ( ifMetaSqlEClass , IF_META_SQL__COND ) ; ifSqlCondEClass = createEClass ( IF_SQL_COND ) ; createEReference ( ifSqlCondEClass , IF_SQL_COND__BOOL1 ) ; createEAttribute ( ifSqlCondEClass , IF_SQL_COND__OPER ) ; createEReference ( ifSqlCondEClass , IF_SQL_COND__BOOL2 ) ; ifSqlBoolEClass = createEClass ( IF_SQL_BOOL ) ; createEAttribute ( ifSqlBoolEClass , IF_SQL_BOOL__NOT ) ; createEReference ( ifSqlBoolEClass , IF_SQL_BOOL__CNST ) ; createEReference ( ifSqlBoolEClass , IF_SQL_BOOL__IDENT ) ; createEReference ( ifSqlBoolEClass , IF_SQL_BOOL__COND ) ; ordSqlEClass = createEClass ( ORD_SQL ) ; createEReference ( ordSqlEClass , ORD_SQL__SQLS ) ; ordSql2EClass = createEClass ( ORD_SQL2 ) ; createEAttribute ( ordSql2EClass , ORD_SQL2__VALUE ) ; createEReference ( ordSql2EClass , ORD_SQL2__CNST ) ; createEReference ( ordSql2EClass , ORD_SQL2__IDENT ) ; createEReference ( ordSql2EClass , ORD_SQL2__DBCOL ) ; columnEClass = createEClass ( COLUMN ) ; createEAttribute ( columnEClass , COLUMN__NAME ) ; createEAttribute ( columnEClass , COLUMN__TYPE ) ; createEAttribute ( columnEClass , COLUMN__VALS ) ; constantEClass = createEClass ( CONSTANT ) ; createEAttribute ( constantEClass , CONSTANT__CASE ) ; createEAttribute ( constantEClass , CONSTANT__NAME ) ; createEAttribute ( constantEClass , CONSTANT__TYPE ) ; createEAttribute ( constantEClass , CONSTANT__VALS ) ; identifierEClass = createEClass ( IDENTIFIER ) ; createEAttribute ( identifierEClass , IDENTIFIER__MODE ) ; createEAttribute ( identifierEClass , IDENTIFIER__CASE ) ; createEAttribute ( identifierEClass , IDENTIFIER__NAME ) ; createEAttribute ( identifierEClass , IDENTIFIER__TYPE ) ; createEAttribute ( identifierEClass , IDENTIFIER__VALS ) ; databaseColumnEClass = createEClass ( DATABASE_COLUMN ) ; createEAttribute ( databaseColumnEClass , DATABASE_COLUMN__NAME ) ; databaseTableEClass = createEClass ( DATABASE_TABLE ) ; createEAttribute ( databaseTableEClass , DATABASE_TABLE__NAME ) ; mappingRuleEClass = createEClass ( MAPPING_RULE ) ; createEAttribute ( mappingRuleEClass , MAPPING_RULE__NAME ) ; createEAttribute ( mappingRuleEClass , MAPPING_RULE__TYPE ) ; createEAttribute ( mappingRuleEClass , MAPPING_RULE__FILTERS ) ; createEReference ( mappingRuleEClass , MAPPING_RULE__MAPPING ) ; mappingEClass = createEClass ( MAPPING ) ; createEReference ( mappingEClass , MAPPING__MAPPING_ITEMS ) ; mappingItemEClass = createEClass ( MAPPING_ITEM ) ; createEAttribute ( mappingItemEClass , MAPPING_ITEM__COL ) ; createEAttribute ( mappingItemEClass , MAPPING_ITEM__TYPE ) ; createEReference ( mappingItemEClass , MAPPING_ITEM__ATTR ) ; mappingColumnEClass = createEClass ( MAPPING_COLUMN ) ; createEAttribute ( mappingColumnEClass , MAPPING_COLUMN__NAME ) ; createEAttribute ( mappingColumnEClass , MAPPING_COLUMN__VALS ) ; optionalFeatureEClass = createEClass ( OPTIONAL_FEATURE ) ; createEAttribute ( optionalFeatureEClass , OPTIONAL_FEATURE__NAME ) ; createEAttribute ( optionalFeatureEClass , OPTIONAL_FEATURE__TYPE ) ; createEAttribute ( optionalFeatureEClass , OPTIONAL_FEATURE__FILTERS ) ; createEAttribute ( optionalFeatureEClass , OPTIONAL_FEATURE__OPTION ) ; pojoTypeEClass = createEClass ( POJO_TYPE ) ; createEAttribute ( pojoTypeEClass , POJO_TYPE__NATIVE ) ; createEReference ( pojoTypeEClass , POJO_TYPE__REF ) ; createEReference ( pojoTypeEClass , POJO_TYPE__TYPE ) ; createEReference ( pojoTypeEClass , POJO_TYPE__GREF ) ; createEReference ( pojoTypeEClass , POJO_TYPE__GTYPE ) ; createEAttribute ( pojoTypeEClass , POJO_TYPE__ARRAY ) ; packageDeclarationEClass = createEClass ( PACKAGE_DECLARATION ) ; createEAttribute ( packageDeclarationEClass , PACKAGE_DECLARATION__NAME ) ; createEAttribute ( packageDeclarationEClass , PACKAGE_DECLARATION__SUFFIX ) ; createEReference ( packageDeclarationEClass , PACKAGE_DECLARATION__ELEMENTS ) ; abstractPojoEntityEClass = createEClass ( ABSTRACT_POJO_ENTITY ) ; importEClass = createEClass ( IMPORT ) ; createEAttribute ( importEClass , IMPORT__IMPORTED_NAMESPACE ) ; implementsEClass = createEClass ( IMPLEMENTS ) ; createEReference ( implementsEClass , IMPLEMENTS__IMPLEMENTS ) ; extendsEClass = createEClass ( EXTENDS ) ; createEReference ( extendsEClass , EXTENDS__EXTENDS ) ; pojoEntityModifier1EClass = createEClass ( POJO_ENTITY_MODIFIER1 ) ; createEAttribute ( pojoEntityModifier1EClass , POJO_ENTITY_MODIFIER1__FINAL ) ; createEAttribute ( pojoEntityModifier1EClass , POJO_ENTITY_MODIFIER1__ABSTRACT ) ; pojoEntityModifier2EClass = createEClass ( POJO_ENTITY_MODIFIER2 ) ; createEReference ( pojoEntityModifier2EClass , POJO_ENTITY_MODIFIER2__SUPER_TYPE ) ; createEAttribute ( pojoEntityModifier2EClass , POJO_ENTITY_MODIFIER2__DISCRIMINATOR ) ; createEAttribute ( pojoEntityModifier2EClass , POJO_ENTITY_MODIFIER2__SERNUM ) ; pojoEntityEClass = createEClass ( POJO_ENTITY ) ; createEReference ( pojoEntityEClass , POJO_ENTITY__MODIFIERS1 ) ; createEAttribute ( pojoEntityEClass , POJO_ENTITY__NAME ) ; createEReference ( pojoEntityEClass , POJO_ENTITY__MODIFIERS2 ) ; createEReference ( pojoEntityEClass , POJO_ENTITY__FEATURES ) ; pojoPropertyModifierEClass = createEClass ( POJO_PROPERTY_MODIFIER ) ; createEAttribute ( pojoPropertyModifierEClass , POJO_PROPERTY_MODIFIER__REQUIRED ) ; createEAttribute ( pojoPropertyModifierEClass , POJO_PROPERTY_MODIFIER__DISCRIMINATOR ) ; createEAttribute ( pojoPropertyModifierEClass , POJO_PROPERTY_MODIFIER__PRIMARY_KEY ) ; pojoPropertyEClass = createEClass ( POJO_PROPERTY ) ; createEAttribute ( pojoPropertyEClass , POJO_PROPERTY__NAME ) ; createEAttribute ( pojoPropertyEClass , POJO_PROPERTY__NATIVE ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__ATTRS ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__REF ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__TYPE ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__GREF ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__GTYPE ) ; createEAttribute ( pojoPropertyEClass , POJO_PROPERTY__ARRAY ) ; createEReference ( pojoPropertyEClass , POJO_PROPERTY__MODIFIERS ) ; } private boolean isInitialized = false ; public void initializePackageContents ( ) { if ( isInitialized ) return ; isInitialized = true ; setName ( eNAME ) ; setNsPrefix ( eNS_PREFIX ) ; setNsURI ( eNS_URI ) ; TypesPackage theTypesPackage = ( TypesPackage ) EPackage . Registry . INSTANCE . getEPackage ( TypesPackage . eNS_URI ) ; columnUsageEClass . getESuperTypes ( ) . add ( this . getPojoUsage ( ) ) ; identifierUsageEClass . getESuperTypes ( ) . add ( this . getPojoUsage ( ) ) ; constantUsageEClass . getESuperTypes ( ) . add ( this . getPojoUsage ( ) ) ; mappingUsageEClass . getESuperTypes ( ) . add ( this . getPojoUsage ( ) ) ; columnUsageExtEClass . getESuperTypes ( ) . add ( this . getPojoUsageExt ( ) ) ; identifierUsageExtEClass . getESuperTypes ( ) . add ( this . getPojoUsageExt ( ) ) ; constantUsageExtEClass . getESuperTypes ( ) . add ( this . getPojoUsageExt ( ) ) ; mappingUsageExtEClass . getESuperTypes ( ) . add ( this . getPojoUsageExt ( ) ) ; packageDeclarationEClass . getESuperTypes ( ) . add ( this . getAbstractPojoEntity ( ) ) ; importEClass . getESuperTypes ( ) . add ( this . getAbstractPojoEntity ( ) ) ; implementsEClass . getESuperTypes ( ) . add ( this . getAbstractPojoEntity ( ) ) ; extendsEClass . getESuperTypes ( ) . add ( this . getAbstractPojoEntity ( ) ) ; pojoEntityEClass . getESuperTypes ( ) . add ( this . getAbstractPojoEntity ( ) ) ; initEClass ( artifactsEClass , Artifacts . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getArtifacts_Features ( ) , this . getOptionalFeature ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Statements ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Mappings ( ) , this . getMappingRule ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Pojos ( ) , this . getPojoDefinition ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Usages ( ) , this . getPojoUsage ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Properties ( ) , this . getProperty ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_Tables ( ) , this . getTableDefinition ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_TableUsages ( ) , this . getTableUsage ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_PojoPackages ( ) , this . getPackageDeclaration ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getArtifacts_UsagesExt ( ) , this . getPojoUsageExt ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Artifacts . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( sqlTypeAssignementEClass , SqlTypeAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getSqlTypeAssignement_TypeName ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getSqlTypeAssignement_Size ( ) , ecorePackage . getEString ( ) , "<STR_LIT:size>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlTypeAssignement_Type ( ) , this . getPojoType ( ) , null , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( columnTypeAssignementEClass , ColumnTypeAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getColumnTypeAssignement_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getColumnTypeAssignement_Type ( ) , this . getPojoType ( ) , null , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( showColumnTypeAssignementEClass , ShowColumnTypeAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getShowColumnTypeAssignement_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ShowColumnTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getShowColumnTypeAssignement_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ShowColumnTypeAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( tableAssignementEClass , TableAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getTableAssignement_DbTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getTableAssignement_NewName ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( joinTableAssignementEClass , JoinTableAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getJoinTableAssignement_DbTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , JoinTableAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getJoinTableAssignement_DbTables ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , JoinTableAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( columnAssignementEClass , ColumnAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getColumnAssignement_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getColumnAssignement_NewName ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( importAssignementEClass , ImportAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getImportAssignement_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ImportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getImportAssignement_PkTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ImportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getImportAssignement_PkColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ImportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( exportAssignementEClass , ExportAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getExportAssignement_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ExportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getExportAssignement_FkTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ExportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getExportAssignement_FkColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ExportAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( inheritanceAssignementEClass , InheritanceAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getInheritanceAssignement_Discriminator ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , InheritanceAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getInheritanceAssignement_DbTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , InheritanceAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getInheritanceAssignement_DbColumns ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , InheritanceAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( manyToManyAssignementEClass , ManyToManyAssignement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getManyToManyAssignement_PkColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ManyToManyAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getManyToManyAssignement_PkTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ManyToManyAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getManyToManyAssignement_FkColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ManyToManyAssignement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( propertyEClass , Property . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getProperty_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Property . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getProperty_Database ( ) , this . getDatabaseProperty ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Property . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getProperty_Pojogen ( ) , this . getPojogenProperty ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Property . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( databasePropertyEClass , DatabaseProperty . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getDatabaseProperty_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getDatabaseProperty_DbUrl ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getDatabaseProperty_DbUsername ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getDatabaseProperty_DbPassword ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getDatabaseProperty_DbSchema ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getDatabaseProperty_DbDriver ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojogenPropertyEClass , PojogenProperty . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojogenProperty_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_SqlTypes ( ) , this . getSqlTypeAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojogenProperty_DbTable ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_ColumnTypes ( ) , this . getColumnTypeAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_ColumnType ( ) , this . getShowColumnTypeAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojogenProperty_DbTables ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_JoinTables ( ) , this . getJoinTableAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojogenProperty_DbColumns ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Tables ( ) , this . getTableAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Columns ( ) , this . getColumnAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Exports ( ) , this . getExportAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Imports ( ) , this . getImportAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Many2s ( ) , this . getManyToManyAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojogenProperty_DbColumn ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_Inheritance ( ) , this . getInheritanceAssignement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojogenProperty_Methods ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_ToImplements ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojogenProperty_ToExtends ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojogenProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoDefinitionEClass , PojoDefinition . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojoDefinition_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoDefinition . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoDefinition_Class ( ) , ecorePackage . getEString ( ) , "<STR_LIT:class>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoDefinition . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoUsageEClass , PojoUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getPojoUsage_Pojo ( ) , this . getPojoDefinition ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( columnUsageEClass , ColumnUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getColumnUsage_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( identifierUsageEClass , IdentifierUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getIdentifierUsage_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IdentifierUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( constantUsageEClass , ConstantUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getConstantUsage_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ConstantUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingUsageEClass , MappingUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getMappingUsage_Statement ( ) , this . getMappingRule ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoUsageExtEClass , PojoUsageExt . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getPojoUsageExt_Pojo ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoUsageExt . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( columnUsageExtEClass , ColumnUsageExt . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getColumnUsageExt_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ColumnUsageExt . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( identifierUsageExtEClass , IdentifierUsageExt . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getIdentifierUsageExt_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IdentifierUsageExt . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( constantUsageExtEClass , ConstantUsageExt . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getConstantUsageExt_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , ConstantUsageExt . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingUsageExtEClass , MappingUsageExt . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getMappingUsageExt_Statement ( ) , this . getMappingRule ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingUsageExt . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( tableDefinitionEClass , TableDefinition . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getTableDefinition_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableDefinition . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getTableDefinition_Table ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableDefinition . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( tableUsageEClass , TableUsage . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getTableUsage_Statement ( ) , this . getMetaStatement ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getTableUsage_Table ( ) , this . getTableDefinition ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getTableUsage_Prefix ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , TableUsage . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( metaStatementEClass , MetaStatement . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getMetaStatement_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaStatement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMetaStatement_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaStatement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMetaStatement_Filters ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , MetaStatement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getMetaStatement_Statement ( ) , this . getSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaStatement . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( sqlEClass , Sql . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getSql_Sqls ( ) , this . getSqlFragment ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Sql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( sqlFragmentEClass , SqlFragment . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getSqlFragment_Value ( ) , ecorePackage . getEString ( ) , "<STR_LIT:value>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Col ( ) , this . getColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Cnst ( ) , this . getConstant ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Ident ( ) , this . getIdentifier ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Meta ( ) , this . getMetaSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Dbtab ( ) , this . getDatabaseTable ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getSqlFragment_Dbcol ( ) , this . getDatabaseColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , SqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( metaSqlEClass , MetaSql . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getMetaSql_Ifs ( ) , this . getIfSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , MetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMetaSql_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getMetaSql_Cond ( ) , this . getIfSqlCond ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMetaSql_Ftype ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getMetaSql_Ord ( ) , this . getOrdSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ifSqlEClass , IfSql . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getIfSql_Sqls ( ) , this . getIfSqlFragment ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , IfSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ifSqlFragmentEClass , IfSqlFragment . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getIfSqlFragment_Value ( ) , ecorePackage . getEString ( ) , "<STR_LIT:value>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Col ( ) , this . getColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Cnst ( ) , this . getConstant ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Ident ( ) , this . getIdentifier ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Dbtab ( ) , this . getDatabaseTable ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Dbcol ( ) , this . getDatabaseColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlFragment_Meta ( ) , this . getIfMetaSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlFragment . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ifMetaSqlEClass , IfMetaSql . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getIfMetaSql_Ifs ( ) , this . getIfSql ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , IfMetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIfMetaSql_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfMetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfMetaSql_Cond ( ) , this . getIfSqlCond ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfMetaSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ifSqlCondEClass , IfSqlCond . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getIfSqlCond_Bool1 ( ) , this . getIfSqlBool ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlCond . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIfSqlCond_Oper ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , IfSqlCond . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlCond_Bool2 ( ) , this . getIfSqlBool ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , IfSqlCond . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ifSqlBoolEClass , IfSqlBool . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getIfSqlBool_Not ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlBool . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlBool_Cnst ( ) , this . getConstant ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlBool . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlBool_Ident ( ) , this . getIdentifier ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlBool . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getIfSqlBool_Cond ( ) , this . getIfSqlCond ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , IfSqlBool . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ordSqlEClass , OrdSql . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getOrdSql_Sqls ( ) , this . getOrdSql2 ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , OrdSql . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( ordSql2EClass , OrdSql2 . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getOrdSql2_Value ( ) , ecorePackage . getEString ( ) , "<STR_LIT:value>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OrdSql2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getOrdSql2_Cnst ( ) , this . getConstant ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OrdSql2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getOrdSql2_Ident ( ) , this . getIdentifier ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OrdSql2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getOrdSql2_Dbcol ( ) , this . getDatabaseColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OrdSql2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( columnEClass , Column . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getColumn_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Column . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getColumn_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Column . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getColumn_Vals ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Column . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( constantEClass , Constant . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getConstant_Case ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Constant . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getConstant_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Constant . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getConstant_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Constant . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getConstant_Vals ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Constant . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( identifierEClass , Identifier . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getIdentifier_Mode ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Identifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIdentifier_Case ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Identifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIdentifier_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Identifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIdentifier_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Identifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getIdentifier_Vals ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Identifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( databaseColumnEClass , DatabaseColumn . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getDatabaseColumn_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseColumn . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( databaseTableEClass , DatabaseTable . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getDatabaseTable_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , DatabaseTable . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingRuleEClass , MappingRule . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getMappingRule_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingRule . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMappingRule_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingRule . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMappingRule_Filters ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , MappingRule . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getMappingRule_Mapping ( ) , this . getMapping ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingRule . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingEClass , Mapping . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getMapping_MappingItems ( ) , this . getMappingItem ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , Mapping . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingItemEClass , MappingItem . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getMappingItem_Col ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingItem . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMappingItem_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingItem . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getMappingItem_Attr ( ) , this . getMappingColumn ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingItem . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( mappingColumnEClass , MappingColumn . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getMappingColumn_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , MappingColumn . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getMappingColumn_Vals ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , MappingColumn . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( optionalFeatureEClass , OptionalFeature . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getOptionalFeature_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OptionalFeature . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getOptionalFeature_Type ( ) , ecorePackage . getEString ( ) , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OptionalFeature . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getOptionalFeature_Filters ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , OptionalFeature . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getOptionalFeature_Option ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , OptionalFeature . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoTypeEClass , PojoType . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojoType_Native ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoType_Ref ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoType_Type ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoType_Gref ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoType_Gtype ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoType_Array ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoType . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( packageDeclarationEClass , PackageDeclaration . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPackageDeclaration_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PackageDeclaration . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPackageDeclaration_Suffix ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PackageDeclaration . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPackageDeclaration_Elements ( ) , this . getAbstractPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PackageDeclaration . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( abstractPojoEntityEClass , AbstractPojoEntity . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEClass ( importEClass , Import . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getImport_ImportedNamespace ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Import . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( implementsEClass , Implements . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getImplements_Implements ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Implements . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( extendsEClass , Extends . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getExtends_Extends ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , Extends . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoEntityModifier1EClass , PojoEntityModifier1 . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojoEntityModifier1_Final ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntityModifier1 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoEntityModifier1_Abstract ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntityModifier1 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoEntityModifier2EClass , PojoEntityModifier2 . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getPojoEntityModifier2_SuperType ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntityModifier2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoEntityModifier2_Discriminator ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntityModifier2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoEntityModifier2_Sernum ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntityModifier2 . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoEntityEClass , PojoEntity . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEReference ( getPojoEntity_Modifiers1 ( ) , this . getPojoEntityModifier1 ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojoEntity . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoEntity_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoEntity . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoEntity_Modifiers2 ( ) , this . getPojoEntityModifier2 ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojoEntity . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoEntity_Features ( ) , this . getPojoProperty ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojoEntity . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoPropertyModifierEClass , PojoPropertyModifier . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojoPropertyModifier_Required ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoPropertyModifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoPropertyModifier_Discriminator ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoPropertyModifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoPropertyModifier_PrimaryKey ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoPropertyModifier . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEClass ( pojoPropertyEClass , PojoProperty . class , "<STR_LIT>" , ! IS_ABSTRACT , ! IS_INTERFACE , IS_GENERATED_INSTANCE_CLASS ) ; initEAttribute ( getPojoProperty_Name ( ) , ecorePackage . getEString ( ) , "<STR_LIT:name>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoProperty_Native ( ) , ecorePackage . getEString ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Attrs ( ) , this . getPojoProperty ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , ! IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Ref ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Type ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT:type>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Gref ( ) , this . getPojoEntity ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Gtype ( ) , theTypesPackage . getJvmType ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_COMPOSITE , IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEAttribute ( getPojoProperty_Array ( ) , ecorePackage . getEBoolean ( ) , "<STR_LIT>" , null , <NUM_LIT:0> , <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , ! IS_UNSETTABLE , ! IS_ID , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; initEReference ( getPojoProperty_Modifiers ( ) , this . getPojoPropertyModifier ( ) , null , "<STR_LIT>" , null , <NUM_LIT:0> , - <NUM_LIT:1> , PojoProperty . class , ! IS_TRANSIENT , ! IS_VOLATILE , IS_CHANGEABLE , IS_COMPOSITE , ! IS_RESOLVE_PROXIES , ! IS_UNSETTABLE , IS_UNIQUE , ! IS_DERIVED , IS_ORDERED ) ; createResource ( eNS_URI ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . ColumnUsageExt ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ColumnUsageExtImpl extends PojoUsageExtImpl implements ColumnUsageExt { protected MetaStatement statement ; protected ColumnUsageExtImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . COLUMN_USAGE_EXT ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE_EXT__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . IdentifierUsage ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IdentifierUsageImpl extends PojoUsageImpl implements IdentifierUsage { protected MetaStatement statement ; protected IdentifierUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IDENTIFIER_USAGE ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . sqlproc . dsl . processorDsl . Mapping ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class MappingRuleImpl extends MinimalEObjectImpl . Container implements MappingRule { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected EList < String > filters ; protected Mapping mapping ; protected MappingRuleImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . MAPPING_RULE ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_RULE__NAME , oldName , name ) ) ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_RULE__TYPE , oldType , type ) ) ; } public EList < String > getFilters ( ) { if ( filters == null ) { filters = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . MAPPING_RULE__FILTERS ) ; } return filters ; } public Mapping getMapping ( ) { return mapping ; } public NotificationChain basicSetMapping ( Mapping newMapping , NotificationChain msgs ) { Mapping oldMapping = mapping ; mapping = newMapping ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_RULE__MAPPING , oldMapping , newMapping ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setMapping ( Mapping newMapping ) { if ( newMapping != mapping ) { NotificationChain msgs = null ; if ( mapping != null ) msgs = ( ( InternalEObject ) mapping ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . MAPPING_RULE__MAPPING , null , msgs ) ; if ( newMapping != null ) msgs = ( ( InternalEObject ) newMapping ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . MAPPING_RULE__MAPPING , null , msgs ) ; msgs = basicSetMapping ( newMapping , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_RULE__MAPPING , newMapping , newMapping ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_RULE__MAPPING : return basicSetMapping ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_RULE__NAME : return getName ( ) ; case ProcessorDslPackage . MAPPING_RULE__TYPE : return getType ( ) ; case ProcessorDslPackage . MAPPING_RULE__FILTERS : return getFilters ( ) ; case ProcessorDslPackage . MAPPING_RULE__MAPPING : return getMapping ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_RULE__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MAPPING_RULE__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MAPPING_RULE__FILTERS : getFilters ( ) . clear ( ) ; getFilters ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; case ProcessorDslPackage . MAPPING_RULE__MAPPING : setMapping ( ( Mapping ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_RULE__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . MAPPING_RULE__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . MAPPING_RULE__FILTERS : getFilters ( ) . clear ( ) ; return ; case ProcessorDslPackage . MAPPING_RULE__MAPPING : setMapping ( ( Mapping ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_RULE__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . MAPPING_RULE__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . MAPPING_RULE__FILTERS : return filters != null && ! filters . isEmpty ( ) ; case ProcessorDslPackage . MAPPING_RULE__MAPPING : return mapping != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( "<STR_LIT>" ) ; result . append ( filters ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . MappingColumn ; import org . sqlproc . dsl . processorDsl . MappingItem ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class MappingItemImpl extends MinimalEObjectImpl . Container implements MappingItem { protected static final String COL_EDEFAULT = null ; protected String col = COL_EDEFAULT ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected MappingColumn attr ; protected MappingItemImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . MAPPING_ITEM ; } public String getCol ( ) { return col ; } public void setCol ( String newCol ) { String oldCol = col ; col = newCol ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_ITEM__COL , oldCol , col ) ) ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_ITEM__TYPE , oldType , type ) ) ; } public MappingColumn getAttr ( ) { return attr ; } public NotificationChain basicSetAttr ( MappingColumn newAttr , NotificationChain msgs ) { MappingColumn oldAttr = attr ; attr = newAttr ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_ITEM__ATTR , oldAttr , newAttr ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setAttr ( MappingColumn newAttr ) { if ( newAttr != attr ) { NotificationChain msgs = null ; if ( attr != null ) msgs = ( ( InternalEObject ) attr ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . MAPPING_ITEM__ATTR , null , msgs ) ; if ( newAttr != null ) msgs = ( ( InternalEObject ) newAttr ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . MAPPING_ITEM__ATTR , null , msgs ) ; msgs = basicSetAttr ( newAttr , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_ITEM__ATTR , newAttr , newAttr ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_ITEM__ATTR : return basicSetAttr ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_ITEM__COL : return getCol ( ) ; case ProcessorDslPackage . MAPPING_ITEM__TYPE : return getType ( ) ; case ProcessorDslPackage . MAPPING_ITEM__ATTR : return getAttr ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_ITEM__COL : setCol ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MAPPING_ITEM__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MAPPING_ITEM__ATTR : setAttr ( ( MappingColumn ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_ITEM__COL : setCol ( COL_EDEFAULT ) ; return ; case ProcessorDslPackage . MAPPING_ITEM__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . MAPPING_ITEM__ATTR : setAttr ( ( MappingColumn ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_ITEM__COL : return COL_EDEFAULT == null ? col != null : ! COL_EDEFAULT . equals ( col ) ; case ProcessorDslPackage . MAPPING_ITEM__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . MAPPING_ITEM__ATTR : return attr != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( col ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ColumnImpl extends MinimalEObjectImpl . Container implements Column { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected EList < String > vals ; protected ColumnImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . COLUMN ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN__NAME , oldName , name ) ) ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN__TYPE , oldType , type ) ) ; } public EList < String > getVals ( ) { if ( vals == null ) { vals = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . COLUMN__VALS ) ; } return vals ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN__NAME : return getName ( ) ; case ProcessorDslPackage . COLUMN__TYPE : return getType ( ) ; case ProcessorDslPackage . COLUMN__VALS : return getVals ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . COLUMN__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . COLUMN__VALS : getVals ( ) . clear ( ) ; getVals ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . COLUMN__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . COLUMN__VALS : getVals ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . COLUMN__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . COLUMN__VALS : return vals != null && ! vals . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( "<STR_LIT>" ) ; result . append ( vals ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . xtext . common . types . JvmType ; import org . sqlproc . dsl . processorDsl . Implements ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ImplementsImpl extends AbstractPojoEntityImpl implements Implements { protected JvmType implements_ ; protected ImplementsImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IMPLEMENTS ; } public JvmType getImplements ( ) { if ( implements_ != null && implements_ . eIsProxy ( ) ) { InternalEObject oldImplements = ( InternalEObject ) implements_ ; implements_ = ( JvmType ) eResolveProxy ( oldImplements ) ; if ( implements_ != oldImplements ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS , oldImplements , implements_ ) ) ; } } return implements_ ; } public JvmType basicGetImplements ( ) { return implements_ ; } public void setImplements ( JvmType newImplements ) { JvmType oldImplements = implements_ ; implements_ = newImplements ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS , oldImplements , implements_ ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS : if ( resolve ) return getImplements ( ) ; return basicGetImplements ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS : setImplements ( ( JvmType ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS : setImplements ( ( JvmType ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPLEMENTS__IMPLEMENTS : return implements_ != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . IdentifierUsageExt ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IdentifierUsageExtImpl extends PojoUsageExtImpl implements IdentifierUsageExt { protected MetaStatement statement ; protected IdentifierUsageExtImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IDENTIFIER_USAGE_EXT ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IDENTIFIER_USAGE_EXT__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . AbstractPojoEntity ; import org . sqlproc . dsl . processorDsl . PackageDeclaration ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PackageDeclarationImpl extends AbstractPojoEntityImpl implements PackageDeclaration { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String SUFFIX_EDEFAULT = null ; protected String suffix = SUFFIX_EDEFAULT ; protected EList < AbstractPojoEntity > elements ; protected PackageDeclarationImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . PACKAGE_DECLARATION ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PACKAGE_DECLARATION__NAME , oldName , name ) ) ; } public String getSuffix ( ) { return suffix ; } public void setSuffix ( String newSuffix ) { String oldSuffix = suffix ; suffix = newSuffix ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PACKAGE_DECLARATION__SUFFIX , oldSuffix , suffix ) ) ; } public EList < AbstractPojoEntity > getElements ( ) { if ( elements == null ) { elements = new EObjectContainmentEList < AbstractPojoEntity > ( AbstractPojoEntity . class , this , ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS ) ; } return elements ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS : return ( ( InternalEList < ? > ) getElements ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . PACKAGE_DECLARATION__NAME : return getName ( ) ; case ProcessorDslPackage . PACKAGE_DECLARATION__SUFFIX : return getSuffix ( ) ; case ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS : return getElements ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . PACKAGE_DECLARATION__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . PACKAGE_DECLARATION__SUFFIX : setSuffix ( ( String ) newValue ) ; return ; case ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS : getElements ( ) . clear ( ) ; getElements ( ) . addAll ( ( Collection < ? extends AbstractPojoEntity > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . PACKAGE_DECLARATION__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . PACKAGE_DECLARATION__SUFFIX : setSuffix ( SUFFIX_EDEFAULT ) ; return ; case ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS : getElements ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . PACKAGE_DECLARATION__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . PACKAGE_DECLARATION__SUFFIX : return SUFFIX_EDEFAULT == null ? suffix != null : ! SUFFIX_EDEFAULT . equals ( suffix ) ; case ProcessorDslPackage . PACKAGE_DECLARATION__ELEMENTS : return elements != null && ! elements . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( suffix ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoUsageExt ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoUsageExtImpl extends MinimalEObjectImpl . Container implements PojoUsageExt { protected PojoEntity pojo ; protected PojoUsageExtImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_USAGE_EXT ; } public PojoEntity getPojo ( ) { if ( pojo != null && pojo . eIsProxy ( ) ) { InternalEObject oldPojo = ( InternalEObject ) pojo ; pojo = ( PojoEntity ) eResolveProxy ( oldPojo ) ; if ( pojo != oldPojo ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_USAGE_EXT__POJO , oldPojo , pojo ) ) ; } } return pojo ; } public PojoEntity basicGetPojo ( ) { return pojo ; } public void setPojo ( PojoEntity newPojo ) { PojoEntity oldPojo = pojo ; pojo = newPojo ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_USAGE_EXT__POJO , oldPojo , pojo ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE_EXT__POJO : if ( resolve ) return getPojo ( ) ; return basicGetPojo ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE_EXT__POJO : setPojo ( ( PojoEntity ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE_EXT__POJO : setPojo ( ( PojoEntity ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE_EXT__POJO : return pojo != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . MetaSql ; import org . sqlproc . dsl . processorDsl . OrdSql ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class MetaSqlImpl extends MinimalEObjectImpl . Container implements MetaSql { protected EList < IfSql > ifs ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected IfSqlCond cond ; protected static final String FTYPE_EDEFAULT = null ; protected String ftype = FTYPE_EDEFAULT ; protected OrdSql ord ; protected MetaSqlImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . META_SQL ; } public EList < IfSql > getIfs ( ) { if ( ifs == null ) { ifs = new EObjectContainmentEList < IfSql > ( IfSql . class , this , ProcessorDslPackage . META_SQL__IFS ) ; } return ifs ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__TYPE , oldType , type ) ) ; } public IfSqlCond getCond ( ) { return cond ; } public NotificationChain basicSetCond ( IfSqlCond newCond , NotificationChain msgs ) { IfSqlCond oldCond = cond ; cond = newCond ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__COND , oldCond , newCond ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCond ( IfSqlCond newCond ) { if ( newCond != cond ) { NotificationChain msgs = null ; if ( cond != null ) msgs = ( ( InternalEObject ) cond ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . META_SQL__COND , null , msgs ) ; if ( newCond != null ) msgs = ( ( InternalEObject ) newCond ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . META_SQL__COND , null , msgs ) ; msgs = basicSetCond ( newCond , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__COND , newCond , newCond ) ) ; } public String getFtype ( ) { return ftype ; } public void setFtype ( String newFtype ) { String oldFtype = ftype ; ftype = newFtype ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__FTYPE , oldFtype , ftype ) ) ; } public OrdSql getOrd ( ) { return ord ; } public NotificationChain basicSetOrd ( OrdSql newOrd , NotificationChain msgs ) { OrdSql oldOrd = ord ; ord = newOrd ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__ORD , oldOrd , newOrd ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setOrd ( OrdSql newOrd ) { if ( newOrd != ord ) { NotificationChain msgs = null ; if ( ord != null ) msgs = ( ( InternalEObject ) ord ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . META_SQL__ORD , null , msgs ) ; if ( newOrd != null ) msgs = ( ( InternalEObject ) newOrd ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . META_SQL__ORD , null , msgs ) ; msgs = basicSetOrd ( newOrd , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . META_SQL__ORD , newOrd , newOrd ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . META_SQL__IFS : return ( ( InternalEList < ? > ) getIfs ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . META_SQL__COND : return basicSetCond ( null , msgs ) ; case ProcessorDslPackage . META_SQL__ORD : return basicSetOrd ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . META_SQL__IFS : return getIfs ( ) ; case ProcessorDslPackage . META_SQL__TYPE : return getType ( ) ; case ProcessorDslPackage . META_SQL__COND : return getCond ( ) ; case ProcessorDslPackage . META_SQL__FTYPE : return getFtype ( ) ; case ProcessorDslPackage . META_SQL__ORD : return getOrd ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . META_SQL__IFS : getIfs ( ) . clear ( ) ; getIfs ( ) . addAll ( ( Collection < ? extends IfSql > ) newValue ) ; return ; case ProcessorDslPackage . META_SQL__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . META_SQL__COND : setCond ( ( IfSqlCond ) newValue ) ; return ; case ProcessorDslPackage . META_SQL__FTYPE : setFtype ( ( String ) newValue ) ; return ; case ProcessorDslPackage . META_SQL__ORD : setOrd ( ( OrdSql ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . META_SQL__IFS : getIfs ( ) . clear ( ) ; return ; case ProcessorDslPackage . META_SQL__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . META_SQL__COND : setCond ( ( IfSqlCond ) null ) ; return ; case ProcessorDslPackage . META_SQL__FTYPE : setFtype ( FTYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . META_SQL__ORD : setOrd ( ( OrdSql ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . META_SQL__IFS : return ifs != null && ! ifs . isEmpty ( ) ; case ProcessorDslPackage . META_SQL__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . META_SQL__COND : return cond != null ; case ProcessorDslPackage . META_SQL__FTYPE : return FTYPE_EDEFAULT == null ? ftype != null : ! FTYPE_EDEFAULT . equals ( ftype ) ; case ProcessorDslPackage . META_SQL__ORD : return ord != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( "<STR_LIT>" ) ; result . append ( ftype ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . DatabaseProperty ; import org . sqlproc . dsl . processorDsl . PojogenProperty ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . Property ; public class PropertyImpl extends MinimalEObjectImpl . Container implements Property { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected DatabaseProperty database ; protected PojogenProperty pojogen ; protected PropertyImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . PROPERTY ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PROPERTY__NAME , oldName , name ) ) ; } public DatabaseProperty getDatabase ( ) { return database ; } public NotificationChain basicSetDatabase ( DatabaseProperty newDatabase , NotificationChain msgs ) { DatabaseProperty oldDatabase = database ; database = newDatabase ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PROPERTY__DATABASE , oldDatabase , newDatabase ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setDatabase ( DatabaseProperty newDatabase ) { if ( newDatabase != database ) { NotificationChain msgs = null ; if ( database != null ) msgs = ( ( InternalEObject ) database ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . PROPERTY__DATABASE , null , msgs ) ; if ( newDatabase != null ) msgs = ( ( InternalEObject ) newDatabase ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . PROPERTY__DATABASE , null , msgs ) ; msgs = basicSetDatabase ( newDatabase , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PROPERTY__DATABASE , newDatabase , newDatabase ) ) ; } public PojogenProperty getPojogen ( ) { return pojogen ; } public NotificationChain basicSetPojogen ( PojogenProperty newPojogen , NotificationChain msgs ) { PojogenProperty oldPojogen = pojogen ; pojogen = newPojogen ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PROPERTY__POJOGEN , oldPojogen , newPojogen ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setPojogen ( PojogenProperty newPojogen ) { if ( newPojogen != pojogen ) { NotificationChain msgs = null ; if ( pojogen != null ) msgs = ( ( InternalEObject ) pojogen ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . PROPERTY__POJOGEN , null , msgs ) ; if ( newPojogen != null ) msgs = ( ( InternalEObject ) newPojogen ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . PROPERTY__POJOGEN , null , msgs ) ; msgs = basicSetPojogen ( newPojogen , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . PROPERTY__POJOGEN , newPojogen , newPojogen ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . PROPERTY__DATABASE : return basicSetDatabase ( null , msgs ) ; case ProcessorDslPackage . PROPERTY__POJOGEN : return basicSetPojogen ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . PROPERTY__NAME : return getName ( ) ; case ProcessorDslPackage . PROPERTY__DATABASE : return getDatabase ( ) ; case ProcessorDslPackage . PROPERTY__POJOGEN : return getPojogen ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . PROPERTY__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . PROPERTY__DATABASE : setDatabase ( ( DatabaseProperty ) newValue ) ; return ; case ProcessorDslPackage . PROPERTY__POJOGEN : setPojogen ( ( PojogenProperty ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . PROPERTY__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . PROPERTY__DATABASE : setDatabase ( ( DatabaseProperty ) null ) ; return ; case ProcessorDslPackage . PROPERTY__POJOGEN : setPojogen ( ( PojogenProperty ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . PROPERTY__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . PROPERTY__DATABASE : return database != null ; case ProcessorDslPackage . PROPERTY__POJOGEN : return pojogen != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . AbstractPojoEntity ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class AbstractPojoEntityImpl extends MinimalEObjectImpl . Container implements AbstractPojoEntity { protected AbstractPojoEntityImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . ABSTRACT_POJO_ENTITY ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . IfSqlBool ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IfSqlBoolImpl extends MinimalEObjectImpl . Container implements IfSqlBool { protected static final boolean NOT_EDEFAULT = false ; protected boolean not = NOT_EDEFAULT ; protected Constant cnst ; protected Identifier ident ; protected IfSqlCond cond ; protected IfSqlBoolImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IF_SQL_BOOL ; } public boolean isNot ( ) { return not ; } public void setNot ( boolean newNot ) { boolean oldNot = not ; not = newNot ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__NOT , oldNot , not ) ) ; } public Constant getCnst ( ) { return cnst ; } public NotificationChain basicSetCnst ( Constant newCnst , NotificationChain msgs ) { Constant oldCnst = cnst ; cnst = newCnst ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__CNST , oldCnst , newCnst ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCnst ( Constant newCnst ) { if ( newCnst != cnst ) { NotificationChain msgs = null ; if ( cnst != null ) msgs = ( ( InternalEObject ) cnst ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__CNST , null , msgs ) ; if ( newCnst != null ) msgs = ( ( InternalEObject ) newCnst ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__CNST , null , msgs ) ; msgs = basicSetCnst ( newCnst , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__CNST , newCnst , newCnst ) ) ; } public Identifier getIdent ( ) { return ident ; } public NotificationChain basicSetIdent ( Identifier newIdent , NotificationChain msgs ) { Identifier oldIdent = ident ; ident = newIdent ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__IDENT , oldIdent , newIdent ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setIdent ( Identifier newIdent ) { if ( newIdent != ident ) { NotificationChain msgs = null ; if ( ident != null ) msgs = ( ( InternalEObject ) ident ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__IDENT , null , msgs ) ; if ( newIdent != null ) msgs = ( ( InternalEObject ) newIdent ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__IDENT , null , msgs ) ; msgs = basicSetIdent ( newIdent , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__IDENT , newIdent , newIdent ) ) ; } public IfSqlCond getCond ( ) { return cond ; } public NotificationChain basicSetCond ( IfSqlCond newCond , NotificationChain msgs ) { IfSqlCond oldCond = cond ; cond = newCond ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__COND , oldCond , newCond ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCond ( IfSqlCond newCond ) { if ( newCond != cond ) { NotificationChain msgs = null ; if ( cond != null ) msgs = ( ( InternalEObject ) cond ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__COND , null , msgs ) ; if ( newCond != null ) msgs = ( ( InternalEObject ) newCond ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_BOOL__COND , null , msgs ) ; msgs = basicSetCond ( newCond , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_BOOL__COND , newCond , newCond ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_BOOL__CNST : return basicSetCnst ( null , msgs ) ; case ProcessorDslPackage . IF_SQL_BOOL__IDENT : return basicSetIdent ( null , msgs ) ; case ProcessorDslPackage . IF_SQL_BOOL__COND : return basicSetCond ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_BOOL__NOT : return isNot ( ) ; case ProcessorDslPackage . IF_SQL_BOOL__CNST : return getCnst ( ) ; case ProcessorDslPackage . IF_SQL_BOOL__IDENT : return getIdent ( ) ; case ProcessorDslPackage . IF_SQL_BOOL__COND : return getCond ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_BOOL__NOT : setNot ( ( Boolean ) newValue ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__CNST : setCnst ( ( Constant ) newValue ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__IDENT : setIdent ( ( Identifier ) newValue ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__COND : setCond ( ( IfSqlCond ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_BOOL__NOT : setNot ( NOT_EDEFAULT ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__CNST : setCnst ( ( Constant ) null ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__IDENT : setIdent ( ( Identifier ) null ) ; return ; case ProcessorDslPackage . IF_SQL_BOOL__COND : setCond ( ( IfSqlCond ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_BOOL__NOT : return not != NOT_EDEFAULT ; case ProcessorDslPackage . IF_SQL_BOOL__CNST : return cnst != null ; case ProcessorDslPackage . IF_SQL_BOOL__IDENT : return ident != null ; case ProcessorDslPackage . IF_SQL_BOOL__COND : return cond != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( not ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . IfMetaSql ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IfMetaSqlImpl extends MinimalEObjectImpl . Container implements IfMetaSql { protected EList < IfSql > ifs ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected IfSqlCond cond ; protected IfMetaSqlImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IF_META_SQL ; } public EList < IfSql > getIfs ( ) { if ( ifs == null ) { ifs = new EObjectContainmentEList < IfSql > ( IfSql . class , this , ProcessorDslPackage . IF_META_SQL__IFS ) ; } return ifs ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_META_SQL__TYPE , oldType , type ) ) ; } public IfSqlCond getCond ( ) { return cond ; } public NotificationChain basicSetCond ( IfSqlCond newCond , NotificationChain msgs ) { IfSqlCond oldCond = cond ; cond = newCond ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_META_SQL__COND , oldCond , newCond ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCond ( IfSqlCond newCond ) { if ( newCond != cond ) { NotificationChain msgs = null ; if ( cond != null ) msgs = ( ( InternalEObject ) cond ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_META_SQL__COND , null , msgs ) ; if ( newCond != null ) msgs = ( ( InternalEObject ) newCond ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_META_SQL__COND , null , msgs ) ; msgs = basicSetCond ( newCond , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_META_SQL__COND , newCond , newCond ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . IF_META_SQL__IFS : return ( ( InternalEList < ? > ) getIfs ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . IF_META_SQL__COND : return basicSetCond ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IF_META_SQL__IFS : return getIfs ( ) ; case ProcessorDslPackage . IF_META_SQL__TYPE : return getType ( ) ; case ProcessorDslPackage . IF_META_SQL__COND : return getCond ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IF_META_SQL__IFS : getIfs ( ) . clear ( ) ; getIfs ( ) . addAll ( ( Collection < ? extends IfSql > ) newValue ) ; return ; case ProcessorDslPackage . IF_META_SQL__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . IF_META_SQL__COND : setCond ( ( IfSqlCond ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_META_SQL__IFS : getIfs ( ) . clear ( ) ; return ; case ProcessorDslPackage . IF_META_SQL__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . IF_META_SQL__COND : setCond ( ( IfSqlCond ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_META_SQL__IFS : return ifs != null && ! ifs . isEmpty ( ) ; case ProcessorDslPackage . IF_META_SQL__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . IF_META_SQL__COND : return cond != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . sqlproc . dsl . processorDsl . OptionalFeature ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class OptionalFeatureImpl extends MinimalEObjectImpl . Container implements OptionalFeature { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected EList < String > filters ; protected static final String OPTION_EDEFAULT = null ; protected String option = OPTION_EDEFAULT ; protected OptionalFeatureImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . OPTIONAL_FEATURE ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . OPTIONAL_FEATURE__NAME , oldName , name ) ) ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . OPTIONAL_FEATURE__TYPE , oldType , type ) ) ; } public EList < String > getFilters ( ) { if ( filters == null ) { filters = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . OPTIONAL_FEATURE__FILTERS ) ; } return filters ; } public String getOption ( ) { return option ; } public void setOption ( String newOption ) { String oldOption = option ; option = newOption ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . OPTIONAL_FEATURE__OPTION , oldOption , option ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . OPTIONAL_FEATURE__NAME : return getName ( ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__TYPE : return getType ( ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__FILTERS : return getFilters ( ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__OPTION : return getOption ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . OPTIONAL_FEATURE__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__TYPE : setType ( ( String ) newValue ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__FILTERS : getFilters ( ) . clear ( ) ; getFilters ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__OPTION : setOption ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . OPTIONAL_FEATURE__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__TYPE : setType ( TYPE_EDEFAULT ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__FILTERS : getFilters ( ) . clear ( ) ; return ; case ProcessorDslPackage . OPTIONAL_FEATURE__OPTION : setOption ( OPTION_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . OPTIONAL_FEATURE__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__FILTERS : return filters != null && ! filters . isEmpty ( ) ; case ProcessorDslPackage . OPTIONAL_FEATURE__OPTION : return OPTION_EDEFAULT == null ? option != null : ! OPTION_EDEFAULT . equals ( option ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( "<STR_LIT>" ) ; result . append ( filters ) ; result . append ( "<STR_LIT>" ) ; result . append ( option ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . DatabaseTable ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class DatabaseTableImpl extends MinimalEObjectImpl . Container implements DatabaseTable { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected DatabaseTableImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . DATABASE_TABLE ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_TABLE__NAME , oldName , name ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_TABLE__NAME : return getName ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_TABLE__NAME : setName ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_TABLE__NAME : setName ( NAME_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_TABLE__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . Import ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ImportImpl extends AbstractPojoEntityImpl implements Import { protected static final String IMPORTED_NAMESPACE_EDEFAULT = null ; protected String importedNamespace = IMPORTED_NAMESPACE_EDEFAULT ; protected ImportImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IMPORT ; } public String getImportedNamespace ( ) { return importedNamespace ; } public void setImportedNamespace ( String newImportedNamespace ) { String oldImportedNamespace = importedNamespace ; importedNamespace = newImportedNamespace ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IMPORT__IMPORTED_NAMESPACE , oldImportedNamespace , importedNamespace ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT__IMPORTED_NAMESPACE : return getImportedNamespace ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT__IMPORTED_NAMESPACE : setImportedNamespace ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT__IMPORTED_NAMESPACE : setImportedNamespace ( IMPORTED_NAMESPACE_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT__IMPORTED_NAMESPACE : return IMPORTED_NAMESPACE_EDEFAULT == null ? importedNamespace != null : ! IMPORTED_NAMESPACE_EDEFAULT . equals ( importedNamespace ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( importedNamespace ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . DatabaseProperty ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class DatabasePropertyImpl extends MinimalEObjectImpl . Container implements DatabaseProperty { protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected static final String DB_URL_EDEFAULT = null ; protected String dbUrl = DB_URL_EDEFAULT ; protected static final String DB_USERNAME_EDEFAULT = null ; protected String dbUsername = DB_USERNAME_EDEFAULT ; protected static final String DB_PASSWORD_EDEFAULT = null ; protected String dbPassword = DB_PASSWORD_EDEFAULT ; protected static final String DB_SCHEMA_EDEFAULT = null ; protected String dbSchema = DB_SCHEMA_EDEFAULT ; protected static final String DB_DRIVER_EDEFAULT = null ; protected String dbDriver = DB_DRIVER_EDEFAULT ; protected DatabasePropertyImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . DATABASE_PROPERTY ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__NAME , oldName , name ) ) ; } public String getDbUrl ( ) { return dbUrl ; } public void setDbUrl ( String newDbUrl ) { String oldDbUrl = dbUrl ; dbUrl = newDbUrl ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__DB_URL , oldDbUrl , dbUrl ) ) ; } public String getDbUsername ( ) { return dbUsername ; } public void setDbUsername ( String newDbUsername ) { String oldDbUsername = dbUsername ; dbUsername = newDbUsername ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__DB_USERNAME , oldDbUsername , dbUsername ) ) ; } public String getDbPassword ( ) { return dbPassword ; } public void setDbPassword ( String newDbPassword ) { String oldDbPassword = dbPassword ; dbPassword = newDbPassword ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__DB_PASSWORD , oldDbPassword , dbPassword ) ) ; } public String getDbSchema ( ) { return dbSchema ; } public void setDbSchema ( String newDbSchema ) { String oldDbSchema = dbSchema ; dbSchema = newDbSchema ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__DB_SCHEMA , oldDbSchema , dbSchema ) ) ; } public String getDbDriver ( ) { return dbDriver ; } public void setDbDriver ( String newDbDriver ) { String oldDbDriver = dbDriver ; dbDriver = newDbDriver ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . DATABASE_PROPERTY__DB_DRIVER , oldDbDriver , dbDriver ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_PROPERTY__NAME : return getName ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_URL : return getDbUrl ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_USERNAME : return getDbUsername ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_PASSWORD : return getDbPassword ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_SCHEMA : return getDbSchema ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_DRIVER : return getDbDriver ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_PROPERTY__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_URL : setDbUrl ( ( String ) newValue ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_USERNAME : setDbUsername ( ( String ) newValue ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_PASSWORD : setDbPassword ( ( String ) newValue ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_SCHEMA : setDbSchema ( ( String ) newValue ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_DRIVER : setDbDriver ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_PROPERTY__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_URL : setDbUrl ( DB_URL_EDEFAULT ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_USERNAME : setDbUsername ( DB_USERNAME_EDEFAULT ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_PASSWORD : setDbPassword ( DB_PASSWORD_EDEFAULT ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_SCHEMA : setDbSchema ( DB_SCHEMA_EDEFAULT ) ; return ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_DRIVER : setDbDriver ( DB_DRIVER_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . DATABASE_PROPERTY__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_URL : return DB_URL_EDEFAULT == null ? dbUrl != null : ! DB_URL_EDEFAULT . equals ( dbUrl ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_USERNAME : return DB_USERNAME_EDEFAULT == null ? dbUsername != null : ! DB_USERNAME_EDEFAULT . equals ( dbUsername ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_PASSWORD : return DB_PASSWORD_EDEFAULT == null ? dbPassword != null : ! DB_PASSWORD_EDEFAULT . equals ( dbPassword ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_SCHEMA : return DB_SCHEMA_EDEFAULT == null ? dbSchema != null : ! DB_SCHEMA_EDEFAULT . equals ( dbSchema ) ; case ProcessorDslPackage . DATABASE_PROPERTY__DB_DRIVER : return DB_DRIVER_EDEFAULT == null ? dbDriver != null : ! DB_DRIVER_EDEFAULT . equals ( dbDriver ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbUrl ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbUsername ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbPassword ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbSchema ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbDriver ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier1 ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier2 ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoEntityImpl extends AbstractPojoEntityImpl implements PojoEntity { protected EList < PojoEntityModifier1 > modifiers1 ; protected static final String NAME_EDEFAULT = null ; protected String name = NAME_EDEFAULT ; protected EList < PojoEntityModifier2 > modifiers2 ; protected EList < PojoProperty > features ; protected PojoEntityImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_ENTITY ; } public EList < PojoEntityModifier1 > getModifiers1 ( ) { if ( modifiers1 == null ) { modifiers1 = new EObjectContainmentEList < PojoEntityModifier1 > ( PojoEntityModifier1 . class , this , ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 ) ; } return modifiers1 ; } public String getName ( ) { return name ; } public void setName ( String newName ) { String oldName = name ; name = newName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY__NAME , oldName , name ) ) ; } public EList < PojoEntityModifier2 > getModifiers2 ( ) { if ( modifiers2 == null ) { modifiers2 = new EObjectContainmentEList < PojoEntityModifier2 > ( PojoEntityModifier2 . class , this , ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 ) ; } return modifiers2 ; } public EList < PojoProperty > getFeatures ( ) { if ( features == null ) { features = new EObjectContainmentEList < PojoProperty > ( PojoProperty . class , this , ProcessorDslPackage . POJO_ENTITY__FEATURES ) ; } return features ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 : return ( ( InternalEList < ? > ) getModifiers1 ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 : return ( ( InternalEList < ? > ) getModifiers2 ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . POJO_ENTITY__FEATURES : return ( ( InternalEList < ? > ) getFeatures ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 : return getModifiers1 ( ) ; case ProcessorDslPackage . POJO_ENTITY__NAME : return getName ( ) ; case ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 : return getModifiers2 ( ) ; case ProcessorDslPackage . POJO_ENTITY__FEATURES : return getFeatures ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 : getModifiers1 ( ) . clear ( ) ; getModifiers1 ( ) . addAll ( ( Collection < ? extends PojoEntityModifier1 > ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY__NAME : setName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 : getModifiers2 ( ) . clear ( ) ; getModifiers2 ( ) . addAll ( ( Collection < ? extends PojoEntityModifier2 > ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY__FEATURES : getFeatures ( ) . clear ( ) ; getFeatures ( ) . addAll ( ( Collection < ? extends PojoProperty > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 : getModifiers1 ( ) . clear ( ) ; return ; case ProcessorDslPackage . POJO_ENTITY__NAME : setName ( NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 : getModifiers2 ( ) . clear ( ) ; return ; case ProcessorDslPackage . POJO_ENTITY__FEATURES : getFeatures ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY__MODIFIERS1 : return modifiers1 != null && ! modifiers1 . isEmpty ( ) ; case ProcessorDslPackage . POJO_ENTITY__NAME : return NAME_EDEFAULT == null ? name != null : ! NAME_EDEFAULT . equals ( name ) ; case ProcessorDslPackage . POJO_ENTITY__MODIFIERS2 : return modifiers2 != null && ! modifiers2 . isEmpty ( ) ; case ProcessorDslPackage . POJO_ENTITY__FEATURES : return features != null && ! features . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( name ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . xtext . common . types . JvmType ; import org . sqlproc . dsl . processorDsl . Extends ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ExtendsImpl extends AbstractPojoEntityImpl implements Extends { protected JvmType extends_ ; protected ExtendsImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . EXTENDS ; } public JvmType getExtends ( ) { if ( extends_ != null && extends_ . eIsProxy ( ) ) { InternalEObject oldExtends = ( InternalEObject ) extends_ ; extends_ = ( JvmType ) eResolveProxy ( oldExtends ) ; if ( extends_ != oldExtends ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . EXTENDS__EXTENDS , oldExtends , extends_ ) ) ; } } return extends_ ; } public JvmType basicGetExtends ( ) { return extends_ ; } public void setExtends ( JvmType newExtends ) { JvmType oldExtends = extends_ ; extends_ = newExtends ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . EXTENDS__EXTENDS , oldExtends , extends_ ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . EXTENDS__EXTENDS : if ( resolve ) return getExtends ( ) ; return basicGetExtends ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . EXTENDS__EXTENDS : setExtends ( ( JvmType ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . EXTENDS__EXTENDS : setExtends ( ( JvmType ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . EXTENDS__EXTENDS : return extends_ != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . emf . ecore . EPackage ; import org . eclipse . emf . ecore . impl . EFactoryImpl ; import org . eclipse . emf . ecore . plugin . EcorePlugin ; import org . sqlproc . dsl . processorDsl . * ; public class ProcessorDslFactoryImpl extends EFactoryImpl implements ProcessorDslFactory { public static ProcessorDslFactory init ( ) { try { ProcessorDslFactory theProcessorDslFactory = ( ProcessorDslFactory ) EPackage . Registry . INSTANCE . getEFactory ( "<STR_LIT>" ) ; if ( theProcessorDslFactory != null ) { return theProcessorDslFactory ; } } catch ( Exception exception ) { EcorePlugin . INSTANCE . log ( exception ) ; } return new ProcessorDslFactoryImpl ( ) ; } public ProcessorDslFactoryImpl ( ) { super ( ) ; } @ Override public EObject create ( EClass eClass ) { switch ( eClass . getClassifierID ( ) ) { case ProcessorDslPackage . ARTIFACTS : return createArtifacts ( ) ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT : return createSqlTypeAssignement ( ) ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT : return createColumnTypeAssignement ( ) ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT : return createShowColumnTypeAssignement ( ) ; case ProcessorDslPackage . TABLE_ASSIGNEMENT : return createTableAssignement ( ) ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT : return createJoinTableAssignement ( ) ; case ProcessorDslPackage . COLUMN_ASSIGNEMENT : return createColumnAssignement ( ) ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT : return createImportAssignement ( ) ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT : return createExportAssignement ( ) ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT : return createInheritanceAssignement ( ) ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT : return createManyToManyAssignement ( ) ; case ProcessorDslPackage . PROPERTY : return createProperty ( ) ; case ProcessorDslPackage . DATABASE_PROPERTY : return createDatabaseProperty ( ) ; case ProcessorDslPackage . POJOGEN_PROPERTY : return createPojogenProperty ( ) ; case ProcessorDslPackage . POJO_DEFINITION : return createPojoDefinition ( ) ; case ProcessorDslPackage . POJO_USAGE : return createPojoUsage ( ) ; case ProcessorDslPackage . COLUMN_USAGE : return createColumnUsage ( ) ; case ProcessorDslPackage . IDENTIFIER_USAGE : return createIdentifierUsage ( ) ; case ProcessorDslPackage . CONSTANT_USAGE : return createConstantUsage ( ) ; case ProcessorDslPackage . MAPPING_USAGE : return createMappingUsage ( ) ; case ProcessorDslPackage . POJO_USAGE_EXT : return createPojoUsageExt ( ) ; case ProcessorDslPackage . COLUMN_USAGE_EXT : return createColumnUsageExt ( ) ; case ProcessorDslPackage . IDENTIFIER_USAGE_EXT : return createIdentifierUsageExt ( ) ; case ProcessorDslPackage . CONSTANT_USAGE_EXT : return createConstantUsageExt ( ) ; case ProcessorDslPackage . MAPPING_USAGE_EXT : return createMappingUsageExt ( ) ; case ProcessorDslPackage . TABLE_DEFINITION : return createTableDefinition ( ) ; case ProcessorDslPackage . TABLE_USAGE : return createTableUsage ( ) ; case ProcessorDslPackage . META_STATEMENT : return createMetaStatement ( ) ; case ProcessorDslPackage . SQL : return createSql ( ) ; case ProcessorDslPackage . SQL_FRAGMENT : return createSqlFragment ( ) ; case ProcessorDslPackage . META_SQL : return createMetaSql ( ) ; case ProcessorDslPackage . IF_SQL : return createIfSql ( ) ; case ProcessorDslPackage . IF_SQL_FRAGMENT : return createIfSqlFragment ( ) ; case ProcessorDslPackage . IF_META_SQL : return createIfMetaSql ( ) ; case ProcessorDslPackage . IF_SQL_COND : return createIfSqlCond ( ) ; case ProcessorDslPackage . IF_SQL_BOOL : return createIfSqlBool ( ) ; case ProcessorDslPackage . ORD_SQL : return createOrdSql ( ) ; case ProcessorDslPackage . ORD_SQL2 : return createOrdSql2 ( ) ; case ProcessorDslPackage . COLUMN : return createColumn ( ) ; case ProcessorDslPackage . CONSTANT : return createConstant ( ) ; case ProcessorDslPackage . IDENTIFIER : return createIdentifier ( ) ; case ProcessorDslPackage . DATABASE_COLUMN : return createDatabaseColumn ( ) ; case ProcessorDslPackage . DATABASE_TABLE : return createDatabaseTable ( ) ; case ProcessorDslPackage . MAPPING_RULE : return createMappingRule ( ) ; case ProcessorDslPackage . MAPPING : return createMapping ( ) ; case ProcessorDslPackage . MAPPING_ITEM : return createMappingItem ( ) ; case ProcessorDslPackage . MAPPING_COLUMN : return createMappingColumn ( ) ; case ProcessorDslPackage . OPTIONAL_FEATURE : return createOptionalFeature ( ) ; case ProcessorDslPackage . POJO_TYPE : return createPojoType ( ) ; case ProcessorDslPackage . PACKAGE_DECLARATION : return createPackageDeclaration ( ) ; case ProcessorDslPackage . ABSTRACT_POJO_ENTITY : return createAbstractPojoEntity ( ) ; case ProcessorDslPackage . IMPORT : return createImport ( ) ; case ProcessorDslPackage . IMPLEMENTS : return createImplements ( ) ; case ProcessorDslPackage . EXTENDS : return createExtends ( ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1 : return createPojoEntityModifier1 ( ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2 : return createPojoEntityModifier2 ( ) ; case ProcessorDslPackage . POJO_ENTITY : return createPojoEntity ( ) ; case ProcessorDslPackage . POJO_PROPERTY_MODIFIER : return createPojoPropertyModifier ( ) ; case ProcessorDslPackage . POJO_PROPERTY : return createPojoProperty ( ) ; default : throw new IllegalArgumentException ( "<STR_LIT>" + eClass . getName ( ) + "<STR_LIT>" ) ; } } public Artifacts createArtifacts ( ) { ArtifactsImpl artifacts = new ArtifactsImpl ( ) ; return artifacts ; } public SqlTypeAssignement createSqlTypeAssignement ( ) { SqlTypeAssignementImpl sqlTypeAssignement = new SqlTypeAssignementImpl ( ) ; return sqlTypeAssignement ; } public ColumnTypeAssignement createColumnTypeAssignement ( ) { ColumnTypeAssignementImpl columnTypeAssignement = new ColumnTypeAssignementImpl ( ) ; return columnTypeAssignement ; } public ShowColumnTypeAssignement createShowColumnTypeAssignement ( ) { ShowColumnTypeAssignementImpl showColumnTypeAssignement = new ShowColumnTypeAssignementImpl ( ) ; return showColumnTypeAssignement ; } public TableAssignement createTableAssignement ( ) { TableAssignementImpl tableAssignement = new TableAssignementImpl ( ) ; return tableAssignement ; } public JoinTableAssignement createJoinTableAssignement ( ) { JoinTableAssignementImpl joinTableAssignement = new JoinTableAssignementImpl ( ) ; return joinTableAssignement ; } public ColumnAssignement createColumnAssignement ( ) { ColumnAssignementImpl columnAssignement = new ColumnAssignementImpl ( ) ; return columnAssignement ; } public ImportAssignement createImportAssignement ( ) { ImportAssignementImpl importAssignement = new ImportAssignementImpl ( ) ; return importAssignement ; } public ExportAssignement createExportAssignement ( ) { ExportAssignementImpl exportAssignement = new ExportAssignementImpl ( ) ; return exportAssignement ; } public InheritanceAssignement createInheritanceAssignement ( ) { InheritanceAssignementImpl inheritanceAssignement = new InheritanceAssignementImpl ( ) ; return inheritanceAssignement ; } public ManyToManyAssignement createManyToManyAssignement ( ) { ManyToManyAssignementImpl manyToManyAssignement = new ManyToManyAssignementImpl ( ) ; return manyToManyAssignement ; } public Property createProperty ( ) { PropertyImpl property = new PropertyImpl ( ) ; return property ; } public DatabaseProperty createDatabaseProperty ( ) { DatabasePropertyImpl databaseProperty = new DatabasePropertyImpl ( ) ; return databaseProperty ; } public PojogenProperty createPojogenProperty ( ) { PojogenPropertyImpl pojogenProperty = new PojogenPropertyImpl ( ) ; return pojogenProperty ; } public PojoDefinition createPojoDefinition ( ) { PojoDefinitionImpl pojoDefinition = new PojoDefinitionImpl ( ) ; return pojoDefinition ; } public PojoUsage createPojoUsage ( ) { PojoUsageImpl pojoUsage = new PojoUsageImpl ( ) ; return pojoUsage ; } public ColumnUsage createColumnUsage ( ) { ColumnUsageImpl columnUsage = new ColumnUsageImpl ( ) ; return columnUsage ; } public IdentifierUsage createIdentifierUsage ( ) { IdentifierUsageImpl identifierUsage = new IdentifierUsageImpl ( ) ; return identifierUsage ; } public ConstantUsage createConstantUsage ( ) { ConstantUsageImpl constantUsage = new ConstantUsageImpl ( ) ; return constantUsage ; } public MappingUsage createMappingUsage ( ) { MappingUsageImpl mappingUsage = new MappingUsageImpl ( ) ; return mappingUsage ; } public PojoUsageExt createPojoUsageExt ( ) { PojoUsageExtImpl pojoUsageExt = new PojoUsageExtImpl ( ) ; return pojoUsageExt ; } public ColumnUsageExt createColumnUsageExt ( ) { ColumnUsageExtImpl columnUsageExt = new ColumnUsageExtImpl ( ) ; return columnUsageExt ; } public IdentifierUsageExt createIdentifierUsageExt ( ) { IdentifierUsageExtImpl identifierUsageExt = new IdentifierUsageExtImpl ( ) ; return identifierUsageExt ; } public ConstantUsageExt createConstantUsageExt ( ) { ConstantUsageExtImpl constantUsageExt = new ConstantUsageExtImpl ( ) ; return constantUsageExt ; } public MappingUsageExt createMappingUsageExt ( ) { MappingUsageExtImpl mappingUsageExt = new MappingUsageExtImpl ( ) ; return mappingUsageExt ; } public TableDefinition createTableDefinition ( ) { TableDefinitionImpl tableDefinition = new TableDefinitionImpl ( ) ; return tableDefinition ; } public TableUsage createTableUsage ( ) { TableUsageImpl tableUsage = new TableUsageImpl ( ) ; return tableUsage ; } public MetaStatement createMetaStatement ( ) { MetaStatementImpl metaStatement = new MetaStatementImpl ( ) ; return metaStatement ; } public Sql createSql ( ) { SqlImpl sql = new SqlImpl ( ) ; return sql ; } public SqlFragment createSqlFragment ( ) { SqlFragmentImpl sqlFragment = new SqlFragmentImpl ( ) ; return sqlFragment ; } public MetaSql createMetaSql ( ) { MetaSqlImpl metaSql = new MetaSqlImpl ( ) ; return metaSql ; } public IfSql createIfSql ( ) { IfSqlImpl ifSql = new IfSqlImpl ( ) ; return ifSql ; } public IfSqlFragment createIfSqlFragment ( ) { IfSqlFragmentImpl ifSqlFragment = new IfSqlFragmentImpl ( ) ; return ifSqlFragment ; } public IfMetaSql createIfMetaSql ( ) { IfMetaSqlImpl ifMetaSql = new IfMetaSqlImpl ( ) ; return ifMetaSql ; } public IfSqlCond createIfSqlCond ( ) { IfSqlCondImpl ifSqlCond = new IfSqlCondImpl ( ) ; return ifSqlCond ; } public IfSqlBool createIfSqlBool ( ) { IfSqlBoolImpl ifSqlBool = new IfSqlBoolImpl ( ) ; return ifSqlBool ; } public OrdSql createOrdSql ( ) { OrdSqlImpl ordSql = new OrdSqlImpl ( ) ; return ordSql ; } public OrdSql2 createOrdSql2 ( ) { OrdSql2Impl ordSql2 = new OrdSql2Impl ( ) ; return ordSql2 ; } public Column createColumn ( ) { ColumnImpl column = new ColumnImpl ( ) ; return column ; } public Constant createConstant ( ) { ConstantImpl constant = new ConstantImpl ( ) ; return constant ; } public Identifier createIdentifier ( ) { IdentifierImpl identifier = new IdentifierImpl ( ) ; return identifier ; } public DatabaseColumn createDatabaseColumn ( ) { DatabaseColumnImpl databaseColumn = new DatabaseColumnImpl ( ) ; return databaseColumn ; } public DatabaseTable createDatabaseTable ( ) { DatabaseTableImpl databaseTable = new DatabaseTableImpl ( ) ; return databaseTable ; } public MappingRule createMappingRule ( ) { MappingRuleImpl mappingRule = new MappingRuleImpl ( ) ; return mappingRule ; } public Mapping createMapping ( ) { MappingImpl mapping = new MappingImpl ( ) ; return mapping ; } public MappingItem createMappingItem ( ) { MappingItemImpl mappingItem = new MappingItemImpl ( ) ; return mappingItem ; } public MappingColumn createMappingColumn ( ) { MappingColumnImpl mappingColumn = new MappingColumnImpl ( ) ; return mappingColumn ; } public OptionalFeature createOptionalFeature ( ) { OptionalFeatureImpl optionalFeature = new OptionalFeatureImpl ( ) ; return optionalFeature ; } public PojoType createPojoType ( ) { PojoTypeImpl pojoType = new PojoTypeImpl ( ) ; return pojoType ; } public PackageDeclaration createPackageDeclaration ( ) { PackageDeclarationImpl packageDeclaration = new PackageDeclarationImpl ( ) ; return packageDeclaration ; } public AbstractPojoEntity createAbstractPojoEntity ( ) { AbstractPojoEntityImpl abstractPojoEntity = new AbstractPojoEntityImpl ( ) ; return abstractPojoEntity ; } public Import createImport ( ) { ImportImpl import_ = new ImportImpl ( ) ; return import_ ; } public Implements createImplements ( ) { ImplementsImpl implements_ = new ImplementsImpl ( ) ; return implements_ ; } public Extends createExtends ( ) { ExtendsImpl extends_ = new ExtendsImpl ( ) ; return extends_ ; } public PojoEntityModifier1 createPojoEntityModifier1 ( ) { PojoEntityModifier1Impl pojoEntityModifier1 = new PojoEntityModifier1Impl ( ) ; return pojoEntityModifier1 ; } public PojoEntityModifier2 createPojoEntityModifier2 ( ) { PojoEntityModifier2Impl pojoEntityModifier2 = new PojoEntityModifier2Impl ( ) ; return pojoEntityModifier2 ; } public PojoEntity createPojoEntity ( ) { PojoEntityImpl pojoEntity = new PojoEntityImpl ( ) ; return pojoEntity ; } public PojoPropertyModifier createPojoPropertyModifier ( ) { PojoPropertyModifierImpl pojoPropertyModifier = new PojoPropertyModifierImpl ( ) ; return pojoPropertyModifier ; } public PojoProperty createPojoProperty ( ) { PojoPropertyImpl pojoProperty = new PojoPropertyImpl ( ) ; return pojoProperty ; } public ProcessorDslPackage getProcessorDslPackage ( ) { return ( ProcessorDslPackage ) getEPackage ( ) ; } @ Deprecated public static ProcessorDslPackage getPackage ( ) { return ProcessorDslPackage . eINSTANCE ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . ExportAssignement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ExportAssignementImpl extends MinimalEObjectImpl . Container implements ExportAssignement { protected static final String DB_COLUMN_EDEFAULT = null ; protected String dbColumn = DB_COLUMN_EDEFAULT ; protected static final String FK_TABLE_EDEFAULT = null ; protected String fkTable = FK_TABLE_EDEFAULT ; protected static final String FK_COLUMN_EDEFAULT = null ; protected String fkColumn = FK_COLUMN_EDEFAULT ; protected ExportAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . EXPORT_ASSIGNEMENT ; } public String getDbColumn ( ) { return dbColumn ; } public void setDbColumn ( String newDbColumn ) { String oldDbColumn = dbColumn ; dbColumn = newDbColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . EXPORT_ASSIGNEMENT__DB_COLUMN , oldDbColumn , dbColumn ) ) ; } public String getFkTable ( ) { return fkTable ; } public void setFkTable ( String newFkTable ) { String oldFkTable = fkTable ; fkTable = newFkTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_TABLE , oldFkTable , fkTable ) ) ; } public String getFkColumn ( ) { return fkColumn ; } public void setFkColumn ( String newFkColumn ) { String oldFkColumn = fkColumn ; fkColumn = newFkColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_COLUMN , oldFkColumn , fkColumn ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . EXPORT_ASSIGNEMENT__DB_COLUMN : return getDbColumn ( ) ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_TABLE : return getFkTable ( ) ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_COLUMN : return getFkColumn ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . EXPORT_ASSIGNEMENT__DB_COLUMN : setDbColumn ( ( String ) newValue ) ; return ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_TABLE : setFkTable ( ( String ) newValue ) ; return ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_COLUMN : setFkColumn ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . EXPORT_ASSIGNEMENT__DB_COLUMN : setDbColumn ( DB_COLUMN_EDEFAULT ) ; return ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_TABLE : setFkTable ( FK_TABLE_EDEFAULT ) ; return ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_COLUMN : setFkColumn ( FK_COLUMN_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . EXPORT_ASSIGNEMENT__DB_COLUMN : return DB_COLUMN_EDEFAULT == null ? dbColumn != null : ! DB_COLUMN_EDEFAULT . equals ( dbColumn ) ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_TABLE : return FK_TABLE_EDEFAULT == null ? fkTable != null : ! FK_TABLE_EDEFAULT . equals ( fkTable ) ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT__FK_COLUMN : return FK_COLUMN_EDEFAULT == null ? fkColumn != null : ! FK_COLUMN_EDEFAULT . equals ( fkColumn ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbColumn ) ; result . append ( "<STR_LIT>" ) ; result . append ( fkTable ) ; result . append ( "<STR_LIT>" ) ; result . append ( fkColumn ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . sqlproc . dsl . processorDsl . InheritanceAssignement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class InheritanceAssignementImpl extends MinimalEObjectImpl . Container implements InheritanceAssignement { protected static final String DISCRIMINATOR_EDEFAULT = null ; protected String discriminator = DISCRIMINATOR_EDEFAULT ; protected static final String DB_TABLE_EDEFAULT = null ; protected String dbTable = DB_TABLE_EDEFAULT ; protected EList < String > dbColumns ; protected InheritanceAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . INHERITANCE_ASSIGNEMENT ; } public String getDiscriminator ( ) { return discriminator ; } public void setDiscriminator ( String newDiscriminator ) { String oldDiscriminator = discriminator ; discriminator = newDiscriminator ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DISCRIMINATOR , oldDiscriminator , discriminator ) ) ; } public String getDbTable ( ) { return dbTable ; } public void setDbTable ( String newDbTable ) { String oldDbTable = dbTable ; dbTable = newDbTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_TABLE , oldDbTable , dbTable ) ) ; } public EList < String > getDbColumns ( ) { if ( dbColumns == null ) { dbColumns = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_COLUMNS ) ; } return dbColumns ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DISCRIMINATOR : return getDiscriminator ( ) ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_TABLE : return getDbTable ( ) ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_COLUMNS : return getDbColumns ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DISCRIMINATOR : setDiscriminator ( ( String ) newValue ) ; return ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_TABLE : setDbTable ( ( String ) newValue ) ; return ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_COLUMNS : getDbColumns ( ) . clear ( ) ; getDbColumns ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DISCRIMINATOR : setDiscriminator ( DISCRIMINATOR_EDEFAULT ) ; return ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_TABLE : setDbTable ( DB_TABLE_EDEFAULT ) ; return ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_COLUMNS : getDbColumns ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DISCRIMINATOR : return DISCRIMINATOR_EDEFAULT == null ? discriminator != null : ! DISCRIMINATOR_EDEFAULT . equals ( discriminator ) ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_TABLE : return DB_TABLE_EDEFAULT == null ? dbTable != null : ! DB_TABLE_EDEFAULT . equals ( dbTable ) ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT__DB_COLUMNS : return dbColumns != null && ! dbColumns . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( discriminator ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbTable ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbColumns ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . PojoType ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . SqlTypeAssignement ; public class SqlTypeAssignementImpl extends MinimalEObjectImpl . Container implements SqlTypeAssignement { protected static final String TYPE_NAME_EDEFAULT = null ; protected String typeName = TYPE_NAME_EDEFAULT ; protected static final String SIZE_EDEFAULT = null ; protected String size = SIZE_EDEFAULT ; protected PojoType type ; protected SqlTypeAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . SQL_TYPE_ASSIGNEMENT ; } public String getTypeName ( ) { return typeName ; } public void setTypeName ( String newTypeName ) { String oldTypeName = typeName ; typeName = newTypeName ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE_NAME , oldTypeName , typeName ) ) ; } public String getSize ( ) { return size ; } public void setSize ( String newSize ) { String oldSize = size ; size = newSize ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__SIZE , oldSize , size ) ) ; } public PojoType getType ( ) { return type ; } public NotificationChain basicSetType ( PojoType newType , NotificationChain msgs ) { PojoType oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE , oldType , newType ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setType ( PojoType newType ) { if ( newType != type ) { NotificationChain msgs = null ; if ( type != null ) msgs = ( ( InternalEObject ) type ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE , null , msgs ) ; if ( newType != null ) msgs = ( ( InternalEObject ) newType ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE , null , msgs ) ; msgs = basicSetType ( newType , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE , newType , newType ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE : return basicSetType ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE_NAME : return getTypeName ( ) ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__SIZE : return getSize ( ) ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE : return getType ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE_NAME : setTypeName ( ( String ) newValue ) ; return ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__SIZE : setSize ( ( String ) newValue ) ; return ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE : setType ( ( PojoType ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE_NAME : setTypeName ( TYPE_NAME_EDEFAULT ) ; return ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__SIZE : setSize ( SIZE_EDEFAULT ) ; return ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE : setType ( ( PojoType ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE_NAME : return TYPE_NAME_EDEFAULT == null ? typeName != null : ! TYPE_NAME_EDEFAULT . equals ( typeName ) ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__SIZE : return SIZE_EDEFAULT == null ? size != null : ! SIZE_EDEFAULT . equals ( size ) ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT__TYPE : return type != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( typeName ) ; result . append ( "<STR_LIT>" ) ; result . append ( size ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . TableDefinition ; import org . sqlproc . dsl . processorDsl . TableUsage ; public class TableUsageImpl extends MinimalEObjectImpl . Container implements TableUsage { protected MetaStatement statement ; protected TableDefinition table ; protected static final String PREFIX_EDEFAULT = null ; protected String prefix = PREFIX_EDEFAULT ; protected TableUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . TABLE_USAGE ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . TABLE_USAGE__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . TABLE_USAGE__STATEMENT , oldStatement , statement ) ) ; } public TableDefinition getTable ( ) { if ( table != null && table . eIsProxy ( ) ) { InternalEObject oldTable = ( InternalEObject ) table ; table = ( TableDefinition ) eResolveProxy ( oldTable ) ; if ( table != oldTable ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . TABLE_USAGE__TABLE , oldTable , table ) ) ; } } return table ; } public TableDefinition basicGetTable ( ) { return table ; } public void setTable ( TableDefinition newTable ) { TableDefinition oldTable = table ; table = newTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . TABLE_USAGE__TABLE , oldTable , table ) ) ; } public String getPrefix ( ) { return prefix ; } public void setPrefix ( String newPrefix ) { String oldPrefix = prefix ; prefix = newPrefix ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . TABLE_USAGE__PREFIX , oldPrefix , prefix ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . TABLE_USAGE__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; case ProcessorDslPackage . TABLE_USAGE__TABLE : if ( resolve ) return getTable ( ) ; return basicGetTable ( ) ; case ProcessorDslPackage . TABLE_USAGE__PREFIX : return getPrefix ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . TABLE_USAGE__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; case ProcessorDslPackage . TABLE_USAGE__TABLE : setTable ( ( TableDefinition ) newValue ) ; return ; case ProcessorDslPackage . TABLE_USAGE__PREFIX : setPrefix ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . TABLE_USAGE__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; case ProcessorDslPackage . TABLE_USAGE__TABLE : setTable ( ( TableDefinition ) null ) ; return ; case ProcessorDslPackage . TABLE_USAGE__PREFIX : setPrefix ( PREFIX_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . TABLE_USAGE__STATEMENT : return statement != null ; case ProcessorDslPackage . TABLE_USAGE__TABLE : return table != null ; case ProcessorDslPackage . TABLE_USAGE__PREFIX : return PREFIX_EDEFAULT == null ? prefix != null : ! PREFIX_EDEFAULT . equals ( prefix ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( prefix ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . ShowColumnTypeAssignement ; public class ShowColumnTypeAssignementImpl extends MinimalEObjectImpl . Container implements ShowColumnTypeAssignement { protected static final String DB_COLUMN_EDEFAULT = null ; protected String dbColumn = DB_COLUMN_EDEFAULT ; protected static final String TYPE_EDEFAULT = null ; protected String type = TYPE_EDEFAULT ; protected ShowColumnTypeAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . SHOW_COLUMN_TYPE_ASSIGNEMENT ; } public String getDbColumn ( ) { return dbColumn ; } public void setDbColumn ( String newDbColumn ) { String oldDbColumn = dbColumn ; dbColumn = newDbColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN , oldDbColumn , dbColumn ) ) ; } public String getType ( ) { return type ; } public void setType ( String newType ) { String oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE , oldType , type ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : return getDbColumn ( ) ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE : return getType ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : setDbColumn ( ( String ) newValue ) ; return ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE : setType ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : setDbColumn ( DB_COLUMN_EDEFAULT ) ; return ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE : setType ( TYPE_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : return DB_COLUMN_EDEFAULT == null ? dbColumn != null : ! DB_COLUMN_EDEFAULT . equals ( dbColumn ) ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE : return TYPE_EDEFAULT == null ? type != null : ! TYPE_EDEFAULT . equals ( type ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbColumn ) ; result . append ( "<STR_LIT>" ) ; result . append ( type ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . ImportAssignement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ImportAssignementImpl extends MinimalEObjectImpl . Container implements ImportAssignement { protected static final String DB_COLUMN_EDEFAULT = null ; protected String dbColumn = DB_COLUMN_EDEFAULT ; protected static final String PK_TABLE_EDEFAULT = null ; protected String pkTable = PK_TABLE_EDEFAULT ; protected static final String PK_COLUMN_EDEFAULT = null ; protected String pkColumn = PK_COLUMN_EDEFAULT ; protected ImportAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IMPORT_ASSIGNEMENT ; } public String getDbColumn ( ) { return dbColumn ; } public void setDbColumn ( String newDbColumn ) { String oldDbColumn = dbColumn ; dbColumn = newDbColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IMPORT_ASSIGNEMENT__DB_COLUMN , oldDbColumn , dbColumn ) ) ; } public String getPkTable ( ) { return pkTable ; } public void setPkTable ( String newPkTable ) { String oldPkTable = pkTable ; pkTable = newPkTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_TABLE , oldPkTable , pkTable ) ) ; } public String getPkColumn ( ) { return pkColumn ; } public void setPkColumn ( String newPkColumn ) { String oldPkColumn = pkColumn ; pkColumn = newPkColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_COLUMN , oldPkColumn , pkColumn ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT_ASSIGNEMENT__DB_COLUMN : return getDbColumn ( ) ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_TABLE : return getPkTable ( ) ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_COLUMN : return getPkColumn ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT_ASSIGNEMENT__DB_COLUMN : setDbColumn ( ( String ) newValue ) ; return ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_TABLE : setPkTable ( ( String ) newValue ) ; return ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_COLUMN : setPkColumn ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT_ASSIGNEMENT__DB_COLUMN : setDbColumn ( DB_COLUMN_EDEFAULT ) ; return ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_TABLE : setPkTable ( PK_TABLE_EDEFAULT ) ; return ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_COLUMN : setPkColumn ( PK_COLUMN_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IMPORT_ASSIGNEMENT__DB_COLUMN : return DB_COLUMN_EDEFAULT == null ? dbColumn != null : ! DB_COLUMN_EDEFAULT . equals ( dbColumn ) ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_TABLE : return PK_TABLE_EDEFAULT == null ? pkTable != null : ! PK_TABLE_EDEFAULT . equals ( pkTable ) ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT__PK_COLUMN : return PK_COLUMN_EDEFAULT == null ? pkColumn != null : ! PK_COLUMN_EDEFAULT . equals ( pkColumn ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbColumn ) ; result . append ( "<STR_LIT>" ) ; result . append ( pkTable ) ; result . append ( "<STR_LIT>" ) ; result . append ( pkColumn ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . PojoDefinition ; import org . sqlproc . dsl . processorDsl . PojoUsage ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoUsageImpl extends MinimalEObjectImpl . Container implements PojoUsage { protected PojoDefinition pojo ; protected PojoUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_USAGE ; } public PojoDefinition getPojo ( ) { if ( pojo != null && pojo . eIsProxy ( ) ) { InternalEObject oldPojo = ( InternalEObject ) pojo ; pojo = ( PojoDefinition ) eResolveProxy ( oldPojo ) ; if ( pojo != oldPojo ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_USAGE__POJO , oldPojo , pojo ) ) ; } } return pojo ; } public PojoDefinition basicGetPojo ( ) { return pojo ; } public void setPojo ( PojoDefinition newPojo ) { PojoDefinition oldPojo = pojo ; pojo = newPojo ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_USAGE__POJO , oldPojo , pojo ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE__POJO : if ( resolve ) return getPojo ( ) ; return basicGetPojo ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE__POJO : setPojo ( ( PojoDefinition ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE__POJO : setPojo ( ( PojoDefinition ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_USAGE__POJO : return pojo != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . ConstantUsageExt ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ConstantUsageExtImpl extends PojoUsageExtImpl implements ConstantUsageExt { protected MetaStatement statement ; protected ConstantUsageExtImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . CONSTANT_USAGE_EXT ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE_EXT__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . IfSqlBool ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IfSqlCondImpl extends MinimalEObjectImpl . Container implements IfSqlCond { protected IfSqlBool bool1 ; protected EList < String > oper ; protected EList < IfSqlBool > bool2 ; protected IfSqlCondImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IF_SQL_COND ; } public IfSqlBool getBool1 ( ) { return bool1 ; } public NotificationChain basicSetBool1 ( IfSqlBool newBool1 , NotificationChain msgs ) { IfSqlBool oldBool1 = bool1 ; bool1 = newBool1 ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_COND__BOOL1 , oldBool1 , newBool1 ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setBool1 ( IfSqlBool newBool1 ) { if ( newBool1 != bool1 ) { NotificationChain msgs = null ; if ( bool1 != null ) msgs = ( ( InternalEObject ) bool1 ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_COND__BOOL1 , null , msgs ) ; if ( newBool1 != null ) msgs = ( ( InternalEObject ) newBool1 ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . IF_SQL_COND__BOOL1 , null , msgs ) ; msgs = basicSetBool1 ( newBool1 , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . IF_SQL_COND__BOOL1 , newBool1 , newBool1 ) ) ; } public EList < String > getOper ( ) { if ( oper == null ) { oper = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . IF_SQL_COND__OPER ) ; } return oper ; } public EList < IfSqlBool > getBool2 ( ) { if ( bool2 == null ) { bool2 = new EObjectContainmentEList < IfSqlBool > ( IfSqlBool . class , this , ProcessorDslPackage . IF_SQL_COND__BOOL2 ) ; } return bool2 ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_COND__BOOL1 : return basicSetBool1 ( null , msgs ) ; case ProcessorDslPackage . IF_SQL_COND__BOOL2 : return ( ( InternalEList < ? > ) getBool2 ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_COND__BOOL1 : return getBool1 ( ) ; case ProcessorDslPackage . IF_SQL_COND__OPER : return getOper ( ) ; case ProcessorDslPackage . IF_SQL_COND__BOOL2 : return getBool2 ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_COND__BOOL1 : setBool1 ( ( IfSqlBool ) newValue ) ; return ; case ProcessorDslPackage . IF_SQL_COND__OPER : getOper ( ) . clear ( ) ; getOper ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; case ProcessorDslPackage . IF_SQL_COND__BOOL2 : getBool2 ( ) . clear ( ) ; getBool2 ( ) . addAll ( ( Collection < ? extends IfSqlBool > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_COND__BOOL1 : setBool1 ( ( IfSqlBool ) null ) ; return ; case ProcessorDslPackage . IF_SQL_COND__OPER : getOper ( ) . clear ( ) ; return ; case ProcessorDslPackage . IF_SQL_COND__BOOL2 : getBool2 ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL_COND__BOOL1 : return bool1 != null ; case ProcessorDslPackage . IF_SQL_COND__OPER : return oper != null && ! oper . isEmpty ( ) ; case ProcessorDslPackage . IF_SQL_COND__BOOL2 : return bool2 != null && ! bool2 . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( oper ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . ColumnUsage ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ColumnUsageImpl extends PojoUsageImpl implements ColumnUsage { protected MetaStatement statement ; protected ColumnUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . COLUMN_USAGE ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . COLUMN_USAGE__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN_USAGE__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_USAGE__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . OptionalFeature ; import org . sqlproc . dsl . processorDsl . PackageDeclaration ; import org . sqlproc . dsl . processorDsl . PojoDefinition ; import org . sqlproc . dsl . processorDsl . PojoUsage ; import org . sqlproc . dsl . processorDsl . PojoUsageExt ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . Property ; import org . sqlproc . dsl . processorDsl . TableDefinition ; import org . sqlproc . dsl . processorDsl . TableUsage ; public class ArtifactsImpl extends MinimalEObjectImpl . Container implements Artifacts { protected EList < OptionalFeature > features ; protected EList < MetaStatement > statements ; protected EList < MappingRule > mappings ; protected EList < PojoDefinition > pojos ; protected EList < PojoUsage > usages ; protected EList < Property > properties ; protected EList < TableDefinition > tables ; protected EList < TableUsage > tableUsages ; protected EList < PackageDeclaration > pojoPackages ; protected EList < PojoUsageExt > usagesExt ; protected ArtifactsImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . ARTIFACTS ; } public EList < OptionalFeature > getFeatures ( ) { if ( features == null ) { features = new EObjectContainmentEList < OptionalFeature > ( OptionalFeature . class , this , ProcessorDslPackage . ARTIFACTS__FEATURES ) ; } return features ; } public EList < MetaStatement > getStatements ( ) { if ( statements == null ) { statements = new EObjectContainmentEList < MetaStatement > ( MetaStatement . class , this , ProcessorDslPackage . ARTIFACTS__STATEMENTS ) ; } return statements ; } public EList < MappingRule > getMappings ( ) { if ( mappings == null ) { mappings = new EObjectContainmentEList < MappingRule > ( MappingRule . class , this , ProcessorDslPackage . ARTIFACTS__MAPPINGS ) ; } return mappings ; } public EList < PojoDefinition > getPojos ( ) { if ( pojos == null ) { pojos = new EObjectContainmentEList < PojoDefinition > ( PojoDefinition . class , this , ProcessorDslPackage . ARTIFACTS__POJOS ) ; } return pojos ; } public EList < PojoUsage > getUsages ( ) { if ( usages == null ) { usages = new EObjectContainmentEList < PojoUsage > ( PojoUsage . class , this , ProcessorDslPackage . ARTIFACTS__USAGES ) ; } return usages ; } public EList < Property > getProperties ( ) { if ( properties == null ) { properties = new EObjectContainmentEList < Property > ( Property . class , this , ProcessorDslPackage . ARTIFACTS__PROPERTIES ) ; } return properties ; } public EList < TableDefinition > getTables ( ) { if ( tables == null ) { tables = new EObjectContainmentEList < TableDefinition > ( TableDefinition . class , this , ProcessorDslPackage . ARTIFACTS__TABLES ) ; } return tables ; } public EList < TableUsage > getTableUsages ( ) { if ( tableUsages == null ) { tableUsages = new EObjectContainmentEList < TableUsage > ( TableUsage . class , this , ProcessorDslPackage . ARTIFACTS__TABLE_USAGES ) ; } return tableUsages ; } public EList < PackageDeclaration > getPojoPackages ( ) { if ( pojoPackages == null ) { pojoPackages = new EObjectContainmentEList < PackageDeclaration > ( PackageDeclaration . class , this , ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES ) ; } return pojoPackages ; } public EList < PojoUsageExt > getUsagesExt ( ) { if ( usagesExt == null ) { usagesExt = new EObjectContainmentEList < PojoUsageExt > ( PojoUsageExt . class , this , ProcessorDslPackage . ARTIFACTS__USAGES_EXT ) ; } return usagesExt ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . ARTIFACTS__FEATURES : return ( ( InternalEList < ? > ) getFeatures ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__STATEMENTS : return ( ( InternalEList < ? > ) getStatements ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__MAPPINGS : return ( ( InternalEList < ? > ) getMappings ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__POJOS : return ( ( InternalEList < ? > ) getPojos ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__USAGES : return ( ( InternalEList < ? > ) getUsages ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__PROPERTIES : return ( ( InternalEList < ? > ) getProperties ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__TABLES : return ( ( InternalEList < ? > ) getTables ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__TABLE_USAGES : return ( ( InternalEList < ? > ) getTableUsages ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES : return ( ( InternalEList < ? > ) getPojoPackages ( ) ) . basicRemove ( otherEnd , msgs ) ; case ProcessorDslPackage . ARTIFACTS__USAGES_EXT : return ( ( InternalEList < ? > ) getUsagesExt ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . ARTIFACTS__FEATURES : return getFeatures ( ) ; case ProcessorDslPackage . ARTIFACTS__STATEMENTS : return getStatements ( ) ; case ProcessorDslPackage . ARTIFACTS__MAPPINGS : return getMappings ( ) ; case ProcessorDslPackage . ARTIFACTS__POJOS : return getPojos ( ) ; case ProcessorDslPackage . ARTIFACTS__USAGES : return getUsages ( ) ; case ProcessorDslPackage . ARTIFACTS__PROPERTIES : return getProperties ( ) ; case ProcessorDslPackage . ARTIFACTS__TABLES : return getTables ( ) ; case ProcessorDslPackage . ARTIFACTS__TABLE_USAGES : return getTableUsages ( ) ; case ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES : return getPojoPackages ( ) ; case ProcessorDslPackage . ARTIFACTS__USAGES_EXT : return getUsagesExt ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . ARTIFACTS__FEATURES : getFeatures ( ) . clear ( ) ; getFeatures ( ) . addAll ( ( Collection < ? extends OptionalFeature > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__STATEMENTS : getStatements ( ) . clear ( ) ; getStatements ( ) . addAll ( ( Collection < ? extends MetaStatement > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__MAPPINGS : getMappings ( ) . clear ( ) ; getMappings ( ) . addAll ( ( Collection < ? extends MappingRule > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__POJOS : getPojos ( ) . clear ( ) ; getPojos ( ) . addAll ( ( Collection < ? extends PojoDefinition > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__USAGES : getUsages ( ) . clear ( ) ; getUsages ( ) . addAll ( ( Collection < ? extends PojoUsage > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__PROPERTIES : getProperties ( ) . clear ( ) ; getProperties ( ) . addAll ( ( Collection < ? extends Property > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__TABLES : getTables ( ) . clear ( ) ; getTables ( ) . addAll ( ( Collection < ? extends TableDefinition > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__TABLE_USAGES : getTableUsages ( ) . clear ( ) ; getTableUsages ( ) . addAll ( ( Collection < ? extends TableUsage > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES : getPojoPackages ( ) . clear ( ) ; getPojoPackages ( ) . addAll ( ( Collection < ? extends PackageDeclaration > ) newValue ) ; return ; case ProcessorDslPackage . ARTIFACTS__USAGES_EXT : getUsagesExt ( ) . clear ( ) ; getUsagesExt ( ) . addAll ( ( Collection < ? extends PojoUsageExt > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . ARTIFACTS__FEATURES : getFeatures ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__STATEMENTS : getStatements ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__MAPPINGS : getMappings ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__POJOS : getPojos ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__USAGES : getUsages ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__PROPERTIES : getProperties ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__TABLES : getTables ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__TABLE_USAGES : getTableUsages ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES : getPojoPackages ( ) . clear ( ) ; return ; case ProcessorDslPackage . ARTIFACTS__USAGES_EXT : getUsagesExt ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . ARTIFACTS__FEATURES : return features != null && ! features . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__STATEMENTS : return statements != null && ! statements . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__MAPPINGS : return mappings != null && ! mappings . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__POJOS : return pojos != null && ! pojos . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__USAGES : return usages != null && ! usages . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__PROPERTIES : return properties != null && ! properties . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__TABLES : return tables != null && ! tables . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__TABLE_USAGES : return tableUsages != null && ! tableUsages . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__POJO_PACKAGES : return pojoPackages != null && ! pojoPackages . isEmpty ( ) ; case ProcessorDslPackage . ARTIFACTS__USAGES_EXT : return usagesExt != null && ! usagesExt . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . ManyToManyAssignement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ManyToManyAssignementImpl extends MinimalEObjectImpl . Container implements ManyToManyAssignement { protected static final String PK_COLUMN_EDEFAULT = null ; protected String pkColumn = PK_COLUMN_EDEFAULT ; protected static final String PK_TABLE_EDEFAULT = null ; protected String pkTable = PK_TABLE_EDEFAULT ; protected static final String FK_COLUMN_EDEFAULT = null ; protected String fkColumn = FK_COLUMN_EDEFAULT ; protected ManyToManyAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . MANY_TO_MANY_ASSIGNEMENT ; } public String getPkColumn ( ) { return pkColumn ; } public void setPkColumn ( String newPkColumn ) { String oldPkColumn = pkColumn ; pkColumn = newPkColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN , oldPkColumn , pkColumn ) ) ; } public String getPkTable ( ) { return pkTable ; } public void setPkTable ( String newPkTable ) { String oldPkTable = pkTable ; pkTable = newPkTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_TABLE , oldPkTable , pkTable ) ) ; } public String getFkColumn ( ) { return fkColumn ; } public void setFkColumn ( String newFkColumn ) { String oldFkColumn = fkColumn ; fkColumn = newFkColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN , oldFkColumn , fkColumn ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN : return getPkColumn ( ) ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_TABLE : return getPkTable ( ) ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN : return getFkColumn ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN : setPkColumn ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_TABLE : setPkTable ( ( String ) newValue ) ; return ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN : setFkColumn ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN : setPkColumn ( PK_COLUMN_EDEFAULT ) ; return ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_TABLE : setPkTable ( PK_TABLE_EDEFAULT ) ; return ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN : setFkColumn ( FK_COLUMN_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_COLUMN : return PK_COLUMN_EDEFAULT == null ? pkColumn != null : ! PK_COLUMN_EDEFAULT . equals ( pkColumn ) ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__PK_TABLE : return PK_TABLE_EDEFAULT == null ? pkTable != null : ! PK_TABLE_EDEFAULT . equals ( pkTable ) ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT__FK_COLUMN : return FK_COLUMN_EDEFAULT == null ? fkColumn != null : ! FK_COLUMN_EDEFAULT . equals ( fkColumn ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( pkColumn ) ; result . append ( "<STR_LIT>" ) ; result . append ( pkTable ) ; result . append ( "<STR_LIT>" ) ; result . append ( fkColumn ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . OrdSql2 ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class OrdSql2Impl extends MinimalEObjectImpl . Container implements OrdSql2 { protected static final String VALUE_EDEFAULT = null ; protected String value = VALUE_EDEFAULT ; protected Constant cnst ; protected Identifier ident ; protected DatabaseColumn dbcol ; protected OrdSql2Impl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . ORD_SQL2 ; } public String getValue ( ) { return value ; } public void setValue ( String newValue ) { String oldValue = value ; value = newValue ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__VALUE , oldValue , value ) ) ; } public Constant getCnst ( ) { return cnst ; } public NotificationChain basicSetCnst ( Constant newCnst , NotificationChain msgs ) { Constant oldCnst = cnst ; cnst = newCnst ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__CNST , oldCnst , newCnst ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCnst ( Constant newCnst ) { if ( newCnst != cnst ) { NotificationChain msgs = null ; if ( cnst != null ) msgs = ( ( InternalEObject ) cnst ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__CNST , null , msgs ) ; if ( newCnst != null ) msgs = ( ( InternalEObject ) newCnst ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__CNST , null , msgs ) ; msgs = basicSetCnst ( newCnst , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__CNST , newCnst , newCnst ) ) ; } public Identifier getIdent ( ) { return ident ; } public NotificationChain basicSetIdent ( Identifier newIdent , NotificationChain msgs ) { Identifier oldIdent = ident ; ident = newIdent ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__IDENT , oldIdent , newIdent ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setIdent ( Identifier newIdent ) { if ( newIdent != ident ) { NotificationChain msgs = null ; if ( ident != null ) msgs = ( ( InternalEObject ) ident ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__IDENT , null , msgs ) ; if ( newIdent != null ) msgs = ( ( InternalEObject ) newIdent ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__IDENT , null , msgs ) ; msgs = basicSetIdent ( newIdent , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__IDENT , newIdent , newIdent ) ) ; } public DatabaseColumn getDbcol ( ) { return dbcol ; } public NotificationChain basicSetDbcol ( DatabaseColumn newDbcol , NotificationChain msgs ) { DatabaseColumn oldDbcol = dbcol ; dbcol = newDbcol ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__DBCOL , oldDbcol , newDbcol ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setDbcol ( DatabaseColumn newDbcol ) { if ( newDbcol != dbcol ) { NotificationChain msgs = null ; if ( dbcol != null ) msgs = ( ( InternalEObject ) dbcol ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__DBCOL , null , msgs ) ; if ( newDbcol != null ) msgs = ( ( InternalEObject ) newDbcol ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . ORD_SQL2__DBCOL , null , msgs ) ; msgs = basicSetDbcol ( newDbcol , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . ORD_SQL2__DBCOL , newDbcol , newDbcol ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . ORD_SQL2__CNST : return basicSetCnst ( null , msgs ) ; case ProcessorDslPackage . ORD_SQL2__IDENT : return basicSetIdent ( null , msgs ) ; case ProcessorDslPackage . ORD_SQL2__DBCOL : return basicSetDbcol ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . ORD_SQL2__VALUE : return getValue ( ) ; case ProcessorDslPackage . ORD_SQL2__CNST : return getCnst ( ) ; case ProcessorDslPackage . ORD_SQL2__IDENT : return getIdent ( ) ; case ProcessorDslPackage . ORD_SQL2__DBCOL : return getDbcol ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . ORD_SQL2__VALUE : setValue ( ( String ) newValue ) ; return ; case ProcessorDslPackage . ORD_SQL2__CNST : setCnst ( ( Constant ) newValue ) ; return ; case ProcessorDslPackage . ORD_SQL2__IDENT : setIdent ( ( Identifier ) newValue ) ; return ; case ProcessorDslPackage . ORD_SQL2__DBCOL : setDbcol ( ( DatabaseColumn ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . ORD_SQL2__VALUE : setValue ( VALUE_EDEFAULT ) ; return ; case ProcessorDslPackage . ORD_SQL2__CNST : setCnst ( ( Constant ) null ) ; return ; case ProcessorDslPackage . ORD_SQL2__IDENT : setIdent ( ( Identifier ) null ) ; return ; case ProcessorDslPackage . ORD_SQL2__DBCOL : setDbcol ( ( DatabaseColumn ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . ORD_SQL2__VALUE : return VALUE_EDEFAULT == null ? value != null : ! VALUE_EDEFAULT . equals ( value ) ; case ProcessorDslPackage . ORD_SQL2__CNST : return cnst != null ; case ProcessorDslPackage . ORD_SQL2__IDENT : return ident != null ; case ProcessorDslPackage . ORD_SQL2__DBCOL : return dbcol != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( value ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EDataTypeEList ; import org . sqlproc . dsl . processorDsl . JoinTableAssignement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class JoinTableAssignementImpl extends MinimalEObjectImpl . Container implements JoinTableAssignement { protected static final String DB_TABLE_EDEFAULT = null ; protected String dbTable = DB_TABLE_EDEFAULT ; protected EList < String > dbTables ; protected JoinTableAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . JOIN_TABLE_ASSIGNEMENT ; } public String getDbTable ( ) { return dbTable ; } public void setDbTable ( String newDbTable ) { String oldDbTable = dbTable ; dbTable = newDbTable ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLE , oldDbTable , dbTable ) ) ; } public EList < String > getDbTables ( ) { if ( dbTables == null ) { dbTables = new EDataTypeEList < String > ( String . class , this , ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLES ) ; } return dbTables ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLE : return getDbTable ( ) ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLES : return getDbTables ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLE : setDbTable ( ( String ) newValue ) ; return ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLES : getDbTables ( ) . clear ( ) ; getDbTables ( ) . addAll ( ( Collection < ? extends String > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLE : setDbTable ( DB_TABLE_EDEFAULT ) ; return ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLES : getDbTables ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLE : return DB_TABLE_EDEFAULT == null ? dbTable != null : ! DB_TABLE_EDEFAULT . equals ( dbTable ) ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT__DB_TABLES : return dbTables != null && ! dbTables . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbTable ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbTables ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . DatabaseTable ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . MetaSql ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . SqlFragment ; public class SqlFragmentImpl extends MinimalEObjectImpl . Container implements SqlFragment { protected static final String VALUE_EDEFAULT = null ; protected String value = VALUE_EDEFAULT ; protected Column col ; protected Constant cnst ; protected Identifier ident ; protected MetaSql meta ; protected DatabaseTable dbtab ; protected DatabaseColumn dbcol ; protected SqlFragmentImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . SQL_FRAGMENT ; } public String getValue ( ) { return value ; } public void setValue ( String newValue ) { String oldValue = value ; value = newValue ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__VALUE , oldValue , value ) ) ; } public Column getCol ( ) { return col ; } public NotificationChain basicSetCol ( Column newCol , NotificationChain msgs ) { Column oldCol = col ; col = newCol ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__COL , oldCol , newCol ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCol ( Column newCol ) { if ( newCol != col ) { NotificationChain msgs = null ; if ( col != null ) msgs = ( ( InternalEObject ) col ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__COL , null , msgs ) ; if ( newCol != null ) msgs = ( ( InternalEObject ) newCol ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__COL , null , msgs ) ; msgs = basicSetCol ( newCol , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__COL , newCol , newCol ) ) ; } public Constant getCnst ( ) { return cnst ; } public NotificationChain basicSetCnst ( Constant newCnst , NotificationChain msgs ) { Constant oldCnst = cnst ; cnst = newCnst ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__CNST , oldCnst , newCnst ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setCnst ( Constant newCnst ) { if ( newCnst != cnst ) { NotificationChain msgs = null ; if ( cnst != null ) msgs = ( ( InternalEObject ) cnst ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__CNST , null , msgs ) ; if ( newCnst != null ) msgs = ( ( InternalEObject ) newCnst ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__CNST , null , msgs ) ; msgs = basicSetCnst ( newCnst , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__CNST , newCnst , newCnst ) ) ; } public Identifier getIdent ( ) { return ident ; } public NotificationChain basicSetIdent ( Identifier newIdent , NotificationChain msgs ) { Identifier oldIdent = ident ; ident = newIdent ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__IDENT , oldIdent , newIdent ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setIdent ( Identifier newIdent ) { if ( newIdent != ident ) { NotificationChain msgs = null ; if ( ident != null ) msgs = ( ( InternalEObject ) ident ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__IDENT , null , msgs ) ; if ( newIdent != null ) msgs = ( ( InternalEObject ) newIdent ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__IDENT , null , msgs ) ; msgs = basicSetIdent ( newIdent , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__IDENT , newIdent , newIdent ) ) ; } public MetaSql getMeta ( ) { return meta ; } public NotificationChain basicSetMeta ( MetaSql newMeta , NotificationChain msgs ) { MetaSql oldMeta = meta ; meta = newMeta ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__META , oldMeta , newMeta ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setMeta ( MetaSql newMeta ) { if ( newMeta != meta ) { NotificationChain msgs = null ; if ( meta != null ) msgs = ( ( InternalEObject ) meta ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__META , null , msgs ) ; if ( newMeta != null ) msgs = ( ( InternalEObject ) newMeta ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__META , null , msgs ) ; msgs = basicSetMeta ( newMeta , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__META , newMeta , newMeta ) ) ; } public DatabaseTable getDbtab ( ) { return dbtab ; } public NotificationChain basicSetDbtab ( DatabaseTable newDbtab , NotificationChain msgs ) { DatabaseTable oldDbtab = dbtab ; dbtab = newDbtab ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__DBTAB , oldDbtab , newDbtab ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setDbtab ( DatabaseTable newDbtab ) { if ( newDbtab != dbtab ) { NotificationChain msgs = null ; if ( dbtab != null ) msgs = ( ( InternalEObject ) dbtab ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__DBTAB , null , msgs ) ; if ( newDbtab != null ) msgs = ( ( InternalEObject ) newDbtab ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__DBTAB , null , msgs ) ; msgs = basicSetDbtab ( newDbtab , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__DBTAB , newDbtab , newDbtab ) ) ; } public DatabaseColumn getDbcol ( ) { return dbcol ; } public NotificationChain basicSetDbcol ( DatabaseColumn newDbcol , NotificationChain msgs ) { DatabaseColumn oldDbcol = dbcol ; dbcol = newDbcol ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__DBCOL , oldDbcol , newDbcol ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setDbcol ( DatabaseColumn newDbcol ) { if ( newDbcol != dbcol ) { NotificationChain msgs = null ; if ( dbcol != null ) msgs = ( ( InternalEObject ) dbcol ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__DBCOL , null , msgs ) ; if ( newDbcol != null ) msgs = ( ( InternalEObject ) newDbcol ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . SQL_FRAGMENT__DBCOL , null , msgs ) ; msgs = basicSetDbcol ( newDbcol , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . SQL_FRAGMENT__DBCOL , newDbcol , newDbcol ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . SQL_FRAGMENT__COL : return basicSetCol ( null , msgs ) ; case ProcessorDslPackage . SQL_FRAGMENT__CNST : return basicSetCnst ( null , msgs ) ; case ProcessorDslPackage . SQL_FRAGMENT__IDENT : return basicSetIdent ( null , msgs ) ; case ProcessorDslPackage . SQL_FRAGMENT__META : return basicSetMeta ( null , msgs ) ; case ProcessorDslPackage . SQL_FRAGMENT__DBTAB : return basicSetDbtab ( null , msgs ) ; case ProcessorDslPackage . SQL_FRAGMENT__DBCOL : return basicSetDbcol ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . SQL_FRAGMENT__VALUE : return getValue ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__COL : return getCol ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__CNST : return getCnst ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__IDENT : return getIdent ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__META : return getMeta ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__DBTAB : return getDbtab ( ) ; case ProcessorDslPackage . SQL_FRAGMENT__DBCOL : return getDbcol ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . SQL_FRAGMENT__VALUE : setValue ( ( String ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__COL : setCol ( ( Column ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__CNST : setCnst ( ( Constant ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__IDENT : setIdent ( ( Identifier ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__META : setMeta ( ( MetaSql ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__DBTAB : setDbtab ( ( DatabaseTable ) newValue ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__DBCOL : setDbcol ( ( DatabaseColumn ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SQL_FRAGMENT__VALUE : setValue ( VALUE_EDEFAULT ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__COL : setCol ( ( Column ) null ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__CNST : setCnst ( ( Constant ) null ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__IDENT : setIdent ( ( Identifier ) null ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__META : setMeta ( ( MetaSql ) null ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__DBTAB : setDbtab ( ( DatabaseTable ) null ) ; return ; case ProcessorDslPackage . SQL_FRAGMENT__DBCOL : setDbcol ( ( DatabaseColumn ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . SQL_FRAGMENT__VALUE : return VALUE_EDEFAULT == null ? value != null : ! VALUE_EDEFAULT . equals ( value ) ; case ProcessorDslPackage . SQL_FRAGMENT__COL : return col != null ; case ProcessorDslPackage . SQL_FRAGMENT__CNST : return cnst != null ; case ProcessorDslPackage . SQL_FRAGMENT__IDENT : return ident != null ; case ProcessorDslPackage . SQL_FRAGMENT__META : return meta != null ; case ProcessorDslPackage . SQL_FRAGMENT__DBTAB : return dbtab != null ; case ProcessorDslPackage . SQL_FRAGMENT__DBCOL : return dbcol != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( value ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import java . util . Collection ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . emf . ecore . util . EObjectContainmentEList ; import org . eclipse . emf . ecore . util . InternalEList ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlFragment ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class IfSqlImpl extends MinimalEObjectImpl . Container implements IfSql { protected EList < IfSqlFragment > sqls ; protected IfSqlImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . IF_SQL ; } public EList < IfSqlFragment > getSqls ( ) { if ( sqls == null ) { sqls = new EObjectContainmentEList < IfSqlFragment > ( IfSqlFragment . class , this , ProcessorDslPackage . IF_SQL__SQLS ) ; } return sqls ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL__SQLS : return ( ( InternalEList < ? > ) getSqls ( ) ) . basicRemove ( otherEnd , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL__SQLS : return getSqls ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ SuppressWarnings ( "<STR_LIT:unchecked>" ) @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL__SQLS : getSqls ( ) . clear ( ) ; getSqls ( ) . addAll ( ( Collection < ? extends IfSqlFragment > ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL__SQLS : getSqls ( ) . clear ( ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . IF_SQL__SQLS : return sqls != null && ! sqls . isEmpty ( ) ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . eclipse . xtext . common . types . JvmType ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoType ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoTypeImpl extends MinimalEObjectImpl . Container implements PojoType { protected static final String NATIVE_EDEFAULT = null ; protected String native_ = NATIVE_EDEFAULT ; protected PojoEntity ref ; protected JvmType type ; protected PojoEntity gref ; protected JvmType gtype ; protected static final boolean ARRAY_EDEFAULT = false ; protected boolean array = ARRAY_EDEFAULT ; protected PojoTypeImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_TYPE ; } public String getNative ( ) { return native_ ; } public void setNative ( String newNative ) { String oldNative = native_ ; native_ = newNative ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__NATIVE , oldNative , native_ ) ) ; } public PojoEntity getRef ( ) { if ( ref != null && ref . eIsProxy ( ) ) { InternalEObject oldRef = ( InternalEObject ) ref ; ref = ( PojoEntity ) eResolveProxy ( oldRef ) ; if ( ref != oldRef ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_TYPE__REF , oldRef , ref ) ) ; } } return ref ; } public PojoEntity basicGetRef ( ) { return ref ; } public void setRef ( PojoEntity newRef ) { PojoEntity oldRef = ref ; ref = newRef ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__REF , oldRef , ref ) ) ; } public JvmType getType ( ) { if ( type != null && type . eIsProxy ( ) ) { InternalEObject oldType = ( InternalEObject ) type ; type = ( JvmType ) eResolveProxy ( oldType ) ; if ( type != oldType ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_TYPE__TYPE , oldType , type ) ) ; } } return type ; } public JvmType basicGetType ( ) { return type ; } public void setType ( JvmType newType ) { JvmType oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__TYPE , oldType , type ) ) ; } public PojoEntity getGref ( ) { if ( gref != null && gref . eIsProxy ( ) ) { InternalEObject oldGref = ( InternalEObject ) gref ; gref = ( PojoEntity ) eResolveProxy ( oldGref ) ; if ( gref != oldGref ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_TYPE__GREF , oldGref , gref ) ) ; } } return gref ; } public PojoEntity basicGetGref ( ) { return gref ; } public void setGref ( PojoEntity newGref ) { PojoEntity oldGref = gref ; gref = newGref ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__GREF , oldGref , gref ) ) ; } public JvmType getGtype ( ) { if ( gtype != null && gtype . eIsProxy ( ) ) { InternalEObject oldGtype = ( InternalEObject ) gtype ; gtype = ( JvmType ) eResolveProxy ( oldGtype ) ; if ( gtype != oldGtype ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_TYPE__GTYPE , oldGtype , gtype ) ) ; } } return gtype ; } public JvmType basicGetGtype ( ) { return gtype ; } public void setGtype ( JvmType newGtype ) { JvmType oldGtype = gtype ; gtype = newGtype ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__GTYPE , oldGtype , gtype ) ) ; } public boolean isArray ( ) { return array ; } public void setArray ( boolean newArray ) { boolean oldArray = array ; array = newArray ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_TYPE__ARRAY , oldArray , array ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_TYPE__NATIVE : return getNative ( ) ; case ProcessorDslPackage . POJO_TYPE__REF : if ( resolve ) return getRef ( ) ; return basicGetRef ( ) ; case ProcessorDslPackage . POJO_TYPE__TYPE : if ( resolve ) return getType ( ) ; return basicGetType ( ) ; case ProcessorDslPackage . POJO_TYPE__GREF : if ( resolve ) return getGref ( ) ; return basicGetGref ( ) ; case ProcessorDslPackage . POJO_TYPE__GTYPE : if ( resolve ) return getGtype ( ) ; return basicGetGtype ( ) ; case ProcessorDslPackage . POJO_TYPE__ARRAY : return isArray ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_TYPE__NATIVE : setNative ( ( String ) newValue ) ; return ; case ProcessorDslPackage . POJO_TYPE__REF : setRef ( ( PojoEntity ) newValue ) ; return ; case ProcessorDslPackage . POJO_TYPE__TYPE : setType ( ( JvmType ) newValue ) ; return ; case ProcessorDslPackage . POJO_TYPE__GREF : setGref ( ( PojoEntity ) newValue ) ; return ; case ProcessorDslPackage . POJO_TYPE__GTYPE : setGtype ( ( JvmType ) newValue ) ; return ; case ProcessorDslPackage . POJO_TYPE__ARRAY : setArray ( ( Boolean ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_TYPE__NATIVE : setNative ( NATIVE_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_TYPE__REF : setRef ( ( PojoEntity ) null ) ; return ; case ProcessorDslPackage . POJO_TYPE__TYPE : setType ( ( JvmType ) null ) ; return ; case ProcessorDslPackage . POJO_TYPE__GREF : setGref ( ( PojoEntity ) null ) ; return ; case ProcessorDslPackage . POJO_TYPE__GTYPE : setGtype ( ( JvmType ) null ) ; return ; case ProcessorDslPackage . POJO_TYPE__ARRAY : setArray ( ARRAY_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_TYPE__NATIVE : return NATIVE_EDEFAULT == null ? native_ != null : ! NATIVE_EDEFAULT . equals ( native_ ) ; case ProcessorDslPackage . POJO_TYPE__REF : return ref != null ; case ProcessorDslPackage . POJO_TYPE__TYPE : return type != null ; case ProcessorDslPackage . POJO_TYPE__GREF : return gref != null ; case ProcessorDslPackage . POJO_TYPE__GTYPE : return gtype != null ; case ProcessorDslPackage . POJO_TYPE__ARRAY : return array != ARRAY_EDEFAULT ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( native_ ) ; result . append ( "<STR_LIT>" ) ; result . append ( array ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . ConstantUsage ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ConstantUsageImpl extends PojoUsageImpl implements ConstantUsage { protected MetaStatement statement ; protected ConstantUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . CONSTANT_USAGE ; } public MetaStatement getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MetaStatement ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . CONSTANT_USAGE__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MetaStatement basicGetStatement ( ) { return statement ; } public void setStatement ( MetaStatement newStatement ) { MetaStatement oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . CONSTANT_USAGE__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE__STATEMENT : setStatement ( ( MetaStatement ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE__STATEMENT : setStatement ( ( MetaStatement ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . CONSTANT_USAGE__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . NotificationChain ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . ColumnTypeAssignement ; import org . sqlproc . dsl . processorDsl . PojoType ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class ColumnTypeAssignementImpl extends MinimalEObjectImpl . Container implements ColumnTypeAssignement { protected static final String DB_COLUMN_EDEFAULT = null ; protected String dbColumn = DB_COLUMN_EDEFAULT ; protected PojoType type ; protected ColumnTypeAssignementImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . COLUMN_TYPE_ASSIGNEMENT ; } public String getDbColumn ( ) { return dbColumn ; } public void setDbColumn ( String newDbColumn ) { String oldDbColumn = dbColumn ; dbColumn = newDbColumn ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN , oldDbColumn , dbColumn ) ) ; } public PojoType getType ( ) { return type ; } public NotificationChain basicSetType ( PojoType newType , NotificationChain msgs ) { PojoType oldType = type ; type = newType ; if ( eNotificationRequired ( ) ) { ENotificationImpl notification = new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE , oldType , newType ) ; if ( msgs == null ) msgs = notification ; else msgs . add ( notification ) ; } return msgs ; } public void setType ( PojoType newType ) { if ( newType != type ) { NotificationChain msgs = null ; if ( type != null ) msgs = ( ( InternalEObject ) type ) . eInverseRemove ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE , null , msgs ) ; if ( newType != null ) msgs = ( ( InternalEObject ) newType ) . eInverseAdd ( this , EOPPOSITE_FEATURE_BASE - ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE , null , msgs ) ; msgs = basicSetType ( newType , msgs ) ; if ( msgs != null ) msgs . dispatch ( ) ; } else if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE , newType , newType ) ) ; } @ Override public NotificationChain eInverseRemove ( InternalEObject otherEnd , int featureID , NotificationChain msgs ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE : return basicSetType ( null , msgs ) ; } return super . eInverseRemove ( otherEnd , featureID , msgs ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : return getDbColumn ( ) ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE : return getType ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : setDbColumn ( ( String ) newValue ) ; return ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE : setType ( ( PojoType ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : setDbColumn ( DB_COLUMN_EDEFAULT ) ; return ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE : setType ( ( PojoType ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN : return DB_COLUMN_EDEFAULT == null ? dbColumn != null : ! DB_COLUMN_EDEFAULT . equals ( dbColumn ) ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT__TYPE : return type != null ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( dbColumn ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier2 ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoEntityModifier2Impl extends MinimalEObjectImpl . Container implements PojoEntityModifier2 { protected PojoEntity superType ; protected static final String DISCRIMINATOR_EDEFAULT = null ; protected String discriminator = DISCRIMINATOR_EDEFAULT ; protected static final String SERNUM_EDEFAULT = null ; protected String sernum = SERNUM_EDEFAULT ; protected PojoEntityModifier2Impl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_ENTITY_MODIFIER2 ; } public PojoEntity getSuperType ( ) { if ( superType != null && superType . eIsProxy ( ) ) { InternalEObject oldSuperType = ( InternalEObject ) superType ; superType = ( PojoEntity ) eResolveProxy ( oldSuperType ) ; if ( superType != oldSuperType ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE , oldSuperType , superType ) ) ; } } return superType ; } public PojoEntity basicGetSuperType ( ) { return superType ; } public void setSuperType ( PojoEntity newSuperType ) { PojoEntity oldSuperType = superType ; superType = newSuperType ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE , oldSuperType , superType ) ) ; } public String getDiscriminator ( ) { return discriminator ; } public void setDiscriminator ( String newDiscriminator ) { String oldDiscriminator = discriminator ; discriminator = newDiscriminator ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY_MODIFIER2__DISCRIMINATOR , oldDiscriminator , discriminator ) ) ; } public String getSernum ( ) { return sernum ; } public void setSernum ( String newSernum ) { String oldSernum = sernum ; sernum = newSernum ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SERNUM , oldSernum , sernum ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE : if ( resolve ) return getSuperType ( ) ; return basicGetSuperType ( ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__DISCRIMINATOR : return getDiscriminator ( ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SERNUM : return getSernum ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE : setSuperType ( ( PojoEntity ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__DISCRIMINATOR : setDiscriminator ( ( String ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SERNUM : setSernum ( ( String ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE : setSuperType ( ( PojoEntity ) null ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__DISCRIMINATOR : setDiscriminator ( DISCRIMINATOR_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SERNUM : setSernum ( SERNUM_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SUPER_TYPE : return superType != null ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__DISCRIMINATOR : return DISCRIMINATOR_EDEFAULT == null ? discriminator != null : ! DISCRIMINATOR_EDEFAULT . equals ( discriminator ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2__SERNUM : return SERNUM_EDEFAULT == null ? sernum != null : ! SERNUM_EDEFAULT . equals ( sernum ) ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( discriminator ) ; result . append ( "<STR_LIT>" ) ; result . append ( sernum ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . InternalEObject ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MappingUsage ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class MappingUsageImpl extends PojoUsageImpl implements MappingUsage { protected MappingRule statement ; protected MappingUsageImpl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . MAPPING_USAGE ; } public MappingRule getStatement ( ) { if ( statement != null && statement . eIsProxy ( ) ) { InternalEObject oldStatement = ( InternalEObject ) statement ; statement = ( MappingRule ) eResolveProxy ( oldStatement ) ; if ( statement != oldStatement ) { if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . RESOLVE , ProcessorDslPackage . MAPPING_USAGE__STATEMENT , oldStatement , statement ) ) ; } } return statement ; } public MappingRule basicGetStatement ( ) { return statement ; } public void setStatement ( MappingRule newStatement ) { MappingRule oldStatement = statement ; statement = newStatement ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . MAPPING_USAGE__STATEMENT , oldStatement , statement ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_USAGE__STATEMENT : if ( resolve ) return getStatement ( ) ; return basicGetStatement ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_USAGE__STATEMENT : setStatement ( ( MappingRule ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_USAGE__STATEMENT : setStatement ( ( MappingRule ) null ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . MAPPING_USAGE__STATEMENT : return statement != null ; } return super . eIsSet ( featureID ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl . impl ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . ecore . EClass ; import org . eclipse . emf . ecore . impl . ENotificationImpl ; import org . eclipse . emf . ecore . impl . MinimalEObjectImpl ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier1 ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; public class PojoEntityModifier1Impl extends MinimalEObjectImpl . Container implements PojoEntityModifier1 { protected static final boolean FINAL_EDEFAULT = false ; protected boolean final_ = FINAL_EDEFAULT ; protected static final boolean ABSTRACT_EDEFAULT = false ; protected boolean abstract_ = ABSTRACT_EDEFAULT ; protected PojoEntityModifier1Impl ( ) { super ( ) ; } @ Override protected EClass eStaticClass ( ) { return ProcessorDslPackage . Literals . POJO_ENTITY_MODIFIER1 ; } public boolean isFinal ( ) { return final_ ; } public void setFinal ( boolean newFinal ) { boolean oldFinal = final_ ; final_ = newFinal ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY_MODIFIER1__FINAL , oldFinal , final_ ) ) ; } public boolean isAbstract ( ) { return abstract_ ; } public void setAbstract ( boolean newAbstract ) { boolean oldAbstract = abstract_ ; abstract_ = newAbstract ; if ( eNotificationRequired ( ) ) eNotify ( new ENotificationImpl ( this , Notification . SET , ProcessorDslPackage . POJO_ENTITY_MODIFIER1__ABSTRACT , oldAbstract , abstract_ ) ) ; } @ Override public Object eGet ( int featureID , boolean resolve , boolean coreType ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__FINAL : return isFinal ( ) ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__ABSTRACT : return isAbstract ( ) ; } return super . eGet ( featureID , resolve , coreType ) ; } @ Override public void eSet ( int featureID , Object newValue ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__FINAL : setFinal ( ( Boolean ) newValue ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__ABSTRACT : setAbstract ( ( Boolean ) newValue ) ; return ; } super . eSet ( featureID , newValue ) ; } @ Override public void eUnset ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__FINAL : setFinal ( FINAL_EDEFAULT ) ; return ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__ABSTRACT : setAbstract ( ABSTRACT_EDEFAULT ) ; return ; } super . eUnset ( featureID ) ; } @ Override public boolean eIsSet ( int featureID ) { switch ( featureID ) { case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__FINAL : return final_ != FINAL_EDEFAULT ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1__ABSTRACT : return abstract_ != ABSTRACT_EDEFAULT ; } return super . eIsSet ( featureID ) ; } @ Override public String toString ( ) { if ( eIsProxy ( ) ) return super . toString ( ) ; StringBuffer result = new StringBuffer ( super . toString ( ) ) ; result . append ( "<STR_LIT>" ) ; result . append ( final_ ) ; result . append ( "<STR_LIT>" ) ; result . append ( abstract_ ) ; result . append ( '<CHAR_LIT:)>' ) ; return result . toString ( ) ; } } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . common . types . JvmType ; public interface PojoProperty extends EObject { String getName ( ) ; void setName ( String value ) ; String getNative ( ) ; void setNative ( String value ) ; EList < PojoProperty > getAttrs ( ) ; PojoEntity getRef ( ) ; void setRef ( PojoEntity value ) ; JvmType getType ( ) ; void setType ( JvmType value ) ; PojoEntity getGref ( ) ; void setGref ( PojoEntity value ) ; JvmType getGtype ( ) ; void setGtype ( JvmType value ) ; boolean isArray ( ) ; void setArray ( boolean value ) ; EList < PojoPropertyModifier > getModifiers ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface Artifacts extends EObject { EList < OptionalFeature > getFeatures ( ) ; EList < MetaStatement > getStatements ( ) ; EList < MappingRule > getMappings ( ) ; EList < PojoDefinition > getPojos ( ) ; EList < PojoUsage > getUsages ( ) ; EList < Property > getProperties ( ) ; EList < TableDefinition > getTables ( ) ; EList < TableUsage > getTableUsages ( ) ; EList < PackageDeclaration > getPojoPackages ( ) ; EList < PojoUsageExt > getUsagesExt ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . xtext . common . types . JvmType ; public interface Implements extends AbstractPojoEntity { JvmType getImplements ( ) ; void setImplements ( JvmType value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface PojoUsage extends EObject { PojoDefinition getPojo ( ) ; void setPojo ( PojoDefinition value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface Property extends EObject { String getName ( ) ; void setName ( String value ) ; DatabaseProperty getDatabase ( ) ; void setDatabase ( DatabaseProperty value ) ; PojogenProperty getPojogen ( ) ; void setPojogen ( PojogenProperty value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface MetaStatement extends EObject { String getName ( ) ; void setName ( String value ) ; String getType ( ) ; void setType ( String value ) ; EList < String > getFilters ( ) ; Sql getStatement ( ) ; void setStatement ( Sql value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface SqlTypeAssignement extends EObject { String getTypeName ( ) ; void setTypeName ( String value ) ; String getSize ( ) ; void setSize ( String value ) ; PojoType getType ( ) ; void setType ( PojoType value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface ExportAssignement extends EObject { String getDbColumn ( ) ; void setDbColumn ( String value ) ; String getFkTable ( ) ; void setFkTable ( String value ) ; String getFkColumn ( ) ; void setFkColumn ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface TableAssignement extends EObject { String getDbTable ( ) ; void setDbTable ( String value ) ; String getNewName ( ) ; void setNewName ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface ColumnTypeAssignement extends EObject { String getDbColumn ( ) ; void setDbColumn ( String value ) ; PojoType getType ( ) ; void setType ( PojoType value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; public interface Import extends AbstractPojoEntity { String getImportedNamespace ( ) ; void setImportedNamespace ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface TableUsage extends EObject { MetaStatement getStatement ( ) ; void setStatement ( MetaStatement value ) ; TableDefinition getTable ( ) ; void setTable ( TableDefinition value ) ; String getPrefix ( ) ; void setPrefix ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface Sql extends EObject { EList < SqlFragment > getSqls ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface OrdSql extends EObject { EList < OrdSql2 > getSqls ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface ImportAssignement extends EObject { String getDbColumn ( ) ; void setDbColumn ( String value ) ; String getPkTable ( ) ; void setPkTable ( String value ) ; String getPkColumn ( ) ; void setPkColumn ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; public interface ConstantUsageExt extends PojoUsageExt { MetaStatement getStatement ( ) ; void setStatement ( MetaStatement value ) ; } </s>
<s> package org . sqlproc . dsl . validation ; import java . util . ArrayList ; import java . util . List ; import org . eclipse . emf . ecore . EPackage ; import org . eclipse . xtext . validation . AbstractDeclarativeValidator ; import org . eclipse . xtext . validation . ComposedChecks ; @ ComposedChecks ( validators = { org . eclipse . xtext . validation . ImportUriValidator . class } ) public class AbstractProcessorDslJavaValidator extends AbstractDeclarativeValidator { @ Override protected List < EPackage > getEPackages ( ) { List < EPackage > result = new ArrayList < EPackage > ( ) ; result . add ( org . sqlproc . dsl . processorDsl . ProcessorDslPackage . eINSTANCE ) ; return result ; } } </s>
<s> package org . sqlproc . dsl . serializer ; import com . google . inject . Inject ; import java . util . List ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . IGrammarAccess ; import org . eclipse . xtext . RuleCall ; import org . eclipse . xtext . nodemodel . INode ; import org . eclipse . xtext . serializer . analysis . GrammarAlias . AbstractElementAlias ; import org . eclipse . xtext . serializer . analysis . GrammarAlias . TokenAlias ; import org . eclipse . xtext . serializer . analysis . ISyntacticSequencerPDAProvider . ISynNavigable ; import org . eclipse . xtext . serializer . analysis . ISyntacticSequencerPDAProvider . ISynTransition ; import org . eclipse . xtext . serializer . sequencer . AbstractSyntacticSequencer ; import org . sqlproc . dsl . services . ProcessorDslGrammarAccess ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class ProcessorDslSyntacticSequencer extends AbstractSyntacticSequencer { protected ProcessorDslGrammarAccess grammarAccess ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_0_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_0_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_1_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_2_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_3_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_4_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_5_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_6_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_7_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_8_1_a ; protected AbstractElementAlias match_Artifacts_WSTerminalRuleCall_1_9_1_a ; protected AbstractElementAlias match_Column_CARETTerminalRuleCall_1_0_q ; protected AbstractElementAlias match_Constant_CARETTerminalRuleCall_2_0_q ; protected AbstractElementAlias match_DatabaseProperty_WSTerminalRuleCall_2_1_p ; protected AbstractElementAlias match_DatabaseProperty_WSTerminalRuleCall_3_1_p ; protected AbstractElementAlias match_DatabaseProperty_WSTerminalRuleCall_4_1_p ; protected AbstractElementAlias match_DatabaseProperty_WSTerminalRuleCall_5_1_p ; protected AbstractElementAlias match_DatabaseProperty_WSTerminalRuleCall_6_1_p ; protected AbstractElementAlias match_Identifier_CARETTerminalRuleCall_3_0_q ; protected AbstractElementAlias match_IfSqlCond_WSTerminalRuleCall_0_a ; protected AbstractElementAlias match_IfSqlCond_WSTerminalRuleCall_2_a ; protected AbstractElementAlias match_IfSqlCond_WSTerminalRuleCall_3_1_a ; protected AbstractElementAlias match_IfSqlCond_WSTerminalRuleCall_3_3_a ; protected AbstractElementAlias match_MappingItem_STRINGTerminalRuleCall_1_0_q ; protected AbstractElementAlias match_Mapping_WSTerminalRuleCall_0_a ; protected AbstractElementAlias match_Mapping_WSTerminalRuleCall_2_0_p ; protected AbstractElementAlias match_Mapping_WSTerminalRuleCall_3_a ; protected AbstractElementAlias match_MetaSql_WSTerminalRuleCall_4_1_a ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_0_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_10_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_10_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_11_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_12_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_12_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_13_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_13_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_14_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_14_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_15_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_15_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_16_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_16_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_17_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_17_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_18_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_18_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_19_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_19_3_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_19_5_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_1_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_1_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_20_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_21_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_22_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_2_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_2_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_3_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_3_3_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_4_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_5_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_6_1_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_7_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_7_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_8_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_8_3_0_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_9_1_p ; protected AbstractElementAlias match_PojogenProperty_WSTerminalRuleCall_9_3_0_p ; @ Inject protected void init ( IGrammarAccess access ) { grammarAccess = ( ProcessorDslGrammarAccess ) access ; match_Artifacts_WSTerminalRuleCall_0_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_0_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_0_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_1_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_1_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_2_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_2_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_3_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_3_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_4_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_4_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_5_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_5_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_6_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_6_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_7_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_7_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_8_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_8_1 ( ) ) ; match_Artifacts_WSTerminalRuleCall_1_9_1_a = new TokenAlias ( true , true , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_9_1 ( ) ) ; match_Column_CARETTerminalRuleCall_1_0_q = new TokenAlias ( false , true , grammarAccess . getColumnAccess ( ) . getCARETTerminalRuleCall_1_0 ( ) ) ; match_Constant_CARETTerminalRuleCall_2_0_q = new TokenAlias ( false , true , grammarAccess . getConstantAccess ( ) . getCARETTerminalRuleCall_2_0 ( ) ) ; match_DatabaseProperty_WSTerminalRuleCall_2_1_p = new TokenAlias ( true , false , grammarAccess . getDatabasePropertyAccess ( ) . getWSTerminalRuleCall_2_1 ( ) ) ; match_DatabaseProperty_WSTerminalRuleCall_3_1_p = new TokenAlias ( true , false , grammarAccess . getDatabasePropertyAccess ( ) . getWSTerminalRuleCall_3_1 ( ) ) ; match_DatabaseProperty_WSTerminalRuleCall_4_1_p = new TokenAlias ( true , false , grammarAccess . getDatabasePropertyAccess ( ) . getWSTerminalRuleCall_4_1 ( ) ) ; match_DatabaseProperty_WSTerminalRuleCall_5_1_p = new TokenAlias ( true , false , grammarAccess . getDatabasePropertyAccess ( ) . getWSTerminalRuleCall_5_1 ( ) ) ; match_DatabaseProperty_WSTerminalRuleCall_6_1_p = new TokenAlias ( true , false , grammarAccess . getDatabasePropertyAccess ( ) . getWSTerminalRuleCall_6_1 ( ) ) ; match_Identifier_CARETTerminalRuleCall_3_0_q = new TokenAlias ( false , true , grammarAccess . getIdentifierAccess ( ) . getCARETTerminalRuleCall_3_0 ( ) ) ; match_IfSqlCond_WSTerminalRuleCall_0_a = new TokenAlias ( true , true , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; match_IfSqlCond_WSTerminalRuleCall_2_a = new TokenAlias ( true , true , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_2 ( ) ) ; match_IfSqlCond_WSTerminalRuleCall_3_1_a = new TokenAlias ( true , true , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_1 ( ) ) ; match_IfSqlCond_WSTerminalRuleCall_3_3_a = new TokenAlias ( true , true , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_3 ( ) ) ; match_MappingItem_STRINGTerminalRuleCall_1_0_q = new TokenAlias ( false , true , grammarAccess . getMappingItemAccess ( ) . getSTRINGTerminalRuleCall_1_0 ( ) ) ; match_Mapping_WSTerminalRuleCall_0_a = new TokenAlias ( true , true , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; match_Mapping_WSTerminalRuleCall_2_0_p = new TokenAlias ( true , false , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_2_0 ( ) ) ; match_Mapping_WSTerminalRuleCall_3_a = new TokenAlias ( true , true , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_3 ( ) ) ; match_MetaSql_WSTerminalRuleCall_4_1_a = new TokenAlias ( true , true , grammarAccess . getMetaSqlAccess ( ) . getWSTerminalRuleCall_4_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_0_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_0_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_10_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_10_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_10_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_10_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_11_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_11_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_12_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_12_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_12_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_12_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_13_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_13_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_13_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_13_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_14_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_14_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_14_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_14_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_15_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_15_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_15_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_15_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_16_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_16_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_16_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_16_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_17_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_17_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_17_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_17_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_18_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_18_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_18_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_18_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_19_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_19_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_19_3_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_19_3 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_19_5_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_19_5_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_1_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_1_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_1_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_1_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_20_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_20_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_21_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_21_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_22_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_22_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_2_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_2_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_2_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_2_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_3_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_3_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_3_3_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_3_3 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_4_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_4_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_5_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_5_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_6_1_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_6_1_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_7_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_7_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_7_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_7_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_8_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_8_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_8_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_8_3_0 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_9_1_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_9_1 ( ) ) ; match_PojogenProperty_WSTerminalRuleCall_9_3_0_p = new TokenAlias ( true , false , grammarAccess . getPojogenPropertyAccess ( ) . getWSTerminalRuleCall_9_3_0 ( ) ) ; } @ Override protected String getUnassignedRuleCallToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( ruleCall . getRule ( ) == grammarAccess . getATRule ( ) ) return getATToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getBORRule ( ) ) return getBORToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getCARETRule ( ) ) return getCARETToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getCOLONRule ( ) ) return getCOLONToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getCOMMARule ( ) ) return getCOMMAToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getEQUALSRule ( ) ) return getEQUALSToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getLBRACERule ( ) ) return getLBRACEToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getLESS_THANRule ( ) ) return getLESS_THANToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getLPARENRule ( ) ) return getLPARENToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getMORE_THANRule ( ) ) return getMORE_THANToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getNOTRule ( ) ) return getNOTToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getNUMBERRule ( ) ) return getNUMBERToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getPERCENTRule ( ) ) return getPERCENTToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getRBRACERule ( ) ) return getRBRACEToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getRPARENRule ( ) ) return getRPARENToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getSEMICOLONRule ( ) ) return getSEMICOLONToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getSTRINGRule ( ) ) return getSTRINGToken ( semanticObject , ruleCall , node ) ; else if ( ruleCall . getRule ( ) == grammarAccess . getWSRule ( ) ) return getWSToken ( semanticObject , ruleCall , node ) ; return "<STR_LIT>" ; } protected String getATToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:@>" ; } protected String getBORToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:\|>" ; } protected String getCARETToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT>" ; } protected String getCOLONToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT::>" ; } protected String getCOMMAToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:U+002C>" ; } protected String getEQUALSToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:=>" ; } protected String getLBRACEToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:{>" ; } protected String getLESS_THANToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:<>" ; } protected String getLPARENToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:(>" ; } protected String getMORE_THANToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:>>" ; } protected String getNOTToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:!>" ; } protected String getNUMBERToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT>" ; } protected String getPERCENTToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:%>" ; } protected String getRBRACEToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:}>" ; } protected String getRPARENToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:)>" ; } protected String getSEMICOLONToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:;>" ; } protected String getSTRINGToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:$>" ; } protected String getWSToken ( EObject semanticObject , RuleCall ruleCall , INode node ) { if ( node != null ) return getTokenText ( node ) ; return "<STR_LIT:U+0020>" ; } @ Override protected void emitUnassignedTokens ( EObject semanticObject , ISynTransition transition , INode fromNode , INode toNode ) { if ( transition . getAmbiguousSyntaxes ( ) . isEmpty ( ) ) return ; List < INode > transitionNodes = collectNodes ( fromNode , toNode ) ; for ( AbstractElementAlias syntax : transition . getAmbiguousSyntaxes ( ) ) { List < INode > syntaxNodes = getNodesFor ( transitionNodes , syntax ) ; if ( match_Artifacts_WSTerminalRuleCall_0_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_0_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_0_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_0_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_1_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_1_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_2_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_2_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_3_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_3_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_4_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_4_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_5_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_5_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_6_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_6_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_7_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_7_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_8_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_8_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Artifacts_WSTerminalRuleCall_1_9_1_a . equals ( syntax ) ) emit_Artifacts_WSTerminalRuleCall_1_9_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Column_CARETTerminalRuleCall_1_0_q . equals ( syntax ) ) emit_Column_CARETTerminalRuleCall_1_0_q ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Constant_CARETTerminalRuleCall_2_0_q . equals ( syntax ) ) emit_Constant_CARETTerminalRuleCall_2_0_q ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_DatabaseProperty_WSTerminalRuleCall_2_1_p . equals ( syntax ) ) emit_DatabaseProperty_WSTerminalRuleCall_2_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_DatabaseProperty_WSTerminalRuleCall_3_1_p . equals ( syntax ) ) emit_DatabaseProperty_WSTerminalRuleCall_3_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_DatabaseProperty_WSTerminalRuleCall_4_1_p . equals ( syntax ) ) emit_DatabaseProperty_WSTerminalRuleCall_4_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_DatabaseProperty_WSTerminalRuleCall_5_1_p . equals ( syntax ) ) emit_DatabaseProperty_WSTerminalRuleCall_5_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_DatabaseProperty_WSTerminalRuleCall_6_1_p . equals ( syntax ) ) emit_DatabaseProperty_WSTerminalRuleCall_6_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Identifier_CARETTerminalRuleCall_3_0_q . equals ( syntax ) ) emit_Identifier_CARETTerminalRuleCall_3_0_q ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_IfSqlCond_WSTerminalRuleCall_0_a . equals ( syntax ) ) emit_IfSqlCond_WSTerminalRuleCall_0_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_IfSqlCond_WSTerminalRuleCall_2_a . equals ( syntax ) ) emit_IfSqlCond_WSTerminalRuleCall_2_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_IfSqlCond_WSTerminalRuleCall_3_1_a . equals ( syntax ) ) emit_IfSqlCond_WSTerminalRuleCall_3_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_IfSqlCond_WSTerminalRuleCall_3_3_a . equals ( syntax ) ) emit_IfSqlCond_WSTerminalRuleCall_3_3_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_MappingItem_STRINGTerminalRuleCall_1_0_q . equals ( syntax ) ) emit_MappingItem_STRINGTerminalRuleCall_1_0_q ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Mapping_WSTerminalRuleCall_0_a . equals ( syntax ) ) emit_Mapping_WSTerminalRuleCall_0_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Mapping_WSTerminalRuleCall_2_0_p . equals ( syntax ) ) emit_Mapping_WSTerminalRuleCall_2_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_Mapping_WSTerminalRuleCall_3_a . equals ( syntax ) ) emit_Mapping_WSTerminalRuleCall_3_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_MetaSql_WSTerminalRuleCall_4_1_a . equals ( syntax ) ) emit_MetaSql_WSTerminalRuleCall_4_1_a ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_0_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_0_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_10_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_10_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_10_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_10_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_11_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_11_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_12_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_12_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_12_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_12_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_13_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_13_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_13_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_13_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_14_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_14_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_14_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_14_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_15_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_15_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_15_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_15_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_16_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_16_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_16_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_16_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_17_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_17_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_17_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_17_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_18_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_18_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_18_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_18_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_19_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_19_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_19_3_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_19_3_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_19_5_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_19_5_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_1_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_1_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_1_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_1_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_20_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_20_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_21_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_21_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_22_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_22_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_2_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_2_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_2_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_2_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_3_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_3_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_3_3_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_3_3_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_4_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_4_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_5_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_5_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_6_1_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_6_1_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_7_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_7_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_7_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_7_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_8_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_8_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_8_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_8_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_9_1_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_9_1_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else if ( match_PojogenProperty_WSTerminalRuleCall_9_3_0_p . equals ( syntax ) ) emit_PojogenProperty_WSTerminalRuleCall_9_3_0_p ( semanticObject , getLastNavigableState ( ) , syntaxNodes ) ; else acceptNodes ( getLastNavigableState ( ) , syntaxNodes ) ; } } protected void emit_Artifacts_WSTerminalRuleCall_0_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_0_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_1_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_2_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_3_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_4_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_5_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_6_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_7_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_8_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Artifacts_WSTerminalRuleCall_1_9_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Column_CARETTerminalRuleCall_1_0_q ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Constant_CARETTerminalRuleCall_2_0_q ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_DatabaseProperty_WSTerminalRuleCall_2_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_DatabaseProperty_WSTerminalRuleCall_3_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_DatabaseProperty_WSTerminalRuleCall_4_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_DatabaseProperty_WSTerminalRuleCall_5_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_DatabaseProperty_WSTerminalRuleCall_6_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Identifier_CARETTerminalRuleCall_3_0_q ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_IfSqlCond_WSTerminalRuleCall_0_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_IfSqlCond_WSTerminalRuleCall_2_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_IfSqlCond_WSTerminalRuleCall_3_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_IfSqlCond_WSTerminalRuleCall_3_3_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_MappingItem_STRINGTerminalRuleCall_1_0_q ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Mapping_WSTerminalRuleCall_0_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Mapping_WSTerminalRuleCall_2_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_Mapping_WSTerminalRuleCall_3_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_MetaSql_WSTerminalRuleCall_4_1_a ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_0_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_10_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_10_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_11_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_12_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_12_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_13_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_13_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_14_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_14_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_15_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_15_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_16_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_16_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_17_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_17_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_18_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_18_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_19_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_19_3_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_19_5_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_1_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_1_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_20_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_21_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_22_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_2_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_2_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_3_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_3_3_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_4_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_5_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_6_1_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_7_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_7_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_8_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_8_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_9_1_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } protected void emit_PojogenProperty_WSTerminalRuleCall_9_3_0_p ( EObject semanticObject , ISynNavigable transition , List < INode > nodes ) { acceptNodes ( transition , nodes ) ; } } </s>
<s> package org . sqlproc . dsl . serializer ; import com . google . inject . Inject ; import com . google . inject . Provider ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . serializer . acceptor . ISemanticSequenceAcceptor ; import org . eclipse . xtext . serializer . acceptor . SequenceFeeder ; import org . eclipse . xtext . serializer . diagnostic . ISemanticSequencerDiagnosticProvider ; import org . eclipse . xtext . serializer . diagnostic . ISerializationDiagnostic . Acceptor ; import org . eclipse . xtext . serializer . sequencer . AbstractDelegatingSemanticSequencer ; import org . eclipse . xtext . serializer . sequencer . GenericSequencer ; import org . eclipse . xtext . serializer . sequencer . ISemanticNodeProvider . INodesForEObjectProvider ; import org . eclipse . xtext . serializer . sequencer . ISemanticSequencer ; import org . eclipse . xtext . serializer . sequencer . ITransientValueService ; import org . eclipse . xtext . serializer . sequencer . ITransientValueService . ValueTransient ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . ColumnAssignement ; import org . sqlproc . dsl . processorDsl . ColumnTypeAssignement ; import org . sqlproc . dsl . processorDsl . ColumnUsage ; import org . sqlproc . dsl . processorDsl . ColumnUsageExt ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . ConstantUsage ; import org . sqlproc . dsl . processorDsl . ConstantUsageExt ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . DatabaseProperty ; import org . sqlproc . dsl . processorDsl . DatabaseTable ; import org . sqlproc . dsl . processorDsl . ExportAssignement ; import org . sqlproc . dsl . processorDsl . Extends ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . IdentifierUsage ; import org . sqlproc . dsl . processorDsl . IdentifierUsageExt ; import org . sqlproc . dsl . processorDsl . IfMetaSql ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlBool ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . IfSqlFragment ; import org . sqlproc . dsl . processorDsl . Implements ; import org . sqlproc . dsl . processorDsl . Import ; import org . sqlproc . dsl . processorDsl . ImportAssignement ; import org . sqlproc . dsl . processorDsl . InheritanceAssignement ; import org . sqlproc . dsl . processorDsl . JoinTableAssignement ; import org . sqlproc . dsl . processorDsl . ManyToManyAssignement ; import org . sqlproc . dsl . processorDsl . Mapping ; import org . sqlproc . dsl . processorDsl . MappingColumn ; import org . sqlproc . dsl . processorDsl . MappingItem ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MappingUsage ; import org . sqlproc . dsl . processorDsl . MappingUsageExt ; import org . sqlproc . dsl . processorDsl . MetaSql ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . OptionalFeature ; import org . sqlproc . dsl . processorDsl . OrdSql ; import org . sqlproc . dsl . processorDsl . OrdSql2 ; import org . sqlproc . dsl . processorDsl . PackageDeclaration ; import org . sqlproc . dsl . processorDsl . PojoDefinition ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier1 ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier2 ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . PojoPropertyModifier ; import org . sqlproc . dsl . processorDsl . PojoType ; import org . sqlproc . dsl . processorDsl . PojogenProperty ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . Property ; import org . sqlproc . dsl . processorDsl . ShowColumnTypeAssignement ; import org . sqlproc . dsl . processorDsl . Sql ; import org . sqlproc . dsl . processorDsl . SqlFragment ; import org . sqlproc . dsl . processorDsl . SqlTypeAssignement ; import org . sqlproc . dsl . processorDsl . TableAssignement ; import org . sqlproc . dsl . processorDsl . TableDefinition ; import org . sqlproc . dsl . processorDsl . TableUsage ; import org . sqlproc . dsl . services . ProcessorDslGrammarAccess ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class ProcessorDslSemanticSequencer extends AbstractDelegatingSemanticSequencer { @ Inject private ProcessorDslGrammarAccess grammarAccess ; public void createSequence ( EObject context , EObject semanticObject ) { if ( semanticObject . eClass ( ) . getEPackage ( ) == ProcessorDslPackage . eINSTANCE ) switch ( semanticObject . eClass ( ) . getClassifierID ( ) ) { case ProcessorDslPackage . ARTIFACTS : if ( context == grammarAccess . getArtifactsRule ( ) ) { sequence_Artifacts ( context , ( Artifacts ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . COLUMN : if ( context == grammarAccess . getColumnRule ( ) ) { sequence_Column ( context , ( Column ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . COLUMN_ASSIGNEMENT : if ( context == grammarAccess . getColumnAssignementRule ( ) ) { sequence_ColumnAssignement ( context , ( ColumnAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . COLUMN_TYPE_ASSIGNEMENT : if ( context == grammarAccess . getColumnTypeAssignementRule ( ) ) { sequence_ColumnTypeAssignement ( context , ( ColumnTypeAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . COLUMN_USAGE : if ( context == grammarAccess . getColumnUsageRule ( ) \|\| context == grammarAccess . getPojoUsageRule ( ) ) { sequence_ColumnUsage ( context , ( ColumnUsage ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . COLUMN_USAGE_EXT : if ( context == grammarAccess . getColumnUsageExtRule ( ) \|\| context == grammarAccess . getPojoUsageExtRule ( ) ) { sequence_ColumnUsageExt ( context , ( ColumnUsageExt ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . CONSTANT : if ( context == grammarAccess . getConstantRule ( ) ) { sequence_Constant ( context , ( Constant ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . CONSTANT_USAGE : if ( context == grammarAccess . getConstantUsageRule ( ) \|\| context == grammarAccess . getPojoUsageRule ( ) ) { sequence_ConstantUsage ( context , ( ConstantUsage ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . CONSTANT_USAGE_EXT : if ( context == grammarAccess . getConstantUsageExtRule ( ) \|\| context == grammarAccess . getPojoUsageExtRule ( ) ) { sequence_ConstantUsageExt ( context , ( ConstantUsageExt ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . DATABASE_COLUMN : if ( context == grammarAccess . getDatabaseColumnRule ( ) ) { sequence_DatabaseColumn ( context , ( DatabaseColumn ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . DATABASE_PROPERTY : if ( context == grammarAccess . getDatabasePropertyRule ( ) ) { sequence_DatabaseProperty ( context , ( DatabaseProperty ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . DATABASE_TABLE : if ( context == grammarAccess . getDatabaseTableRule ( ) ) { sequence_DatabaseTable ( context , ( DatabaseTable ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . EXPORT_ASSIGNEMENT : if ( context == grammarAccess . getExportAssignementRule ( ) ) { sequence_ExportAssignement ( context , ( ExportAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . EXTENDS : if ( context == grammarAccess . getAbstractPojoEntityRule ( ) \|\| context == grammarAccess . getExtendsRule ( ) ) { sequence_Extends ( context , ( Extends ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IDENTIFIER : if ( context == grammarAccess . getIdentifierRule ( ) ) { sequence_Identifier ( context , ( Identifier ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IDENTIFIER_USAGE : if ( context == grammarAccess . getIdentifierUsageRule ( ) \|\| context == grammarAccess . getPojoUsageRule ( ) ) { sequence_IdentifierUsage ( context , ( IdentifierUsage ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IDENTIFIER_USAGE_EXT : if ( context == grammarAccess . getIdentifierUsageExtRule ( ) \|\| context == grammarAccess . getPojoUsageExtRule ( ) ) { sequence_IdentifierUsageExt ( context , ( IdentifierUsageExt ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IF_META_SQL : if ( context == grammarAccess . getIfMetaSqlRule ( ) ) { sequence_IfMetaSql ( context , ( IfMetaSql ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IF_SQL : if ( context == grammarAccess . getIfSqlRule ( ) ) { sequence_IfSql ( context , ( IfSql ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IF_SQL_BOOL : if ( context == grammarAccess . getIfSqlBoolRule ( ) ) { sequence_IfSqlBool ( context , ( IfSqlBool ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IF_SQL_COND : if ( context == grammarAccess . getIfSqlCondRule ( ) ) { sequence_IfSqlCond ( context , ( IfSqlCond ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IF_SQL_FRAGMENT : if ( context == grammarAccess . getIfSqlFragmentRule ( ) ) { sequence_IfSqlFragment ( context , ( IfSqlFragment ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IMPLEMENTS : if ( context == grammarAccess . getAbstractPojoEntityRule ( ) \|\| context == grammarAccess . getImplementsRule ( ) ) { sequence_Implements ( context , ( Implements ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IMPORT : if ( context == grammarAccess . getAbstractPojoEntityRule ( ) \|\| context == grammarAccess . getImportRule ( ) ) { sequence_Import ( context , ( Import ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . IMPORT_ASSIGNEMENT : if ( context == grammarAccess . getImportAssignementRule ( ) ) { sequence_ImportAssignement ( context , ( ImportAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . INHERITANCE_ASSIGNEMENT : if ( context == grammarAccess . getInheritanceAssignementRule ( ) ) { sequence_InheritanceAssignement ( context , ( InheritanceAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . JOIN_TABLE_ASSIGNEMENT : if ( context == grammarAccess . getJoinTableAssignementRule ( ) ) { sequence_JoinTableAssignement ( context , ( JoinTableAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MANY_TO_MANY_ASSIGNEMENT : if ( context == grammarAccess . getManyToManyAssignementRule ( ) ) { sequence_ManyToManyAssignement ( context , ( ManyToManyAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING : if ( context == grammarAccess . getMappingRule ( ) ) { sequence_Mapping ( context , ( Mapping ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING_COLUMN : if ( context == grammarAccess . getMappingColumnRule ( ) ) { sequence_MappingColumn ( context , ( MappingColumn ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING_ITEM : if ( context == grammarAccess . getMappingItemRule ( ) ) { sequence_MappingItem ( context , ( MappingItem ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING_RULE : if ( context == grammarAccess . getMappingRuleRule ( ) ) { sequence_MappingRule ( context , ( MappingRule ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING_USAGE : if ( context == grammarAccess . getMappingUsageRule ( ) \|\| context == grammarAccess . getPojoUsageRule ( ) ) { sequence_MappingUsage ( context , ( MappingUsage ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . MAPPING_USAGE_EXT : if ( context == grammarAccess . getMappingUsageExtRule ( ) \|\| context == grammarAccess . getPojoUsageExtRule ( ) ) { sequence_MappingUsageExt ( context , ( MappingUsageExt ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . META_SQL : if ( context == grammarAccess . getMetaSqlRule ( ) ) { sequence_MetaSql ( context , ( MetaSql ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . META_STATEMENT : if ( context == grammarAccess . getMetaStatementRule ( ) ) { sequence_MetaStatement ( context , ( MetaStatement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . OPTIONAL_FEATURE : if ( context == grammarAccess . getOptionalFeatureRule ( ) ) { sequence_OptionalFeature ( context , ( OptionalFeature ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . ORD_SQL : if ( context == grammarAccess . getOrdSqlRule ( ) ) { sequence_OrdSql ( context , ( OrdSql ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . ORD_SQL2 : if ( context == grammarAccess . getOrdSql2Rule ( ) ) { sequence_OrdSql2 ( context , ( OrdSql2 ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . PACKAGE_DECLARATION : if ( context == grammarAccess . getAbstractPojoEntityRule ( ) \|\| context == grammarAccess . getPackageDeclarationRule ( ) ) { sequence_PackageDeclaration ( context , ( PackageDeclaration ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_DEFINITION : if ( context == grammarAccess . getPojoDefinitionRule ( ) ) { sequence_PojoDefinition ( context , ( PojoDefinition ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_ENTITY : if ( context == grammarAccess . getAbstractPojoEntityRule ( ) \|\| context == grammarAccess . getPojoEntityRule ( ) ) { sequence_PojoEntity ( context , ( PojoEntity ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER1 : if ( context == grammarAccess . getPojoEntityModifier1Rule ( ) ) { sequence_PojoEntityModifier1 ( context , ( PojoEntityModifier1 ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_ENTITY_MODIFIER2 : if ( context == grammarAccess . getPojoEntityModifier2Rule ( ) ) { sequence_PojoEntityModifier2 ( context , ( PojoEntityModifier2 ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_PROPERTY : if ( context == grammarAccess . getPojoPropertyRule ( ) ) { sequence_PojoProperty ( context , ( PojoProperty ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_PROPERTY_MODIFIER : if ( context == grammarAccess . getPojoPropertyModifierRule ( ) ) { sequence_PojoPropertyModifier ( context , ( PojoPropertyModifier ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJO_TYPE : if ( context == grammarAccess . getPojoTypeRule ( ) ) { sequence_PojoType ( context , ( PojoType ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . POJOGEN_PROPERTY : if ( context == grammarAccess . getPojogenPropertyRule ( ) ) { sequence_PojogenProperty ( context , ( PojogenProperty ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . PROPERTY : if ( context == grammarAccess . getPropertyRule ( ) ) { sequence_Property ( context , ( Property ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . SHOW_COLUMN_TYPE_ASSIGNEMENT : if ( context == grammarAccess . getShowColumnTypeAssignementRule ( ) ) { sequence_ShowColumnTypeAssignement ( context , ( ShowColumnTypeAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . SQL : if ( context == grammarAccess . getSqlRule ( ) ) { sequence_Sql ( context , ( Sql ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . SQL_FRAGMENT : if ( context == grammarAccess . getSqlFragmentRule ( ) ) { sequence_SqlFragment ( context , ( SqlFragment ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . SQL_TYPE_ASSIGNEMENT : if ( context == grammarAccess . getSqlTypeAssignementRule ( ) ) { sequence_SqlTypeAssignement ( context , ( SqlTypeAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . TABLE_ASSIGNEMENT : if ( context == grammarAccess . getTableAssignementRule ( ) ) { sequence_TableAssignement ( context , ( TableAssignement ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . TABLE_DEFINITION : if ( context == grammarAccess . getTableDefinitionRule ( ) ) { sequence_TableDefinition ( context , ( TableDefinition ) semanticObject ) ; return ; } else break ; case ProcessorDslPackage . TABLE_USAGE : if ( context == grammarAccess . getTableUsageRule ( ) ) { sequence_TableUsage ( context , ( TableUsage ) semanticObject ) ; return ; } else break ; } if ( errorAcceptor != null ) errorAcceptor . accept ( diagnosticProvider . createInvalidContextOrTypeDiagnostic ( semanticObject , context ) ) ; } protected void sequence_Artifacts ( EObject context , Artifacts semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_ColumnAssignement ( EObject context , ColumnAssignement semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_ASSIGNEMENT__DB_COLUMN ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_ASSIGNEMENT__DB_COLUMN ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_ASSIGNEMENT__NEW_NAME ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_ASSIGNEMENT__NEW_NAME ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getColumnAssignementAccess ( ) . getDbColumnIDENTTerminalRuleCall_0_0 ( ) , semanticObject . getDbColumn ( ) ) ; feeder . accept ( grammarAccess . getColumnAssignementAccess ( ) . getNewNameIDENTTerminalRuleCall_2_0 ( ) , semanticObject . getNewName ( ) ) ; feeder . finish ( ) ; } protected void sequence_ColumnTypeAssignement ( EObject context , ColumnTypeAssignement semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_TYPE_ASSIGNEMENT__TYPE ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_TYPE_ASSIGNEMENT__TYPE ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getColumnTypeAssignementAccess ( ) . getDbColumnIDENTTerminalRuleCall_0_0 ( ) , semanticObject . getDbColumn ( ) ) ; feeder . accept ( grammarAccess . getColumnTypeAssignementAccess ( ) . getTypePojoTypeParserRuleCall_2_0 ( ) , semanticObject . getType ( ) ) ; feeder . finish ( ) ; } protected void sequence_ColumnUsageExt ( EObject context , ColumnUsageExt semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_USAGE_EXT__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_USAGE_EXT__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getColumnUsageExtAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getColumnUsageExtAccess ( ) . getPojoPojoEntityIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_ColumnUsage ( EObject context , ColumnUsage semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . COLUMN_USAGE__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . COLUMN_USAGE__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getColumnUsageAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getColumnUsageAccess ( ) . getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_Column ( EObject context , Column semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_ConstantUsageExt ( EObject context , ConstantUsageExt semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . CONSTANT_USAGE_EXT__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . CONSTANT_USAGE_EXT__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getConstantUsageExtAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getConstantUsageExtAccess ( ) . getPojoPojoEntityIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_ConstantUsage ( EObject context , ConstantUsage semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . CONSTANT_USAGE__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . CONSTANT_USAGE__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getConstantUsageAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getConstantUsageAccess ( ) . getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_Constant ( EObject context , Constant semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_DatabaseColumn ( EObject context , DatabaseColumn semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_DatabaseProperty ( EObject context , DatabaseProperty semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_DatabaseTable ( EObject context , DatabaseTable semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_ExportAssignement ( EObject context , ExportAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_Extends ( EObject context , Extends semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . EXTENDS__EXTENDS ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . EXTENDS__EXTENDS ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getExtendsAccess ( ) . getExtendsJvmTypeQualifiedNameParserRuleCall_1_0_1 ( ) , semanticObject . getExtends ( ) ) ; feeder . finish ( ) ; } protected void sequence_IdentifierUsageExt ( EObject context , IdentifierUsageExt semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . IDENTIFIER_USAGE_EXT__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . IDENTIFIER_USAGE_EXT__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getIdentifierUsageExtAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getIdentifierUsageExtAccess ( ) . getPojoPojoEntityIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_IdentifierUsage ( EObject context , IdentifierUsage semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . IDENTIFIER_USAGE__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . IDENTIFIER_USAGE__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getIdentifierUsageAccess ( ) . getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getIdentifierUsageAccess ( ) . getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_Identifier ( EObject context , Identifier semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_IfMetaSql ( EObject context , IfMetaSql semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_IfSqlBool ( EObject context , IfSqlBool semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_IfSqlCond ( EObject context , IfSqlCond semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_IfSqlFragment ( EObject context , IfSqlFragment semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_IfSql ( EObject context , IfSql semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_Implements ( EObject context , Implements semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . IMPLEMENTS__IMPLEMENTS ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . IMPLEMENTS__IMPLEMENTS ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getImplementsAccess ( ) . getImplementsJvmTypeQualifiedNameParserRuleCall_1_0_1 ( ) , semanticObject . getImplements ( ) ) ; feeder . finish ( ) ; } protected void sequence_ImportAssignement ( EObject context , ImportAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_Import ( EObject context , Import semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . IMPORT__IMPORTED_NAMESPACE ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . IMPORT__IMPORTED_NAMESPACE ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getImportAccess ( ) . getImportedNamespaceQualifiedNameWithWildcardParserRuleCall_1_0 ( ) , semanticObject . getImportedNamespace ( ) ) ; feeder . finish ( ) ; } protected void sequence_InheritanceAssignement ( EObject context , InheritanceAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_JoinTableAssignement ( EObject context , JoinTableAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_ManyToManyAssignement ( EObject context , ManyToManyAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MappingColumn ( EObject context , MappingColumn semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MappingItem ( EObject context , MappingItem semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MappingRule ( EObject context , MappingRule semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MappingUsageExt ( EObject context , MappingUsageExt semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE_EXT__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . MAPPING_USAGE_EXT__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . MAPPING_USAGE_EXT__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getMappingUsageExtAccess ( ) . getStatementMappingRuleIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getMappingUsageExtAccess ( ) . getPojoPojoEntityIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_MappingUsage ( EObject context , MappingUsage semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . POJO_USAGE__POJO ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . MAPPING_USAGE__STATEMENT ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . MAPPING_USAGE__STATEMENT ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getMappingUsageAccess ( ) . getStatementMappingRuleIDENTTerminalRuleCall_1_0_1 ( ) , semanticObject . getStatement ( ) ) ; feeder . accept ( grammarAccess . getMappingUsageAccess ( ) . getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) , semanticObject . getPojo ( ) ) ; feeder . finish ( ) ; } protected void sequence_Mapping ( EObject context , Mapping semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MetaSql ( EObject context , MetaSql semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_MetaStatement ( EObject context , MetaStatement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_OptionalFeature ( EObject context , OptionalFeature semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_OrdSql2 ( EObject context , OrdSql2 semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_OrdSql ( EObject context , OrdSql semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PackageDeclaration ( EObject context , PackageDeclaration semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoDefinition ( EObject context , PojoDefinition semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoEntityModifier1 ( EObject context , PojoEntityModifier1 semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoEntityModifier2 ( EObject context , PojoEntityModifier2 semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoEntity ( EObject context , PojoEntity semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoPropertyModifier ( EObject context , PojoPropertyModifier semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoProperty ( EObject context , PojoProperty semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojoType ( EObject context , PojoType semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_PojogenProperty ( EObject context , PojogenProperty semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_Property ( EObject context , Property semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_ShowColumnTypeAssignement ( EObject context , ShowColumnTypeAssignement semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . SHOW_COLUMN_TYPE_ASSIGNEMENT__DB_COLUMN ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . SHOW_COLUMN_TYPE_ASSIGNEMENT__TYPE ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getShowColumnTypeAssignementAccess ( ) . getDbColumnIDENTTerminalRuleCall_0_0 ( ) , semanticObject . getDbColumn ( ) ) ; feeder . accept ( grammarAccess . getShowColumnTypeAssignementAccess ( ) . getTypePropertyValueParserRuleCall_2_0 ( ) , semanticObject . getType ( ) ) ; feeder . finish ( ) ; } protected void sequence_SqlFragment ( EObject context , SqlFragment semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_SqlTypeAssignement ( EObject context , SqlTypeAssignement semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_Sql ( EObject context , Sql semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } protected void sequence_TableAssignement ( EObject context , TableAssignement semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . TABLE_ASSIGNEMENT__DB_TABLE ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . TABLE_ASSIGNEMENT__DB_TABLE ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . TABLE_ASSIGNEMENT__NEW_NAME ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . TABLE_ASSIGNEMENT__NEW_NAME ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getTableAssignementAccess ( ) . getDbTableIDENTTerminalRuleCall_0_0 ( ) , semanticObject . getDbTable ( ) ) ; feeder . accept ( grammarAccess . getTableAssignementAccess ( ) . getNewNameIDENTTerminalRuleCall_2_0 ( ) , semanticObject . getNewName ( ) ) ; feeder . finish ( ) ; } protected void sequence_TableDefinition ( EObject context , TableDefinition semanticObject ) { if ( errorAcceptor != null ) { if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . TABLE_DEFINITION__NAME ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . TABLE_DEFINITION__NAME ) ) ; if ( transientValues . isValueTransient ( semanticObject , ProcessorDslPackage . Literals . TABLE_DEFINITION__TABLE ) == ValueTransient . YES ) errorAcceptor . accept ( diagnosticProvider . createFeatureValueMissing ( semanticObject , ProcessorDslPackage . Literals . TABLE_DEFINITION__TABLE ) ) ; } INodesForEObjectProvider nodes = createNodeProvider ( semanticObject ) ; SequenceFeeder feeder = createSequencerFeeder ( semanticObject , nodes ) ; feeder . accept ( grammarAccess . getTableDefinitionAccess ( ) . getNameIDENTTerminalRuleCall_1_0 ( ) , semanticObject . getName ( ) ) ; feeder . accept ( grammarAccess . getTableDefinitionAccess ( ) . getTableIDENTTerminalRuleCall_2_0 ( ) , semanticObject . getTable ( ) ) ; feeder . finish ( ) ; } protected void sequence_TableUsage ( EObject context , TableUsage semanticObject ) { genericSequencer . createSequence ( context , semanticObject ) ; } } </s>
<s> package org . sqlproc . dsl . scoping ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . emf . ecore . EReference ; import org . eclipse . xtext . scoping . IScope ; import org . eclipse . xtext . scoping . impl . AbstractDeclarativeScopeProvider ; public class ProcessorDslScopeProvider extends AbstractDeclarativeScopeProvider { @ Override public IScope getScope ( EObject context , EReference reference ) { IScope scope = super . getScope ( context , reference ) ; return scope ; } } </s>
<s> package org . sqlproc . dsl . formatting ; import org . eclipse . xtext . formatting . impl . AbstractDeclarativeFormatter ; import org . eclipse . xtext . formatting . impl . FormattingConfig ; import org . sqlproc . dsl . services . ProcessorDslGrammarAccess ; public class ProcessorDslFormatter extends AbstractDeclarativeFormatter { @ Override protected void configureFormatting ( FormattingConfig c ) { ProcessorDslGrammarAccess grammarAccess = ( ProcessorDslGrammarAccess ) getGrammarAccess ( ) ; c . setNoSpace ( ) . before ( grammarAccess . getSEMICOLONRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getArtifactsRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getPropertyRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getPojoDefinitionRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getIdentifierUsageRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getColumnUsageRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getConstantUsageRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getMappingUsageRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getIdentifierUsageExtRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getColumnUsageExtRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getConstantUsageExtRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getMappingUsageExtRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getTableDefinitionRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getTableUsageRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getMetaStatementRule ( ) ) ; c . setLinewrap ( <NUM_LIT:1> , <NUM_LIT:1> , <NUM_LIT:2> ) . after ( grammarAccess . getOptionalFeatureRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_0_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_1_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_2_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_3_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_4_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_5_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_6_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_7_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMetaSqlAccess ( ) . getWSTerminalRuleCall_0_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMetaSqlAccess ( ) . getWSTerminalRuleCall_4_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIfMetaSqlAccess ( ) . getWSTerminalRuleCall_0_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_2 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_1 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_3 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_2_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_3 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getIdentifierRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getColumnRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getConstantRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMappingItemRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getDatabaseColumnRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getDatabaseTableRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMetaSqlAccess ( ) . getFtypeIDENTTerminalRuleCall_4_2_0 ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getNUMBERRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getANDRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getORRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getESC_CHARRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getCOLONRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getSTRINGRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getCOMMARule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMINUSRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getPLUSRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getLPARENRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getRPARENRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getLBRACERule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getRBRACERule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getQUESTIRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getNOTRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getBANDRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getBORRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getHASHRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getATRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getCARETRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getEQUALSRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getLESS_THANRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getMORE_THANRule ( ) ) ; c . setNoSpace ( ) . around ( grammarAccess . getPERCENTRule ( ) ) ; c . setLinewrap ( <NUM_LIT:0> , <NUM_LIT:1> , <NUM_LIT:2> ) . before ( grammarAccess . getSL_COMMENTRule ( ) ) ; c . setLinewrap ( <NUM_LIT:0> , <NUM_LIT:1> , <NUM_LIT:2> ) . before ( grammarAccess . getML_COMMENTRule ( ) ) ; c . setLinewrap ( <NUM_LIT:0> , <NUM_LIT:1> , <NUM_LIT:1> ) . after ( grammarAccess . getML_COMMENTRule ( ) ) ; } } </s>
<s> package org . sqlproc . dsl ; import org . apache . log4j . Logger ; import org . eclipse . emf . common . notify . Adapter ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . common . util . URI ; import org . eclipse . emf . ecore . resource . Resource ; import org . eclipse . xtext . resource . XtextResource ; import org . eclipse . xtext . resource . XtextResourceFactory ; import org . sqlproc . dsl . property . ModelProperty ; import com . google . inject . Inject ; import com . google . inject . Provider ; public class ProcessorResourceFactory extends XtextResourceFactory { protected Logger LOGGER = Logger . getLogger ( ProcessorResourceFactory . class ) ; @ Inject ModelProperty modelProperty ; @ Inject public ProcessorResourceFactory ( Provider < XtextResource > resourceProvider ) { super ( resourceProvider ) ; } @ Override public Resource createResource ( URI uri ) { Resource resource = super . createResource ( uri ) ; LOGGER . debug ( "<STR_LIT>" + resource + "<STR_LIT>" + uri + "<STR_LIT:'>" ) ; EList < Adapter > adapters = resource . eAdapters ( ) ; adapters . add ( modelProperty ) ; resource . eSetDeliver ( true ) ; return resource ; } } </s>
<s> package org . sqlproc . dsl . resolver ; public interface PojoResolverFactory { PojoResolver getPojoResolver ( ) ; void setPojoResolver ( PojoResolver pojoResolver ) ; } </s>
<s> package org . sqlproc . dsl . resolver ; import com . google . inject . Singleton ; @ Singleton public class PojoResolverFactoryBean implements PojoResolverFactory { private PojoResolver pojoResolver ; public PojoResolver getPojoResolver ( ) { return pojoResolver ; } public void setPojoResolver ( PojoResolver pojoResolver ) { this . pojoResolver = pojoResolver ; } } </s>
<s> package org . sqlproc . dsl . resolver ; import java . util . Collections ; import java . util . List ; public class DbModel { List < DbColumn > dbColumns ; List < DbExport > dbExports ; List < DbImport > dbImports ; public DbModel ( ) { dbColumns = Collections . emptyList ( ) ; dbExports = Collections . emptyList ( ) ; dbImports = Collections . emptyList ( ) ; } public List < DbColumn > getDbColumns ( ) { return dbColumns ; } public void setDbColumns ( List < DbColumn > dbColumns ) { this . dbColumns = dbColumns ; } public List < DbExport > getDbExports ( ) { return dbExports ; } public void setDbExports ( List < DbExport > dbExports ) { this . dbExports = dbExports ; } public List < DbImport > getDbImports ( ) { return dbImports ; } public void setDbImports ( List < DbImport > dbImports ) { this . dbImports = dbImports ; } } </s>
<s> package org . sqlproc . dsl . resolver ; public class DbColumn implements Comparable < DbColumn > { private String name ; private String type ; private int size ; private int sqlType ; private boolean nullable ; private int position ; public DbColumn ( ) { } public String getName ( ) { return name ; } public void setName ( String name ) { this . name = name ; } public String getType ( ) { return type ; } public void setType ( String type ) { this . type = type ; } public int getSize ( ) { return size ; } public void setSize ( int size ) { this . size = size ; } public int getSqlType ( ) { return sqlType ; } public void setSqlType ( int sqlType ) { this . sqlType = sqlType ; } public boolean isNullable ( ) { return nullable ; } public void setNullable ( boolean nullable ) { this . nullable = nullable ; } public int getPosition ( ) { return position ; } public void setPosition ( int position ) { this . position = position ; } @ Override public int compareTo ( DbColumn dbColumn ) { return position - dbColumn . getPosition ( ) ; } @ Override public String toString ( ) { return "<STR_LIT>" + name + "<STR_LIT>" + type + "<STR_LIT>" + size + "<STR_LIT>" + sqlType + "<STR_LIT>" + nullable + "<STR_LIT>" + position + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl . resolver ; import java . sql . Connection ; import java . sql . DatabaseMetaData ; import java . sql . Driver ; import java . sql . ResultSet ; import java . sql . SQLException ; import java . util . ArrayList ; import java . util . Collections ; import java . util . HashMap ; import java . util . List ; import java . util . Map ; import java . util . Properties ; import org . apache . log4j . Logger ; import org . eclipse . emf . ecore . EObject ; import org . sqlproc . dsl . property . ModelProperty ; import org . sqlproc . dsl . property . ModelPropertyBean ; import com . google . inject . Inject ; import com . google . inject . Singleton ; @ Singleton public class DbResolverBean implements DbResolver { public static class DatabaseValues { public String dbDriver ; public String dbUrl ; public String dbUsername ; public String dbPassword ; public String dbSchema ; public String dir ; public Connection connection ; boolean doReconnect ; @ Override public String toString ( ) { return "<STR_LIT>" + dbDriver + "<STR_LIT>" + dbUrl + "<STR_LIT>" + dbUsername + "<STR_LIT>" + dbPassword + "<STR_LIT>" + dbSchema + "<STR_LIT>" + connection + "<STR_LIT:]>" ; } } @ Inject ModelProperty modelProperty ; @ Inject PojoResolverFactory pojoResolverFactory ; protected Logger LOGGER = Logger . getLogger ( DbResolverBean . class ) ; private final Object sync = new Object ( ) ; private final Map < String , DatabaseValues > connections = Collections . synchronizedMap ( new HashMap < String , DatabaseValues > ( ) ) ; private final Map < String , List < String > > tables = Collections . synchronizedMap ( new HashMap < String , List < String > > ( ) ) ; private final Map < String , Map < String , List < String > > > columns = Collections . synchronizedMap ( new HashMap < String , Map < String , List < String > > > ( ) ) ; private final Map < String , Map < String , List < DbColumn > > > dbColumns = Collections . synchronizedMap ( new HashMap < String , Map < String , List < DbColumn > > > ( ) ) ; private final Map < String , Map < String , List < String > > > dbPrimaryKeys = Collections . synchronizedMap ( new HashMap < String , Map < String , List < String > > > ( ) ) ; private final Map < String , Map < String , List < DbExport > > > dbExports = Collections . synchronizedMap ( new HashMap < String , Map < String , List < DbExport > > > ( ) ) ; private final Map < String , Map < String , List < DbImport > > > dbImports = Collections . synchronizedMap ( new HashMap < String , Map < String , List < DbImport > > > ( ) ) ; private DatabaseValues checkReconnect ( EObject model ) { if ( model == null ) return null ; ModelPropertyBean . ModelValues modelModelValues = modelProperty . getModelValues ( model ) ; DatabaseValues modelDatabaseValues = connections . get ( modelModelValues . dir ) ; if ( modelDatabaseValues == null ) { modelDatabaseValues = new DatabaseValues ( ) ; modelDatabaseValues . dir = modelModelValues . dir ; connections . put ( modelModelValues . dir , modelDatabaseValues ) ; } if ( ! modelModelValues . doResolveDb ) { closeConnection ( modelDatabaseValues ) ; return null ; } modelDatabaseValues . doReconnect = ( modelDatabaseValues . connection != null ) ? false : true ; if ( modelModelValues . dbDriver != null ) { if ( ! modelModelValues . dbDriver . equals ( modelDatabaseValues . dbDriver ) ) { modelDatabaseValues . dbDriver = modelModelValues . dbDriver ; modelDatabaseValues . doReconnect = true ; } } else { modelDatabaseValues . dbDriver = null ; closeConnection ( modelDatabaseValues ) ; return null ; } if ( modelModelValues . dbUrl != null ) { if ( ! modelModelValues . dbUrl . equals ( modelDatabaseValues . dbUrl ) ) { modelDatabaseValues . dbUrl = modelModelValues . dbUrl ; modelDatabaseValues . doReconnect = true ; } } else { modelDatabaseValues . dbUrl = null ; closeConnection ( modelDatabaseValues ) ; return null ; } if ( modelModelValues . dbUsername != null ) { if ( ! modelModelValues . dbUsername . equals ( modelDatabaseValues . dbUsername ) ) { modelDatabaseValues . dbUsername = modelModelValues . dbUsername ; modelDatabaseValues . doReconnect = true ; } } else { modelDatabaseValues . dbUsername = null ; closeConnection ( modelDatabaseValues ) ; return null ; } if ( modelModelValues . dbPassword != null ) { if ( ! modelModelValues . dbPassword . equals ( modelDatabaseValues . dbPassword ) ) { modelDatabaseValues . dbPassword = modelModelValues . dbPassword ; modelDatabaseValues . doReconnect = true ; } } else { modelDatabaseValues . dbPassword = null ; closeConnection ( modelDatabaseValues ) ; return null ; } if ( modelModelValues . dbSchema != null ) { if ( ! modelModelValues . dbSchema . equals ( modelDatabaseValues . dbSchema ) ) { modelDatabaseValues . dbSchema = modelModelValues . dbSchema ; } } else modelDatabaseValues . dbSchema = null ; return modelDatabaseValues ; } private DatabaseValues getConnection ( EObject model ) { DatabaseValues modelDatabaseValues = checkReconnect ( model ) ; if ( modelDatabaseValues == null ) return null ; if ( ! modelDatabaseValues . doReconnect ) return modelDatabaseValues ; closeConnection ( modelDatabaseValues ) ; synchronized ( sync ) { LOGGER . info ( "<STR_LIT>" + modelDatabaseValues . dir ) ; Class < ? > driverClass = pojoResolverFactory . getPojoResolver ( ) . loadClass ( modelDatabaseValues . dbDriver ) ; LOGGER . info ( "<STR_LIT>" + driverClass ) ; if ( driverClass != null && Driver . class . isAssignableFrom ( driverClass ) ) { try { Driver driver = ( Driver ) driverClass . newInstance ( ) ; Properties props = new Properties ( ) ; props . setProperty ( "<STR_LIT:user>" , modelDatabaseValues . dbUsername ) ; props . setProperty ( "<STR_LIT:password>" , modelDatabaseValues . dbPassword ) ; String dbUrl = modelDatabaseValues . dbUrl . replaceAll ( "<STR_LIT>" , "<STR_LIT:/>" ) ; modelDatabaseValues . connection = driver . connect ( dbUrl , props ) ; LOGGER . info ( "<STR_LIT>" + dbUrl ) ; LOGGER . info ( "<STR_LIT>" + modelDatabaseValues . connection ) ; } catch ( InstantiationException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } catch ( IllegalAccessException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } return modelDatabaseValues ; } } private void closeConnection ( DatabaseValues modelDatabaseValues ) { synchronized ( sync ) { try { if ( modelDatabaseValues . connection != null ) { LOGGER . info ( "<STR_LIT>" + modelDatabaseValues . dir ) ; modelDatabaseValues . connection . close ( ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } modelDatabaseValues . connection = null ; tables . remove ( modelDatabaseValues . dir ) ; columns . remove ( modelDatabaseValues . dir ) ; dbColumns . remove ( modelDatabaseValues . dir ) ; dbExports . remove ( modelDatabaseValues . dir ) ; dbImports . remove ( modelDatabaseValues . dir ) ; } } @ Override public boolean isResolveDb ( EObject model ) { return getConnection ( model ) != null ; } @ Override public List < String > getTables ( EObject model ) { DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; List < String > tablesForModel = tables . get ( modelDatabaseValues . dir ) ; if ( tablesForModel != null ) return tablesForModel ; tablesForModel = Collections . synchronizedList ( new ArrayList < String > ( ) ) ; tables . put ( modelDatabaseValues . dir , tablesForModel ) ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getTables ( null , modelDatabaseValues . dbSchema , null , new String [ ] { "<STR_LIT>" , "<STR_LIT>" } ) ; while ( result . next ( ) ) { tablesForModel . add ( result . getString ( "<STR_LIT>" ) ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return tablesForModel ; } @ Override public boolean checkTable ( EObject model , String table ) { if ( table == null ) return false ; return getTables ( model ) . contains ( table ) ; } @ Override public List < String > getColumns ( EObject model , String table ) { if ( table == null ) return Collections . emptyList ( ) ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; boolean doInit = false ; Map < String , List < String > > allColumnsForModel = columns . get ( modelDatabaseValues . dir ) ; if ( allColumnsForModel == null ) { allColumnsForModel = Collections . synchronizedMap ( new HashMap < String , List < String > > ( ) ) ; columns . put ( modelDatabaseValues . dir , allColumnsForModel ) ; doInit = true ; } List < String > columnsForModel = allColumnsForModel . get ( table ) ; if ( columnsForModel == null ) { columnsForModel = Collections . synchronizedList ( new ArrayList < String > ( ) ) ; allColumnsForModel . put ( table , columnsForModel ) ; doInit = true ; } if ( ! doInit ) return columnsForModel ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getColumns ( null , modelDatabaseValues . dbSchema , table , null ) ; while ( result . next ( ) ) { columnsForModel . add ( result . getString ( "<STR_LIT>" ) ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return columnsForModel ; } @ Override public boolean checkColumn ( EObject model , String table , String column ) { if ( table == null \|\| column == null ) return false ; return getColumns ( model , table ) . contains ( column ) ; } @ Override public List < DbColumn > getDbColumns ( EObject model , String table ) { if ( table == null ) return Collections . emptyList ( ) ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; boolean doInit = false ; Map < String , List < DbColumn > > allColumnsForModel = dbColumns . get ( modelDatabaseValues . dir ) ; if ( allColumnsForModel == null ) { allColumnsForModel = Collections . synchronizedMap ( new HashMap < String , List < DbColumn > > ( ) ) ; dbColumns . put ( modelDatabaseValues . dir , allColumnsForModel ) ; doInit = true ; } List < DbColumn > columnsForModel = allColumnsForModel . get ( table ) ; if ( columnsForModel == null ) { columnsForModel = Collections . synchronizedList ( new ArrayList < DbColumn > ( ) ) ; allColumnsForModel . put ( table , columnsForModel ) ; doInit = true ; } if ( ! doInit ) return columnsForModel ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getColumns ( null , modelDatabaseValues . dbSchema , table , null ) ; while ( result . next ( ) ) { DbColumn dbColumn = new DbColumn ( ) ; dbColumn . setName ( result . getString ( "<STR_LIT>" ) ) ; dbColumn . setType ( result . getString ( "<STR_LIT>" ) ) ; int ix = dbColumn . getType ( ) . indexOf ( '<CHAR_LIT:(>' ) ; if ( ix > <NUM_LIT:0> ) { String size = dbColumn . getType ( ) . substring ( ix + <NUM_LIT:1> ) ; dbColumn . setType ( dbColumn . getType ( ) . substring ( <NUM_LIT:0> , ix ) ) ; ix = size . indexOf ( '<CHAR_LIT:)>' ) ; if ( ix > <NUM_LIT:0> ) { size = size . substring ( <NUM_LIT:0> , ix ) ; } try { dbColumn . setSize ( Integer . parseInt ( size ) ) ; } catch ( Exception ignore ) { } } else { dbColumn . setSize ( result . getInt ( "<STR_LIT>" ) ) ; } dbColumn . setSqlType ( result . getInt ( "<STR_LIT>" ) ) ; dbColumn . setNullable ( result . getInt ( "<STR_LIT>" ) != DatabaseMetaData . columnNoNulls ) ; dbColumn . setPosition ( result . getInt ( "<STR_LIT>" ) ) ; columnsForModel . add ( dbColumn ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return columnsForModel ; } @ Override public List < String > getDbPrimaryKeys ( EObject model , String table ) { if ( table == null ) return Collections . emptyList ( ) ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; boolean doInit = false ; Map < String , List < String > > allPrimaryKeysForModel = dbPrimaryKeys . get ( modelDatabaseValues . dir ) ; if ( allPrimaryKeysForModel == null ) { allPrimaryKeysForModel = Collections . synchronizedMap ( new HashMap < String , List < String > > ( ) ) ; dbPrimaryKeys . put ( modelDatabaseValues . dir , allPrimaryKeysForModel ) ; doInit = true ; } List < String > primaryKeysForModel = allPrimaryKeysForModel . get ( table ) ; if ( primaryKeysForModel == null ) { primaryKeysForModel = Collections . synchronizedList ( new ArrayList < String > ( ) ) ; allPrimaryKeysForModel . put ( table , primaryKeysForModel ) ; doInit = true ; } if ( ! doInit ) return primaryKeysForModel ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getPrimaryKeys ( null , modelDatabaseValues . dbSchema , table ) ; while ( result . next ( ) ) { primaryKeysForModel . add ( result . getString ( "<STR_LIT>" ) ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return primaryKeysForModel ; } @ Override public List < DbExport > getDbExports ( EObject model , String table ) { if ( table == null ) return Collections . emptyList ( ) ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; boolean doInit = false ; Map < String , List < DbExport > > allExportsForModel = dbExports . get ( modelDatabaseValues . dir ) ; if ( allExportsForModel == null ) { allExportsForModel = Collections . synchronizedMap ( new HashMap < String , List < DbExport > > ( ) ) ; dbExports . put ( modelDatabaseValues . dir , allExportsForModel ) ; doInit = true ; } List < DbExport > exportsForModel = allExportsForModel . get ( table ) ; if ( exportsForModel == null ) { exportsForModel = Collections . synchronizedList ( new ArrayList < DbExport > ( ) ) ; allExportsForModel . put ( table , exportsForModel ) ; doInit = true ; } if ( ! doInit ) return exportsForModel ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getExportedKeys ( null , modelDatabaseValues . dbSchema , table ) ; while ( result . next ( ) ) { DbExport dbExport = new DbExport ( ) ; dbExport . setPkTable ( result . getString ( "<STR_LIT>" ) ) ; dbExport . setPkColumn ( result . getString ( "<STR_LIT>" ) ) ; dbExport . setFkTable ( result . getString ( "<STR_LIT>" ) ) ; dbExport . setFkColumn ( result . getString ( "<STR_LIT>" ) ) ; dbExport . setFkName ( result . getString ( "<STR_LIT>" ) ) ; dbExport . setPkName ( result . getString ( "<STR_LIT>" ) ) ; exportsForModel . add ( dbExport ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return exportsForModel ; } @ Override public List < DbImport > getDbImports ( EObject model , String table ) { if ( table == null ) return Collections . emptyList ( ) ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return Collections . emptyList ( ) ; boolean doInit = false ; Map < String , List < DbImport > > allImportsForModel = dbImports . get ( modelDatabaseValues . dir ) ; if ( allImportsForModel == null ) { allImportsForModel = Collections . synchronizedMap ( new HashMap < String , List < DbImport > > ( ) ) ; dbImports . put ( modelDatabaseValues . dir , allImportsForModel ) ; doInit = true ; } List < DbImport > importsForModel = allImportsForModel . get ( table ) ; if ( importsForModel == null ) { importsForModel = Collections . synchronizedList ( new ArrayList < DbImport > ( ) ) ; allImportsForModel . put ( table , importsForModel ) ; doInit = true ; } if ( ! doInit ) return importsForModel ; if ( modelDatabaseValues . connection != null ) { ResultSet result = null ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getImportedKeys ( null , modelDatabaseValues . dbSchema , table ) ; while ( result . next ( ) ) { DbImport dbImport = new DbImport ( ) ; dbImport . setPkTable ( result . getString ( "<STR_LIT>" ) ) ; dbImport . setPkColumn ( result . getString ( "<STR_LIT>" ) ) ; dbImport . setFkTable ( result . getString ( "<STR_LIT>" ) ) ; dbImport . setFkColumn ( result . getString ( "<STR_LIT>" ) ) ; dbImport . setFkName ( result . getString ( "<STR_LIT>" ) ) ; dbImport . setPkName ( result . getString ( "<STR_LIT>" ) ) ; importsForModel . add ( dbImport ) ; } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } } return importsForModel ; } @ Override public String getType ( EObject model , String table , String column ) { if ( table == null \|\| column == null ) return "<STR_LIT>" ; DatabaseValues modelDatabaseValues = getConnection ( model ) ; if ( modelDatabaseValues == null ) return "<STR_LIT>" ; ResultSet result = null ; String type = null ; int typeSize = <NUM_LIT:0> ; try { DatabaseMetaData meta = modelDatabaseValues . connection . getMetaData ( ) ; result = meta . getColumns ( null , modelDatabaseValues . dbSchema , table , null ) ; while ( result . next ( ) ) { if ( result . getString ( "<STR_LIT>" ) . equals ( column ) ) { type = result . getString ( "<STR_LIT>" ) ; int ix = type . indexOf ( '<CHAR_LIT:(>' ) ; if ( ix > <NUM_LIT:0> ) { String size = type . substring ( ix + <NUM_LIT:1> ) ; type = type . substring ( <NUM_LIT:0> , ix ) ; ix = size . indexOf ( '<CHAR_LIT:)>' ) ; if ( ix > <NUM_LIT:0> ) { size = size . substring ( <NUM_LIT:0> , ix ) ; } try { typeSize = Integer . parseInt ( size ) ; } catch ( Exception ignore ) { } } else { typeSize = result . getInt ( "<STR_LIT>" ) ; } break ; } } } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } finally { try { if ( result != null ) result . close ( ) ; } catch ( SQLException e ) { LOGGER . error ( "<STR_LIT>" + e ) ; } } return type + "<STR_LIT:(>" + typeSize + "<STR_LIT:)>" ; } } </s>
<s> package org . sqlproc . dsl . resolver ; import java . beans . PropertyDescriptor ; import java . net . URLClassLoader ; import java . util . List ; import org . eclipse . emf . ecore . EObject ; public interface PojoResolver { public static final String POJO_ANNOTATION_CLASS = "<STR_LIT>" ; List < URLClassLoader > getAllLoaders ( ) ; Class < ? > loadClass ( String name ) ; public PropertyDescriptor [ ] getPropertyDescriptors ( String name ) ; boolean isResolvePojo ( EObject model ) ; List < Class < ? > > getPojoClasses ( ) ; } </s>
<s> package org . sqlproc . dsl . resolver ; public class DbExport { String pkTable ; String pkColumn ; String fkTable ; String fkColumn ; String fkName ; String pkName ; public String getPkTable ( ) { return pkTable ; } public void setPkTable ( String pkTable ) { this . pkTable = pkTable ; } public String getPkColumn ( ) { return pkColumn ; } public void setPkColumn ( String pkColumn ) { this . pkColumn = pkColumn ; } public String getFkTable ( ) { return fkTable ; } public void setFkTable ( String fkTable ) { this . fkTable = fkTable ; } public String getFkColumn ( ) { return fkColumn ; } public void setFkColumn ( String fkColumn ) { this . fkColumn = fkColumn ; } public String getFkName ( ) { return fkName ; } public void setFkName ( String fkName ) { this . fkName = fkName ; } public String getPkName ( ) { return pkName ; } public void setPkName ( String pkName ) { this . pkName = pkName ; } @ Override public String toString ( ) { return "<STR_LIT>" + pkTable + "<STR_LIT>" + pkColumn + "<STR_LIT>" + fkTable + "<STR_LIT>" + fkColumn + "<STR_LIT>" + fkName + "<STR_LIT>" + pkName + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl . resolver ; import java . util . List ; import org . eclipse . emf . ecore . EObject ; public interface DbResolver { boolean isResolveDb ( EObject model ) ; List < String > getTables ( EObject model ) ; boolean checkTable ( EObject model , String table ) ; List < String > getColumns ( EObject model , String table ) ; boolean checkColumn ( EObject model , String table , String column ) ; List < DbColumn > getDbColumns ( EObject model , String table ) ; List < DbExport > getDbExports ( EObject model , String table ) ; List < DbImport > getDbImports ( EObject model , String table ) ; List < String > getDbPrimaryKeys ( EObject model , String table ) ; String getType ( EObject model , String table , String column ) ; } </s>
<s> package org . sqlproc . dsl . resolver ; public class DbImport { String pkTable ; String pkColumn ; String fkTable ; String fkColumn ; String fkName ; String pkName ; public String getPkTable ( ) { return pkTable ; } public void setPkTable ( String pkTable ) { this . pkTable = pkTable ; } public String getPkColumn ( ) { return pkColumn ; } public void setPkColumn ( String pkColumn ) { this . pkColumn = pkColumn ; } public String getFkTable ( ) { return fkTable ; } public void setFkTable ( String fkTable ) { this . fkTable = fkTable ; } public String getFkColumn ( ) { return fkColumn ; } public void setFkColumn ( String fkColumn ) { this . fkColumn = fkColumn ; } public String getFkName ( ) { return fkName ; } public void setFkName ( String fkName ) { this . fkName = fkName ; } public String getPkName ( ) { return pkName ; } public void setPkName ( String pkName ) { this . pkName = pkName ; } @ Override public String toString ( ) { return "<STR_LIT>" + pkTable + "<STR_LIT>" + pkColumn + "<STR_LIT>" + fkTable + "<STR_LIT>" + fkColumn + "<STR_LIT>" + fkName + "<STR_LIT>" + pkName + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl ; import java . util . Iterator ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . CrossReference ; import org . eclipse . xtext . naming . IQualifiedNameConverter ; import org . eclipse . xtext . naming . IQualifiedNameProvider ; import org . eclipse . xtext . naming . QualifiedName ; import org . eclipse . xtext . nodemodel . ICompositeNode ; import org . eclipse . xtext . nodemodel . ILeafNode ; import org . eclipse . xtext . nodemodel . util . NodeModelUtils ; import org . eclipse . xtext . util . SimpleAttributeResolver ; import org . sqlproc . dsl . processorDsl . PojoUsage ; import org . sqlproc . dsl . processorDsl . PojoUsageExt ; import org . sqlproc . dsl . processorDsl . TableUsage ; import com . google . inject . Inject ; public class ProcessorNameProvider extends IQualifiedNameProvider . AbstractImpl { @ Inject private IQualifiedNameConverter qualifiedNameConverter ; public QualifiedName getFullyQualifiedName ( EObject obj ) { if ( obj instanceof PojoUsage \|\| obj instanceof PojoUsageExt ) { String name = null ; ICompositeNode parserNode = NodeModelUtils . getNode ( obj ) ; Iterable < ILeafNode > iterables = parserNode . getLeafNodes ( ) ; for ( Iterator < ILeafNode > iter = iterables . iterator ( ) ; iter . hasNext ( ) ; ) { ILeafNode node = iter . next ( ) ; if ( node . isHidden ( ) ) continue ; if ( node . getGrammarElement ( ) != null && node . getGrammarElement ( ) instanceof CrossReference ) { name = node . getText ( ) ; break ; } } if ( name == null ) return null ; return qualifiedNameConverter . toQualifiedName ( name ) ; } else if ( obj instanceof TableUsage ) { String name = null ; ICompositeNode parserNode = NodeModelUtils . getNode ( obj ) ; Iterable < ILeafNode > iterables = parserNode . getLeafNodes ( ) ; for ( Iterator < ILeafNode > iter = iterables . iterator ( ) ; iter . hasNext ( ) ; ) { ILeafNode node = iter . next ( ) ; if ( node . isHidden ( ) ) continue ; if ( node . getGrammarElement ( ) != null && node . getGrammarElement ( ) instanceof CrossReference ) { if ( name == null ) name = node . getText ( ) ; } else { if ( "<STR_LIT>" . equals ( node . getText ( ) ) \|\| "<STR_LIT>" . equals ( node . getText ( ) ) ) continue ; name = name + "<STR_LIT:_>" + node . getText ( ) ; break ; } } if ( name == null ) return null ; return qualifiedNameConverter . toQualifiedName ( name ) ; } String name = SimpleAttributeResolver . NAME_RESOLVER . apply ( obj ) ; if ( name == null ) return null ; return qualifiedNameConverter . toQualifiedName ( name ) ; } } </s>
<s> package org . sqlproc . dsl ; import org . apache . log4j . Logger ; import org . eclipse . emf . common . notify . Adapter ; import org . eclipse . emf . common . notify . Notifier ; import org . eclipse . emf . common . notify . impl . BasicNotifierImpl . EObservableAdapterList ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EClassifier ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . nodemodel . impl . CompositeNodeWithSemanticElement ; import org . eclipse . xtext . parser . DefaultEcoreElementFactory ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . property . ModelProperty ; import com . google . inject . Inject ; public class ProcessorEcoreElementFactory extends DefaultEcoreElementFactory { protected Logger LOGGER = Logger . getLogger ( ProcessorEcoreElementFactory . class ) ; @ Inject ModelProperty modelProperty ; public ProcessorEcoreElementFactory ( ) { super ( ) ; } @ Override public EObject create ( EClassifier classifier ) { EObject model = super . create ( classifier ) ; if ( model == null ) return null ; if ( model instanceof Artifacts ) { LOGGER . debug ( "<STR_LIT>" + model ) ; EList < Adapter > adapters = model . eAdapters ( ) ; adapters . add ( modelProperty ) ; model . eSetDeliver ( true ) ; } return model ; } EObservableAdapterList . Listener listener = new EObservableAdapterList . Listener ( ) { @ Override public void removed ( Notifier notifier , Adapter adapter ) { System . out . println ( "<STR_LIT>" + adapter + "<STR_LIT>" + notifier + "<STR_LIT:'>" ) ; } @ Override public void added ( Notifier notifier , Adapter adapter ) { System . out . println ( "<STR_LIT>" + adapter + "<STR_LIT>" + notifier + "<STR_LIT:'>" ) ; if ( adapter instanceof CompositeNodeWithSemanticElement ) { CompositeNodeWithSemanticElement node = ( CompositeNodeWithSemanticElement ) adapter ; LOGGER . debug ( "<STR_LIT>" + node ) ; } } } ; } </s>
<s> package org . sqlproc . dsl . util ; import java . util . ArrayList ; import java . util . List ; import org . eclipse . emf . ecore . resource . Resource ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier1 ; import org . sqlproc . dsl . processorDsl . PojoEntityModifier2 ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . PojoPropertyModifier ; public class Utils { public static String resourceDir ( Resource resource ) { String uri = ( resource . getURI ( ) != null ) ? resource . getURI ( ) . toString ( ) : null ; String dir = null ; if ( uri != null ) { dir = uri ; int ix = uri . lastIndexOf ( "<STR_LIT:/>" ) ; if ( ix > <NUM_LIT:0> ) dir = uri . substring ( <NUM_LIT:0> , ix ) ; } return dir ; } public static boolean isList ( PojoProperty f ) { if ( f . getType ( ) == null ) return false ; if ( f . getType ( ) . getSimpleName ( ) . equals ( "<STR_LIT>" ) ) return true ; return false ; } public static boolean isRequired ( PojoProperty f ) { if ( f . getModifiers ( ) == null \|\| f . getModifiers ( ) . isEmpty ( ) ) return false ; for ( PojoPropertyModifier modifier : f . getModifiers ( ) ) { if ( modifier . isRequired ( ) ) return true ; } return false ; } public static boolean isDiscriminator ( PojoProperty f ) { if ( f . getModifiers ( ) == null \|\| f . getModifiers ( ) . isEmpty ( ) ) return false ; for ( PojoPropertyModifier modifier : f . getModifiers ( ) ) { if ( modifier . isDiscriminator ( ) ) return true ; } return false ; } public static boolean isPrimaryKey ( PojoProperty f ) { if ( f . getModifiers ( ) == null \|\| f . getModifiers ( ) . isEmpty ( ) ) return false ; for ( PojoPropertyModifier modifier : f . getModifiers ( ) ) { if ( modifier . isPrimaryKey ( ) ) return true ; } return false ; } public static boolean isAbstract ( PojoEntity e ) { if ( e . getModifiers1 ( ) == null \|\| e . getModifiers1 ( ) . isEmpty ( ) ) return false ; for ( PojoEntityModifier1 modifier : e . getModifiers1 ( ) ) { if ( modifier . isAbstract ( ) ) return true ; } return false ; } public static boolean isFinal ( PojoEntity e ) { if ( e . getModifiers1 ( ) == null \|\| e . getModifiers1 ( ) . isEmpty ( ) ) return false ; for ( PojoEntityModifier1 modifier : e . getModifiers1 ( ) ) { if ( modifier . isFinal ( ) ) return true ; } return false ; } public static PojoEntity getSuperType ( PojoEntity e ) { if ( e . getModifiers2 ( ) == null \|\| e . getModifiers2 ( ) . isEmpty ( ) ) return null ; for ( PojoEntityModifier2 modifier : e . getModifiers2 ( ) ) { if ( modifier . getSuperType ( ) != null ) return modifier . getSuperType ( ) ; } return null ; } public static String getDiscriminator ( PojoEntity e ) { if ( e . getModifiers2 ( ) == null \|\| e . getModifiers2 ( ) . isEmpty ( ) ) return null ; for ( PojoEntityModifier2 modifier : e . getModifiers2 ( ) ) { if ( modifier . getDiscriminator ( ) != null ) return modifier . getDiscriminator ( ) ; } return null ; } public static String getSernum ( PojoEntity e ) { if ( e . getModifiers2 ( ) == null \|\| e . getModifiers2 ( ) . isEmpty ( ) ) return null ; for ( PojoEntityModifier2 modifier : e . getModifiers2 ( ) ) { if ( modifier . getSernum ( ) != null ) return modifier . getSernum ( ) ; } return null ; } public static List < PojoProperty > requiredFeatures ( PojoEntity e ) { List < PojoProperty > features = new ArrayList < PojoProperty > ( ) ; if ( e == null \|\| e . getFeatures ( ) == null ) return features ; for ( PojoProperty f : e . getFeatures ( ) ) { if ( isRequired ( f ) ) features . add ( f ) ; } PojoEntity s = getSuperType ( e ) ; if ( s == null ) return features ; requiredFeatures ( s ) . addAll ( features ) ; return features ; } } </s>
<s> package org . sqlproc . dsl . util ; import java . util . Set ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . IfSql ; import org . sqlproc . dsl . processorDsl . IfSqlBool ; import org . sqlproc . dsl . processorDsl . IfSqlCond ; import org . sqlproc . dsl . processorDsl . IfSqlFragment ; import org . sqlproc . dsl . processorDsl . MappingColumn ; import org . sqlproc . dsl . processorDsl . MappingItem ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . OrdSql2 ; import org . sqlproc . dsl . processorDsl . SqlFragment ; public class Collector { public static void allVariables ( MetaStatement metaStatement , Set < Identifier > identifiers , Set < Constant > constants , Set < Column > columns , Set < DatabaseColumn > databaseColumns ) { if ( metaStatement . getStatement ( ) != null && metaStatement . getStatement ( ) . getSqls ( ) != null ) { for ( SqlFragment sqlFragment : metaStatement . getStatement ( ) . getSqls ( ) ) { if ( sqlFragment . getIdent ( ) != null ) { identifiers . add ( sqlFragment . getIdent ( ) ) ; } else if ( sqlFragment . getCnst ( ) != null ) { constants . add ( sqlFragment . getCnst ( ) ) ; } else if ( sqlFragment . getCol ( ) != null ) { columns . add ( sqlFragment . getCol ( ) ) ; } else if ( sqlFragment . getDbcol ( ) != null ) { databaseColumns . add ( sqlFragment . getDbcol ( ) ) ; } else if ( sqlFragment . getMeta ( ) != null ) { if ( sqlFragment . getMeta ( ) . getIfs ( ) != null ) { for ( IfSql ifSql : sqlFragment . getMeta ( ) . getIfs ( ) ) { allVariables ( ifSql , identifiers , constants , columns , databaseColumns ) ; } } if ( sqlFragment . getMeta ( ) . getCond ( ) != null ) { allVariables ( sqlFragment . getMeta ( ) . getCond ( ) , identifiers , constants , columns , databaseColumns ) ; } if ( sqlFragment . getMeta ( ) . getOrd ( ) != null && sqlFragment . getMeta ( ) . getOrd ( ) . getSqls ( ) != null ) { for ( OrdSql2 ordSql2 : sqlFragment . getMeta ( ) . getOrd ( ) . getSqls ( ) ) { if ( ordSql2 . getIdent ( ) != null ) { identifiers . add ( sqlFragment . getIdent ( ) ) ; } else if ( ordSql2 . getCnst ( ) != null ) { constants . add ( sqlFragment . getCnst ( ) ) ; } else if ( ordSql2 . getDbcol ( ) != null ) { databaseColumns . add ( ordSql2 . getDbcol ( ) ) ; } } } } } } } public static void allVariables ( IfSql ifSql , Set < Identifier > identifiers , Set < Constant > constants , Set < Column > columns , Set < DatabaseColumn > databaseColumns ) { if ( ifSql . getSqls ( ) != null ) { for ( IfSqlFragment ifSqlFragment : ifSql . getSqls ( ) ) { if ( ifSqlFragment . getIdent ( ) != null ) { identifiers . add ( ifSqlFragment . getIdent ( ) ) ; } else if ( ifSqlFragment . getCnst ( ) != null ) { constants . add ( ifSqlFragment . getCnst ( ) ) ; } else if ( ifSqlFragment . getCol ( ) != null ) { columns . add ( ifSqlFragment . getCol ( ) ) ; } else if ( ifSqlFragment . getDbcol ( ) != null ) { databaseColumns . add ( ifSqlFragment . getDbcol ( ) ) ; } else if ( ifSqlFragment . getMeta ( ) != null ) { if ( ifSqlFragment . getMeta ( ) . getCond ( ) != null ) { allVariables ( ifSqlFragment . getMeta ( ) . getCond ( ) , identifiers , constants , columns , databaseColumns ) ; } else if ( ifSqlFragment . getMeta ( ) . getIfs ( ) != null ) { for ( IfSql ifSql2 : ifSqlFragment . getMeta ( ) . getIfs ( ) ) { allVariables ( ifSql2 , identifiers , constants , columns , databaseColumns ) ; } } } } } } public static void allVariables ( IfSqlCond ifSqlCond , Set < Identifier > identifiers , Set < Constant > constants , Set < Column > columns , Set < DatabaseColumn > databaseColumns ) { if ( ifSqlCond . getBool1 ( ) != null ) { if ( ifSqlCond . getBool1 ( ) . getIdent ( ) != null ) { identifiers . add ( ifSqlCond . getBool1 ( ) . getIdent ( ) ) ; } else if ( ifSqlCond . getBool1 ( ) . getCnst ( ) != null ) { constants . add ( ifSqlCond . getBool1 ( ) . getCnst ( ) ) ; } else if ( ifSqlCond . getBool1 ( ) . getCond ( ) != null ) { allVariables ( ifSqlCond . getBool1 ( ) . getCond ( ) , identifiers , constants , columns , databaseColumns ) ; } } if ( ifSqlCond . getBool2 ( ) != null ) { for ( IfSqlBool ifSqlBool : ifSqlCond . getBool2 ( ) ) { if ( ifSqlBool . getIdent ( ) != null ) { identifiers . add ( ifSqlBool . getIdent ( ) ) ; } else if ( ifSqlBool . getCnst ( ) != null ) { constants . add ( ifSqlBool . getCnst ( ) ) ; } else if ( ifSqlBool . getCond ( ) != null ) { allVariables ( ifSqlBool . getCond ( ) , identifiers , constants , columns , databaseColumns ) ; } } } } public static void allVariables ( MappingRule mappingRule , Set < MappingColumn > columns ) { if ( mappingRule . getMapping ( ) != null && mappingRule . getMapping ( ) . getMappingItems ( ) != null ) { for ( MappingItem mappingItem : mappingRule . getMapping ( ) . getMappingItems ( ) ) { if ( mappingItem . getAttr ( ) != null ) { columns . add ( mappingItem . getAttr ( ) ) ; } } } } } </s>
<s> package org . sqlproc . dsl . validation ; import java . beans . PropertyDescriptor ; import java . lang . reflect . Modifier ; import java . lang . reflect . ParameterizedType ; import java . util . Arrays ; import java . util . Collection ; import java . util . Collections ; import java . util . Iterator ; import java . util . List ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . emf . ecore . util . EcoreUtil ; import org . eclipse . xtext . EcoreUtil2 ; import org . eclipse . xtext . naming . IQualifiedNameConverter ; import org . eclipse . xtext . resource . IEObjectDescription ; import org . eclipse . xtext . scoping . IScope ; import org . eclipse . xtext . scoping . IScopeProvider ; import org . eclipse . xtext . validation . Check ; import org . sqlproc . dsl . processorDsl . AbstractPojoEntity ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . processorDsl . Column ; import org . sqlproc . dsl . processorDsl . ColumnUsage ; import org . sqlproc . dsl . processorDsl . ColumnUsageExt ; import org . sqlproc . dsl . processorDsl . Constant ; import org . sqlproc . dsl . processorDsl . ConstantUsage ; import org . sqlproc . dsl . processorDsl . ConstantUsageExt ; import org . sqlproc . dsl . processorDsl . DatabaseColumn ; import org . sqlproc . dsl . processorDsl . DatabaseTable ; import org . sqlproc . dsl . processorDsl . Identifier ; import org . sqlproc . dsl . processorDsl . IdentifierUsage ; import org . sqlproc . dsl . processorDsl . IdentifierUsageExt ; import org . sqlproc . dsl . processorDsl . MappingColumn ; import org . sqlproc . dsl . processorDsl . MappingItem ; import org . sqlproc . dsl . processorDsl . MappingRule ; import org . sqlproc . dsl . processorDsl . MappingUsage ; import org . sqlproc . dsl . processorDsl . MappingUsageExt ; import org . sqlproc . dsl . processorDsl . MetaSql ; import org . sqlproc . dsl . processorDsl . MetaStatement ; import org . sqlproc . dsl . processorDsl . OptionalFeature ; import org . sqlproc . dsl . processorDsl . PackageDeclaration ; import org . sqlproc . dsl . processorDsl . PojoDefinition ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoProperty ; import org . sqlproc . dsl . processorDsl . PojoUsage ; import org . sqlproc . dsl . processorDsl . PojoUsageExt ; import org . sqlproc . dsl . processorDsl . ProcessorDslPackage ; import org . sqlproc . dsl . processorDsl . Property ; import org . sqlproc . dsl . processorDsl . TableDefinition ; import org . sqlproc . dsl . processorDsl . TableUsage ; import org . sqlproc . dsl . resolver . DbResolver ; import org . sqlproc . dsl . resolver . PojoResolverFactory ; import org . sqlproc . dsl . util . Utils ; import com . google . inject . Inject ; public class ProcessorDslJavaValidator extends AbstractProcessorDslJavaValidator { @ Inject PojoResolverFactory pojoResolverFactory ; @ Inject DbResolver dbResolver ; @ Inject IScopeProvider scopeProvider ; @ Inject IQualifiedNameConverter qualifiedNameConverter ; public enum ValidationResult { OK , WARNING , ERROR ; } private static final List < String > F_TYPES = Collections . unmodifiableList ( Arrays . asList ( new String [ ] { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ) ) ; @ Check public void checkMetaSqlFtype ( MetaSql metaSql ) { if ( metaSql . getFtype ( ) == null ) return ; if ( ! findInListIgnoreCase ( F_TYPES , metaSql . getFtype ( ) ) ) { error ( "<STR_LIT>" + metaSql . getFtype ( ) , ProcessorDslPackage . Literals . META_SQL__FTYPE ) ; } } private boolean findInListIgnoreCase ( List < String > list , String value ) { if ( list == null ) return false ; for ( String item : list ) { if ( item . equalsIgnoreCase ( value ) ) return true ; } return false ; } @ Check public void checkUniqueMetaStatement ( MetaStatement metaStatement ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( metaStatement ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( MetaStatement metaStmt : artifacts . getStatements ( ) ) { if ( metaStmt == null \|\| metaStmt == metaStatement ) continue ; if ( equalsStatement ( metaStatement , metaStmt ) ) { error ( "<STR_LIT>" + metaStatement . getName ( ) + "<STR_LIT:[>" + metaStatement . getType ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . META_STATEMENT__NAME ) ; return ; } } } @ Check public void checkUniqueMappingRule ( MappingRule mappingRule ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( mappingRule ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( MappingRule rule : artifacts . getMappings ( ) ) { if ( rule == null \|\| rule == mappingRule ) continue ; if ( equalsRule ( mappingRule , rule ) ) { error ( "<STR_LIT>" + mappingRule . getName ( ) + "<STR_LIT:[>" + mappingRule . getType ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . MAPPING_RULE__NAME ) ; return ; } } } @ Check public void checkUniqueOptionalFeature ( OptionalFeature optionalFeature ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( optionalFeature ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( OptionalFeature feature : artifacts . getFeatures ( ) ) { if ( feature == null \|\| feature == optionalFeature ) continue ; if ( equalsFeature ( optionalFeature , feature ) ) { error ( "<STR_LIT>" + optionalFeature . getName ( ) + "<STR_LIT:[>" + optionalFeature . getType ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . OPTIONAL_FEATURE__NAME ) ; return ; } } } @ Check public void checkUniquePojoDefinition ( PojoDefinition pojoDefinition ) { if ( isResolvePojo ( pojoDefinition ) && ! checkClass ( pojoDefinition . getClass_ ( ) ) ) error ( "<STR_LIT>" + pojoDefinition . getClass_ ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . POJO_DEFINITION__NAME ) ; Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( pojoDefinition ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoDefinition definition : artifacts . getPojos ( ) ) { if ( definition == null \|\| definition == pojoDefinition ) continue ; if ( pojoDefinition . getName ( ) . equals ( definition . getName ( ) ) ) { error ( "<STR_LIT>" + pojoDefinition . getName ( ) , ProcessorDslPackage . Literals . POJO_DEFINITION__NAME ) ; return ; } } } @ Check public void checkUniqueColumnUsage ( ColumnUsage columnUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( columnUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == columnUsage \|\| ! ( usage instanceof ColumnUsage ) ) continue ; ColumnUsage column = ( ColumnUsage ) usage ; if ( column . getStatement ( ) == null ) continue ; if ( columnUsage . getStatement ( ) . getName ( ) . equals ( column . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + columnUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . COLUMN_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == columnUsage \|\| ! ( usage instanceof ColumnUsageExt ) ) continue ; ColumnUsageExt column = ( ColumnUsageExt ) usage ; if ( column . getStatement ( ) == null ) continue ; if ( columnUsage . getStatement ( ) . getName ( ) . equals ( column . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + columnUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . COLUMN_USAGE__STATEMENT ) ; return ; } } } @ Check public void checkUniqueIdentifierUsage ( IdentifierUsage identifierUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( identifierUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == identifierUsage \|\| ! ( usage instanceof IdentifierUsage ) ) continue ; IdentifierUsage ident = ( IdentifierUsage ) usage ; if ( ident . getStatement ( ) == null ) continue ; if ( identifierUsage . getStatement ( ) . getName ( ) . equals ( ident . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + identifierUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . IDENTIFIER_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == identifierUsage \|\| ! ( usage instanceof IdentifierUsageExt ) ) continue ; IdentifierUsageExt ident = ( IdentifierUsageExt ) usage ; if ( ident . getStatement ( ) == null ) continue ; if ( identifierUsage . getStatement ( ) . getName ( ) . equals ( ident . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + identifierUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . IDENTIFIER_USAGE__STATEMENT ) ; return ; } } } @ Check public void checkUniqueConstantUsage ( ConstantUsage constantUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( constantUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == constantUsage \|\| ! ( usage instanceof ConstantUsage ) ) continue ; ConstantUsage constant = ( ConstantUsage ) usage ; if ( constant . getStatement ( ) == null ) continue ; if ( constantUsage . getStatement ( ) . getName ( ) . equals ( constant . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + constantUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . CONSTANT_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == constantUsage \|\| ! ( usage instanceof ConstantUsageExt ) ) continue ; ConstantUsageExt constant = ( ConstantUsageExt ) usage ; if ( constant . getStatement ( ) == null ) continue ; if ( constantUsage . getStatement ( ) . getName ( ) . equals ( constant . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + constantUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . CONSTANT_USAGE__STATEMENT ) ; return ; } } } @ Check public void checkUniqueMappingUsage ( MappingUsage mappingUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( mappingUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == mappingUsage \|\| ! ( usage instanceof MappingUsage ) ) continue ; MappingUsage mapping = ( MappingUsage ) usage ; if ( mapping . getStatement ( ) == null ) continue ; if ( mappingUsage . getStatement ( ) . getName ( ) . equals ( mapping . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + mappingUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . MAPPING_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == mappingUsage \|\| ! ( usage instanceof MappingUsageExt ) ) continue ; MappingUsageExt mapping = ( MappingUsageExt ) usage ; if ( mapping . getStatement ( ) == null ) continue ; if ( mappingUsage . getStatement ( ) . getName ( ) . equals ( mapping . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + mappingUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . MAPPING_USAGE__STATEMENT ) ; return ; } } } protected boolean equalsStatement ( MetaStatement statement1 , MetaStatement statement2 ) { if ( statement1 == null && statement2 == null ) return true ; if ( statement1 == null \|\| statement1 . getName ( ) == null ) return false ; if ( statement2 == null \|\| statement2 . getName ( ) == null ) return false ; if ( statement1 . getName ( ) . equals ( statement2 . getName ( ) ) && statement1 . getType ( ) == statement2 . getType ( ) ) { if ( statement1 . getFilters ( ) == null && statement2 . getFilters ( ) == null ) return true ; if ( statement1 . getFilters ( ) == null ) return false ; if ( statement2 . getFilters ( ) == null ) return false ; if ( statement1 . getFilters ( ) . isEmpty ( ) && statement2 . getFilters ( ) . isEmpty ( ) ) return true ; for ( String filter1 : statement1 . getFilters ( ) ) for ( String filter2 : statement2 . getFilters ( ) ) if ( filter1 . equals ( filter2 ) ) return true ; } return false ; } protected boolean equalsRule ( MappingRule rule1 , MappingRule rule2 ) { if ( rule1 == null && rule2 == null ) return true ; if ( rule1 == null \|\| rule1 . getName ( ) == null ) return false ; if ( rule2 == null \|\| rule2 . getName ( ) == null ) return false ; if ( rule1 . getName ( ) . equals ( rule2 . getName ( ) ) && rule1 . getType ( ) == rule2 . getType ( ) ) { if ( rule1 . getFilters ( ) == null && rule2 . getFilters ( ) == null ) return true ; if ( rule1 . getFilters ( ) == null ) return false ; if ( rule2 . getFilters ( ) == null ) return false ; if ( rule1 . getFilters ( ) . isEmpty ( ) && rule2 . getFilters ( ) . isEmpty ( ) ) return true ; for ( String filter1 : rule1 . getFilters ( ) ) for ( String filter2 : rule2 . getFilters ( ) ) if ( filter1 . equals ( filter2 ) ) return true ; } return false ; } protected boolean equalsFeature ( OptionalFeature feature1 , OptionalFeature feature2 ) { if ( feature1 == null && feature2 == null ) return true ; if ( feature1 == null \|\| feature1 . getName ( ) == null ) return false ; if ( feature2 == null \|\| feature2 . getName ( ) == null ) return false ; if ( feature1 . getName ( ) . equals ( feature2 . getName ( ) ) && feature1 . getType ( ) == feature2 . getType ( ) ) { if ( feature1 . getFilters ( ) == null && feature2 . getFilters ( ) == null ) return true ; if ( feature1 . getFilters ( ) == null ) return false ; if ( feature2 . getFilters ( ) == null ) return false ; if ( feature1 . getFilters ( ) . isEmpty ( ) && feature2 . getFilters ( ) . isEmpty ( ) ) return true ; for ( String filter1 : feature1 . getFilters ( ) ) for ( String filter2 : feature2 . getFilters ( ) ) if ( filter1 . equals ( filter2 ) ) return true ; } return false ; } protected boolean checkClass ( String className ) { if ( className == null \|\| pojoResolverFactory . getPojoResolver ( ) == null ) return true ; Class < ? > clazz = pojoResolverFactory . getPojoResolver ( ) . loadClass ( className ) ; return clazz != null ; } @ Check public void checkColumn ( Column column ) { if ( ! isResolvePojo ( column ) ) return ; MetaStatement statement = EcoreUtil2 . getContainerOfType ( column , MetaStatement . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( statement , Artifacts . class ) ; PojoEntity entity = null ; IScope scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES_EXT ) ; Iterable < IEObjectDescription > iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsageExt pojoUsage = ( PojoUsageExt ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof ColumnUsageExt ) { entity = pojoUsage . getPojo ( ) ; } if ( pojoUsage instanceof MappingUsageExt ) { entity = pojoUsage . getPojo ( ) ; } } } if ( entity != null ) { switch ( checkEntityProperty ( entity , column . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; } return ; } String columnUsageClass = null ; MappingUsage mappingUsage = null ; scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES ) ; iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsage pojoUsage = ( PojoUsage ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof ColumnUsage ) { columnUsageClass = ( ( ColumnUsage ) pojoUsage ) . getPojo ( ) . getClass_ ( ) ; } if ( pojoUsage instanceof MappingUsage ) { mappingUsage = ( MappingUsage ) pojoUsage ; } } } if ( mappingUsage != null && mappingUsage . getStatement ( ) != null && mappingUsage . getStatement ( ) . getMapping ( ) != null && mappingUsage . getStatement ( ) . getMapping ( ) . getMappingItems ( ) != null ) { for ( MappingItem mappingItem : mappingUsage . getStatement ( ) . getMapping ( ) . getMappingItems ( ) ) { if ( mappingItem . getCol ( ) . equals ( column . getName ( ) ) ) return ; } } switch ( checkClassProperty ( columnUsageClass , column . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + columnUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + columnUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; } } @ Check public void checkIdentifier ( Identifier identifier ) { if ( ! isResolvePojo ( identifier ) ) return ; MetaStatement statement = EcoreUtil2 . getContainerOfType ( identifier , MetaStatement . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( statement , Artifacts . class ) ; PojoEntity entity = null ; IScope scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES_EXT ) ; Iterable < IEObjectDescription > iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsageExt pojoUsage = ( PojoUsageExt ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof IdentifierUsageExt ) { entity = pojoUsage . getPojo ( ) ; } } } if ( entity != null ) { switch ( checkEntityProperty ( entity , identifier . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + identifier . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . IDENTIFIER__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + identifier . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . IDENTIFIER__NAME ) ; break ; } return ; } String identifierUsageClass = null ; scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES ) ; iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsage pojoUsage = ( PojoUsage ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof IdentifierUsage ) { identifierUsageClass = ( ( IdentifierUsage ) pojoUsage ) . getPojo ( ) . getClass_ ( ) ; break ; } } } switch ( checkClassProperty ( identifierUsageClass , identifier . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + identifier . getName ( ) + "<STR_LIT:[>" + identifierUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . IDENTIFIER__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + identifier . getName ( ) + "<STR_LIT:[>" + identifierUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . IDENTIFIER__NAME ) ; break ; } } @ Check public void checkConstant ( Constant constant ) { if ( ! isResolvePojo ( constant ) ) return ; MetaStatement statement = EcoreUtil2 . getContainerOfType ( constant , MetaStatement . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( statement , Artifacts . class ) ; PojoEntity entity = null ; IScope scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES_EXT ) ; Iterable < IEObjectDescription > iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsageExt pojoUsage = ( PojoUsageExt ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof ConstantUsageExt ) { entity = pojoUsage . getPojo ( ) ; } } } if ( entity != null ) { switch ( checkEntityProperty ( entity , constant . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + constant . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . CONSTANT__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + constant . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . CONSTANT__NAME ) ; break ; } return ; } String constantUsageClass = null ; scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES ) ; iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( statement . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsage pojoUsage = ( PojoUsage ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof ConstantUsage ) { constantUsageClass = ( ( ConstantUsage ) pojoUsage ) . getPojo ( ) . getClass_ ( ) ; break ; } } } switch ( checkClassProperty ( constantUsageClass , constant . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + constant . getName ( ) + "<STR_LIT:[>" + constantUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . CONSTANT__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + constant . getName ( ) + "<STR_LIT:[>" + constantUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . CONSTANT__NAME ) ; break ; } } @ Check public void checkMappingColumn ( MappingColumn column ) { if ( ! isResolvePojo ( column ) ) return ; MappingRule rule = EcoreUtil2 . getContainerOfType ( column , MappingRule . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( rule , Artifacts . class ) ; PojoEntity entity = null ; IScope scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES_EXT ) ; Iterable < IEObjectDescription > iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( rule . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsageExt pojoUsage = ( PojoUsageExt ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof MappingUsageExt ) { entity = pojoUsage . getPojo ( ) ; } } } if ( entity != null ) { switch ( checkEntityProperty ( entity , column . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + entity . getName ( ) + "<STR_LIT:]>" , ProcessorDslPackage . Literals . COLUMN__NAME ) ; break ; } return ; } String mappingUsageClass = null ; scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__USAGES ) ; iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( qualifiedNameConverter . toQualifiedName ( rule . getName ( ) ) . equals ( description . getName ( ) ) ) { PojoUsage pojoUsage = ( PojoUsage ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( pojoUsage instanceof MappingUsage ) { mappingUsageClass = ( ( MappingUsage ) pojoUsage ) . getPojo ( ) . getClass_ ( ) ; break ; } } } switch ( checkClassProperty ( mappingUsageClass , column . getName ( ) ) ) { case WARNING : warning ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + mappingUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . MAPPING_COLUMN__NAME ) ; break ; case ERROR : error ( "<STR_LIT>" + column . getName ( ) + "<STR_LIT:[>" + mappingUsageClass + "<STR_LIT:]>" , ProcessorDslPackage . Literals . MAPPING_COLUMN__NAME ) ; break ; } } protected boolean isNumber ( String param ) { if ( param == null ) return false ; for ( int i = param . length ( ) - <NUM_LIT:1> ; i >= <NUM_LIT:0> ; i -- ) { if ( ! Character . isDigit ( param . charAt ( i ) ) ) return false ; } return true ; } protected boolean isPrimitive ( Class < ? > clazz ) { if ( clazz == null ) return true ; if ( clazz . isPrimitive ( ) ) return true ; if ( clazz == String . class ) return true ; if ( clazz == java . util . Date . class ) return true ; if ( clazz == java . sql . Date . class ) return true ; if ( clazz == java . sql . Time . class ) return true ; if ( clazz == java . sql . Timestamp . class ) return true ; if ( clazz == java . sql . Blob . class ) return true ; if ( clazz == java . sql . Clob . class ) return true ; if ( clazz == java . math . BigDecimal . class ) return true ; if ( clazz == java . math . BigInteger . class ) return true ; return false ; } protected ValidationResult checkClassProperty ( String className , String property ) { if ( property == null \|\| isNumber ( property ) \|\| pojoResolverFactory . getPojoResolver ( ) == null ) return ValidationResult . OK ; if ( className == null ) return ValidationResult . ERROR ; PropertyDescriptor [ ] descriptors = pojoResolverFactory . getPojoResolver ( ) . getPropertyDescriptors ( className ) ; if ( descriptors == null ) { return ValidationResult . WARNING ; } String checkProperty = property ; int pos1 = checkProperty . indexOf ( '<CHAR_LIT:=>' ) ; if ( pos1 > <NUM_LIT:0> ) { int pos2 = checkProperty . indexOf ( '<CHAR_LIT:.>' , pos1 ) ; if ( pos2 > pos1 ) checkProperty = checkProperty . substring ( <NUM_LIT:0> , pos1 ) + checkProperty . substring ( pos2 ) ; } String innerProperty = null ; pos1 = checkProperty . indexOf ( '<CHAR_LIT:.>' ) ; if ( pos1 > <NUM_LIT:0> ) { innerProperty = checkProperty . substring ( pos1 + <NUM_LIT:1> ) ; checkProperty = checkProperty . substring ( <NUM_LIT:0> , pos1 ) ; } PropertyDescriptor innerDesriptor = null ; for ( PropertyDescriptor descriptor : descriptors ) { if ( descriptor . getName ( ) . equals ( checkProperty ) ) { innerDesriptor = descriptor ; break ; } } if ( innerDesriptor == null ) { Class < ? > clazz = pojoResolverFactory . getPojoResolver ( ) . loadClass ( className ) ; if ( clazz != null && Modifier . isAbstract ( clazz . getModifiers ( ) ) ) return ValidationResult . WARNING ; return ValidationResult . ERROR ; } if ( innerProperty != null ) { Class < ? > innerClass = innerDesriptor . getPropertyType ( ) ; if ( innerClass . isArray ( ) ) { ParameterizedType type = ( ParameterizedType ) innerDesriptor . getReadMethod ( ) . getGenericReturnType ( ) ; if ( type . getActualTypeArguments ( ) == null \|\| type . getActualTypeArguments ( ) . length == <NUM_LIT:0> ) return ValidationResult . WARNING ; innerClass = ( Class < ? > ) type . getActualTypeArguments ( ) [ <NUM_LIT:0> ] ; if ( isPrimitive ( innerClass ) ) return ValidationResult . ERROR ; return checkClassProperty ( innerClass . getName ( ) , innerProperty ) ; } else if ( Collection . class . isAssignableFrom ( innerClass ) ) { ParameterizedType type = ( ParameterizedType ) innerDesriptor . getReadMethod ( ) . getGenericReturnType ( ) ; if ( type . getActualTypeArguments ( ) == null \|\| type . getActualTypeArguments ( ) . length == <NUM_LIT:0> ) return ValidationResult . WARNING ; innerClass = ( Class < ? > ) type . getActualTypeArguments ( ) [ <NUM_LIT:0> ] ; if ( isPrimitive ( innerClass ) ) return ValidationResult . ERROR ; return checkClassProperty ( innerClass . getName ( ) , innerProperty ) ; } else { if ( isPrimitive ( innerClass ) ) return ValidationResult . ERROR ; return checkClassProperty ( innerClass . getName ( ) , innerProperty ) ; } } return ValidationResult . OK ; } protected ValidationResult checkEntityProperty ( PojoEntity entity , String property ) { if ( property == null \|\| isNumber ( property ) ) return ValidationResult . OK ; String checkProperty = property ; int pos1 = checkProperty . indexOf ( '<CHAR_LIT:=>' ) ; if ( pos1 > <NUM_LIT:0> ) { int pos2 = checkProperty . indexOf ( '<CHAR_LIT:.>' , pos1 ) ; if ( pos2 > pos1 ) checkProperty = checkProperty . substring ( <NUM_LIT:0> , pos1 ) + checkProperty . substring ( pos2 ) ; } String innerProperty = null ; pos1 = checkProperty . indexOf ( '<CHAR_LIT:.>' ) ; if ( pos1 > <NUM_LIT:0> ) { innerProperty = checkProperty . substring ( pos1 + <NUM_LIT:1> ) ; checkProperty = checkProperty . substring ( <NUM_LIT:0> , pos1 ) ; } for ( PojoProperty pojoProperty : entity . getFeatures ( ) ) { if ( pojoProperty . getName ( ) . equals ( checkProperty ) ) { if ( innerProperty == null ) return ValidationResult . OK ; if ( pojoProperty . getRef ( ) != null ) return checkEntityProperty ( pojoProperty . getRef ( ) , innerProperty ) ; if ( pojoProperty . getGref ( ) != null ) return checkEntityProperty ( pojoProperty . getGref ( ) , innerProperty ) ; return ValidationResult . ERROR ; } } PojoEntity superType = Utils . getSuperType ( entity ) ; if ( superType != null ) { ValidationResult result = checkEntityProperty ( superType , property ) ; if ( result == ValidationResult . WARNING \|\| result == ValidationResult . OK ) return result ; } if ( Utils . isAbstract ( entity ) ) return ValidationResult . WARNING ; else return ValidationResult . ERROR ; } @ Check public void checkUniqueProperty ( Property property ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( property ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( Property prop : artifacts . getProperties ( ) ) { if ( prop == null \|\| prop == property ) continue ; if ( prop . getName ( ) . equals ( property . getName ( ) ) && ! prop . getName ( ) . startsWith ( "<STR_LIT>" ) && ! prop . getName ( ) . startsWith ( "<STR_LIT>" ) ) { error ( "<STR_LIT>" + property . getName ( ) , ProcessorDslPackage . Literals . PROPERTY__NAME ) ; return ; } } } @ Check public void checkTableDefinition ( TableDefinition tableDefinition ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( tableDefinition ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( TableDefinition table : artifacts . getTables ( ) ) { if ( table == null \|\| table == tableDefinition ) continue ; if ( tableDefinition . getName ( ) . equals ( table . getName ( ) ) ) { error ( "<STR_LIT>" + tableDefinition . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . TABLE_DEFINITION__NAME ) ; return ; } } if ( isResolveDb ( tableDefinition ) && ! dbResolver . checkTable ( tableDefinition , tableDefinition . getTable ( ) ) ) { error ( "<STR_LIT>" + tableDefinition . getTable ( ) , ProcessorDslPackage . Literals . TABLE_DEFINITION__TABLE ) ; } } @ Check public void checkTableUsage ( TableUsage tableUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( tableUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( TableUsage usage : artifacts . getTableUsages ( ) ) { if ( usage == null \|\| usage == tableUsage ) continue ; if ( tableUsage . getStatement ( ) . getName ( ) . equals ( usage . getStatement ( ) . getName ( ) ) ) { if ( tableUsage . getTable ( ) . getName ( ) . equals ( usage . getTable ( ) . getName ( ) ) ) { if ( tableUsage . getPrefix ( ) == null && usage . getPrefix ( ) == null ) { error ( "<STR_LIT>" + tableUsage . getStatement ( ) . getName ( ) + "<STR_LIT:[>" + tableUsage . getTable ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . TABLE_USAGE__TABLE ) ; return ; } if ( tableUsage . getPrefix ( ) != null && tableUsage . getPrefix ( ) . equals ( usage . getPrefix ( ) ) ) { error ( "<STR_LIT>" + tableUsage . getStatement ( ) . getName ( ) + "<STR_LIT:[>" + tableUsage . getTable ( ) . getName ( ) + "<STR_LIT::>" + tableUsage . getPrefix ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . TABLE_USAGE__TABLE ) ; return ; } } if ( tableUsage . getPrefix ( ) != null && tableUsage . getPrefix ( ) . equals ( usage . getPrefix ( ) ) ) { error ( "<STR_LIT>" + tableUsage . getStatement ( ) . getName ( ) + "<STR_LIT:[>" + tableUsage . getPrefix ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . TABLE_USAGE__PREFIX ) ; return ; } } } } @ Check public void checkDatabaseColumn ( DatabaseColumn databaseColumn ) { if ( ! isResolveDb ( databaseColumn ) ) return ; String prefix = databaseColumn . getName ( ) ; String columnName = null ; int pos = prefix . indexOf ( '<CHAR_LIT:.>' ) ; if ( pos > <NUM_LIT:0> ) { prefix = databaseColumn . getName ( ) . substring ( <NUM_LIT:0> , pos ) ; columnName = databaseColumn . getName ( ) . substring ( pos + <NUM_LIT:1> ) ; } else { prefix = null ; columnName = databaseColumn . getName ( ) ; } MetaStatement statement = EcoreUtil2 . getContainerOfType ( databaseColumn , MetaStatement . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( statement , Artifacts . class ) ; TableDefinition tableDefinition = getTableDefinition ( artifacts , statement , null , prefix ) ; String tableName = tableDefinition != null ? tableDefinition . getTable ( ) : null ; if ( tableName == null \|\| ! dbResolver . checkColumn ( databaseColumn , tableName , columnName ) ) { error ( "<STR_LIT>" + databaseColumn . getName ( ) + "<STR_LIT:[>" + tableName + "<STR_LIT:]>" , ProcessorDslPackage . Literals . DATABASE_COLUMN__NAME ) ; } } @ Check public void checkDatabaseTable ( DatabaseTable databaseTable ) { if ( ! isResolveDb ( databaseTable ) ) return ; String tableName = databaseTable . getName ( ) ; MetaStatement statement = EcoreUtil2 . getContainerOfType ( databaseTable , MetaStatement . class ) ; Artifacts artifacts = EcoreUtil2 . getContainerOfType ( statement , Artifacts . class ) ; TableDefinition tableDefinition = getTableDefinition ( artifacts , statement , tableName , null ) ; if ( tableDefinition == null \|\| ! dbResolver . checkTable ( databaseTable , tableName ) ) { error ( "<STR_LIT>" + tableName , ProcessorDslPackage . Literals . DATABASE_TABLE__NAME ) ; } } protected boolean isResolvePojo ( EObject model ) { if ( pojoResolverFactory . getPojoResolver ( ) == null \|\| ! pojoResolverFactory . getPojoResolver ( ) . isResolvePojo ( model ) ) return false ; return true ; } protected boolean isResolveDb ( EObject model ) { return dbResolver . isResolveDb ( model ) ; } protected TableDefinition getTableDefinition ( Artifacts artifacts , MetaStatement statement , String tableName , String prefix ) { TableUsage usage = null ; IScope scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__TABLE_USAGES ) ; Iterable < IEObjectDescription > iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( ProcessorDslPackage . Literals . TABLE_USAGE . getName ( ) . equals ( description . getEClass ( ) . getName ( ) ) ) { TableUsage tableUsage = ( TableUsage ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( tableUsage . getStatement ( ) . getName ( ) . equals ( statement . getName ( ) ) ) { if ( tableName != null && tableUsage . getTable ( ) != null && tableName . equals ( tableUsage . getTable ( ) . getTable ( ) ) ) { usage = tableUsage ; break ; } if ( prefix == null && tableUsage . getPrefix ( ) == null ) { usage = tableUsage ; break ; } if ( prefix != null && prefix . equals ( tableUsage . getPrefix ( ) ) ) { usage = tableUsage ; break ; } } } } if ( usage != null && usage . getTable ( ) != null && usage . getTable ( ) . getName ( ) != null ) { scope = scopeProvider . getScope ( artifacts , ProcessorDslPackage . Literals . ARTIFACTS__TABLES ) ; iterable = scope . getAllElements ( ) ; for ( Iterator < IEObjectDescription > iter = iterable . iterator ( ) ; iter . hasNext ( ) ; ) { IEObjectDescription description = iter . next ( ) ; if ( ProcessorDslPackage . Literals . TABLE_DEFINITION . getName ( ) . equals ( description . getEClass ( ) . getName ( ) ) ) { TableDefinition tableDefinition = ( TableDefinition ) artifacts . eResource ( ) . getResourceSet ( ) . getEObject ( description . getEObjectURI ( ) , true ) ; if ( usage . getTable ( ) . getName ( ) . equals ( tableDefinition . getName ( ) ) ) { return tableDefinition ; } } } } return null ; } @ Check public void checkUniquePojoEntity ( PojoEntity pojoEntity ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( pojoEntity ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PackageDeclaration pkg : artifacts . getPojoPackages ( ) ) { if ( pkg == null ) continue ; for ( AbstractPojoEntity entity : pkg . getElements ( ) ) { if ( entity == null \|\| ! ( entity instanceof PojoEntity ) ) continue ; PojoEntity pentity = ( PojoEntity ) entity ; if ( pentity == pojoEntity ) continue ; if ( pojoEntity . getName ( ) . equals ( pentity . getName ( ) ) ) { error ( "<STR_LIT>" + pojoEntity . getName ( ) , ProcessorDslPackage . Literals . POJO_ENTITY__NAME ) ; return ; } } } } @ Check public void checkUniquePojoProperty ( PojoProperty pojoProperty ) { PojoEntity entity = EcoreUtil2 . getContainerOfType ( pojoProperty , PojoEntity . class ) ; for ( PojoProperty property : entity . getFeatures ( ) ) { if ( property == null \|\| property == pojoProperty ) continue ; if ( pojoProperty . getName ( ) . equals ( property . getName ( ) ) ) { error ( "<STR_LIT>" + pojoProperty . getName ( ) , ProcessorDslPackage . Literals . POJO_PROPERTY__NAME ) ; return ; } } } @ Check public void checkUniqueColumnUsageExt ( ColumnUsageExt columnUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( columnUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == columnUsage \|\| ! ( usage instanceof ColumnUsage ) ) continue ; ColumnUsage column = ( ColumnUsage ) usage ; if ( column . getStatement ( ) == null ) continue ; if ( columnUsage . getStatement ( ) . getName ( ) . equals ( column . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + columnUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . COLUMN_USAGE_EXT__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == columnUsage \|\| ! ( usage instanceof ColumnUsageExt ) ) continue ; ColumnUsageExt column = ( ColumnUsageExt ) usage ; if ( column . getStatement ( ) == null ) continue ; if ( columnUsage . getStatement ( ) . getName ( ) . equals ( column . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + columnUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . COLUMN_USAGE_EXT__STATEMENT ) ; return ; } } } @ Check public void checkUniqueIdentifierUsageExt ( IdentifierUsageExt identifierUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( identifierUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == identifierUsage \|\| ! ( usage instanceof IdentifierUsage ) ) continue ; IdentifierUsage ident = ( IdentifierUsage ) usage ; if ( ident . getStatement ( ) == null ) continue ; if ( identifierUsage . getStatement ( ) . getName ( ) . equals ( ident . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + identifierUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . IDENTIFIER_USAGE_EXT__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == identifierUsage \|\| ! ( usage instanceof IdentifierUsageExt ) ) continue ; IdentifierUsageExt ident = ( IdentifierUsageExt ) usage ; if ( ident . getStatement ( ) == null ) continue ; if ( identifierUsage . getStatement ( ) . getName ( ) . equals ( ident . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + identifierUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . IDENTIFIER_USAGE_EXT__STATEMENT ) ; return ; } } } @ Check public void checkUniqueConstantUsageExt ( ConstantUsageExt constantUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( constantUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == constantUsage \|\| ! ( usage instanceof ConstantUsage ) ) continue ; ConstantUsage constant = ( ConstantUsage ) usage ; if ( constant . getStatement ( ) == null ) continue ; if ( constantUsage . getStatement ( ) . getName ( ) . equals ( constant . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + constantUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . CONSTANT_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == constantUsage \|\| ! ( usage instanceof ConstantUsageExt ) ) continue ; ConstantUsageExt constant = ( ConstantUsageExt ) usage ; if ( constant . getStatement ( ) == null ) continue ; if ( constantUsage . getStatement ( ) . getName ( ) . equals ( constant . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + constantUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . CONSTANT_USAGE_EXT__STATEMENT ) ; return ; } } } @ Check public void checkUniqueMappingUsageExt ( MappingUsageExt mappingUsage ) { Artifacts artifacts ; EObject object = EcoreUtil . getRootContainer ( mappingUsage ) ; if ( ! ( object instanceof Artifacts ) ) return ; artifacts = ( Artifacts ) object ; for ( PojoUsage usage : artifacts . getUsages ( ) ) { if ( usage == null \|\| usage == mappingUsage \|\| ! ( usage instanceof MappingUsage ) ) continue ; MappingUsage mapping = ( MappingUsage ) usage ; if ( mapping . getStatement ( ) == null ) continue ; if ( mappingUsage . getStatement ( ) . getName ( ) . equals ( mapping . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + mappingUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . MAPPING_USAGE__STATEMENT ) ; return ; } } for ( PojoUsageExt usage : artifacts . getUsagesExt ( ) ) { if ( usage == null \|\| usage == mappingUsage \|\| ! ( usage instanceof MappingUsageExt ) ) continue ; MappingUsageExt mapping = ( MappingUsageExt ) usage ; if ( mapping . getStatement ( ) == null ) continue ; if ( mappingUsage . getStatement ( ) . getName ( ) . equals ( mapping . getStatement ( ) . getName ( ) ) ) { error ( "<STR_LIT>" + mappingUsage . getStatement ( ) . getName ( ) + "<STR_LIT>" , ProcessorDslPackage . Literals . MAPPING_USAGE_EXT__STATEMENT ) ; return ; } } } } </s>
<s> package org . sqlproc . dsl . property ; import java . util . ArrayList ; import java . util . Collections ; import java . util . HashMap ; import java . util . HashSet ; import java . util . List ; import java . util . Map ; import java . util . Set ; import org . apache . log4j . Logger ; import org . eclipse . emf . common . notify . Notification ; import org . eclipse . emf . common . notify . impl . AdapterImpl ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . emf . ecore . resource . Resource ; import org . eclipse . xtext . EcoreUtil2 ; import org . eclipse . xtext . common . types . JvmType ; import org . eclipse . xtext . parser . IParseResult ; import org . eclipse . xtext . resource . XtextResource ; import org . sqlproc . dsl . processorDsl . Artifacts ; import org . sqlproc . dsl . processorDsl . DatabaseProperty ; import org . sqlproc . dsl . processorDsl . ExportAssignement ; import org . sqlproc . dsl . processorDsl . ImportAssignement ; import org . sqlproc . dsl . processorDsl . InheritanceAssignement ; import org . sqlproc . dsl . processorDsl . JoinTableAssignement ; import org . sqlproc . dsl . processorDsl . ManyToManyAssignement ; import org . sqlproc . dsl . processorDsl . PojogenProperty ; import org . sqlproc . dsl . processorDsl . Property ; import org . sqlproc . dsl . util . Utils ; import com . google . inject . Singleton ; @ Singleton public class ModelPropertyBean extends AdapterImpl implements ModelProperty { protected Logger LOGGER = Logger . getLogger ( ModelPropertyBean . class ) ; public static final String RESOLVE_POJO_ON = "<STR_LIT>" ; public static final String RESOLVE_POJO_OFF = "<STR_LIT>" ; public static final String DATABASE = "<STR_LIT>" ; public static final String DATABASE_IS_ONLINE = "<STR_LIT>" ; public static final String DATABASE_IS_OFFLINE = "<STR_LIT>" ; public static final String DATABASE_HAS_URL = "<STR_LIT>" ; public static final String DATABASE_LOGIN_USERNAME = "<STR_LIT>" ; public static final String DATABASE_LOGIN_NPASSWORD = "<STR_LIT>" ; public static final String DATABASE_ACTIVE_SCHEMA = "<STR_LIT>" ; public static final String DATABASE_JDBC_DRIVER = "<STR_LIT>" ; public static final String POJOGEN = "<STR_LIT>" ; public static final String POJOGEN_TYPE_SQLTYPES = "<STR_LIT>" ; public static final String POJOGEN_TYPE_IN_TABLE = "<STR_LIT>" ; public static final String POJOGEN_TYPE_FOR_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_IGNORE_TABLES = "<STR_LIT>" ; public static final String POJOGEN_ONLY_TABLES = "<STR_LIT>" ; public static final String POJOGEN_IGNORE_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_REQUIRED_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_NOT_REQUIRED_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_CREATE_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_RENAME_TABLES = "<STR_LIT>" ; public static final String POJOGEN_RENAME_COLUMNS = "<STR_LIT>" ; public static final String POJOGEN_IGNORE_EXPORTS = "<STR_LIT>" ; public static final String POJOGEN_IGNORE_IMPORTS = "<STR_LIT>" ; public static final String POJOGEN_CREATE_EXPORTS = "<STR_LIT>" ; public static final String POJOGEN_CREATE_IMPORTS = "<STR_LIT>" ; public static final String POJOGEN_INHERIT_IMPORTS = "<STR_LIT>" ; public static final String POJOGEN_MANY_TO_MANY_IMPORTS = "<STR_LIT>" ; public static final String POJOGEN_INHERITANCE = "<STR_LIT>" ; public static final String POJOGEN_GENERATE_METHODS = "<STR_LIT>" ; public static final String POJOGEN_IMPLEMENTS_INTERFACES = "<STR_LIT>" ; public static final String POJOGEN_EXTENDS_CLASS = "<STR_LIT>" ; public static final String POJOGEN_JOIN_TABLES = "<STR_LIT>" ; public static class ModelValues { public boolean doResolvePojo ; public boolean doResolveDb ; public String dbDriver ; public String dbUrl ; public String dbUsername ; public String dbPassword ; public String dbSchema ; public String dir ; public Map < String , PojoAttrType > sqlTypes ; public Map < String , Map < String , PojoAttrType > > tableTypes ; public Map < String , Map < String , PojoAttrType > > columnTypes ; public Map < String , String > tableNames ; public Map < String , Map < String , String > > columnNames ; public Set < String > ignoreTables ; public Set < String > onlyTables ; public Map < String , Set < String > > ignoreColumns ; public Map < String , Set < String > > requiredColumns ; public Map < String , Set < String > > notRequiredColumns ; public Map < String , Map < String , PojoAttrType > > createColumns ; public Map < String , Map < String , Map < String , String > > > ignoreExports ; public Map < String , Map < String , Map < String , String > > > ignoreImports ; public Map < String , Map < String , Map < String , String > > > createExports ; public Map < String , Map < String , Map < String , String > > > createImports ; public Map < String , Map < String , Map < String , String > > > inheritImports ; public Map < String , Map < String , Map < String , String > > > manyToManyImports ; public Map < String , Map < String , Map < String , List < String > > > > inheritance = new HashMap < String , Map < String , Map < String , List < String > > > > ( ) ; public Map < String , String > inheritanceColumns ; public Set < String > generateMethods ; public Map < String , JvmType > toImplements ; public JvmType toExtends ; public Map < String , List < String > > joinTables ; @ Override public String toString ( ) { return "<STR_LIT>" + doResolvePojo + "<STR_LIT>" + doResolveDb + "<STR_LIT>" + dbDriver + "<STR_LIT>" + dbUrl + "<STR_LIT>" + dbUsername + "<STR_LIT>" + dbPassword + "<STR_LIT>" + dbSchema + "<STR_LIT>" + dir + "<STR_LIT>" + sqlTypes + "<STR_LIT>" + tableTypes + "<STR_LIT>" + columnTypes + "<STR_LIT>" + tableNames + "<STR_LIT>" + columnNames + "<STR_LIT>" + ignoreTables + "<STR_LIT>" + onlyTables + "<STR_LIT>" + ignoreColumns + "<STR_LIT>" + requiredColumns + "<STR_LIT>" + notRequiredColumns + "<STR_LIT>" + createColumns + "<STR_LIT>" + ignoreExports + "<STR_LIT>" + ignoreImports + "<STR_LIT>" + createExports + "<STR_LIT>" + createImports + "<STR_LIT>" + inheritImports + "<STR_LIT>" + manyToManyImports + "<STR_LIT>" + inheritance + "<STR_LIT>" + inheritanceColumns + "<STR_LIT>" + generateMethods + "<STR_LIT>" + toImplements + "<STR_LIT>" + toExtends + "<STR_LIT>" + joinTables + "<STR_LIT:]>" ; } } private Map < String , ModelValues > dirs2models = new HashMap < String , ModelValues > ( ) ; public void notifyChanged ( Notification msg ) { if ( msg . getNotifier ( ) == null \|\| msg . getFeatureID ( Resource . class ) == Notification . NO_FEATURE_ID ) return ; if ( msg . getNotifier ( ) instanceof XtextResource ) { int featureID = msg . getFeatureID ( Resource . class ) ; if ( featureID == Resource . RESOURCE__IS_LOADED ) { XtextResource resource = ( XtextResource ) msg . getNotifier ( ) ; if ( ! msg . getNewBooleanValue ( ) ) { LOGGER . debug ( "<STR_LIT>" + resource ) ; return ; } IParseResult parseResult = resource . getParseResult ( ) ; EObject rootASTElement = ( parseResult != null ) ? parseResult . getRootASTElement ( ) : null ; LOGGER . debug ( "<STR_LIT>" + resource + "<STR_LIT>" + rootASTElement ) ; if ( parseResult == null \|\| rootASTElement == null \|\| ! ( rootASTElement instanceof Artifacts ) \|\| resource . getURI ( ) == null ) { LOGGER . error ( "<STR_LIT>" + parseResult + "<STR_LIT>" + rootASTElement + "<STR_LIT>" + msg ) ; return ; } String dir = Utils . resourceDir ( resource ) ; if ( dir == null ) { LOGGER . error ( "<STR_LIT>" + resource . getURI ( ) ) ; return ; } ModelValues modelValues = null ; if ( dirs2models . containsKey ( dir ) ) { modelValues = dirs2models . get ( dir ) ; } else { modelValues = new ModelValues ( ) ; dirs2models . put ( dir , modelValues ) ; modelValues . dir = dir ; } Artifacts artifacts = ( Artifacts ) rootASTElement ; if ( artifacts . getProperties ( ) . isEmpty ( ) ) return ; boolean reloadPojogen = false ; for ( Property property : artifacts . getProperties ( ) ) { if ( property . getName ( ) . startsWith ( POJOGEN ) ) { reloadPojogen = true ; break ; } } if ( reloadPojogen ) { initPojogenModel ( modelValues ) ; } for ( Property property : artifacts . getProperties ( ) ) { if ( property . getName ( ) . startsWith ( DATABASE ) ) { setValue ( modelValues , property . getDatabase ( ) ) ; } else if ( property . getName ( ) . startsWith ( POJOGEN ) ) { setValue ( modelValues , property . getPojogen ( ) ) ; } else { setValue ( modelValues , property ) ; } } LOGGER . debug ( "<STR_LIT>" + modelValues . toString ( ) ) ; } } } private void initPojogenModel ( ModelValues modelValues ) { modelValues . sqlTypes = new HashMap < String , PojoAttrType > ( ) ; modelValues . tableTypes = new HashMap < String , Map < String , PojoAttrType > > ( ) ; modelValues . columnTypes = new HashMap < String , Map < String , PojoAttrType > > ( ) ; modelValues . tableNames = new HashMap < String , String > ( ) ; modelValues . columnNames = new HashMap < String , Map < String , String > > ( ) ; modelValues . ignoreTables = new HashSet < String > ( ) ; modelValues . onlyTables = new HashSet < String > ( ) ; modelValues . ignoreColumns = new HashMap < String , Set < String > > ( ) ; modelValues . requiredColumns = new HashMap < String , Set < String > > ( ) ; modelValues . notRequiredColumns = new HashMap < String , Set < String > > ( ) ; modelValues . createColumns = new HashMap < String , Map < String , PojoAttrType > > ( ) ; modelValues . ignoreExports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . ignoreImports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . createExports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . createImports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . inheritImports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . manyToManyImports = new HashMap < String , Map < String , Map < String , String > > > ( ) ; modelValues . inheritance = new HashMap < String , Map < String , Map < String , List < String > > > > ( ) ; modelValues . inheritanceColumns = new HashMap < String , String > ( ) ; modelValues . generateMethods = new HashSet < String > ( ) ; modelValues . toImplements = new HashMap < String , JvmType > ( ) ; modelValues . toExtends = null ; modelValues . joinTables = new HashMap < String , List < String > > ( ) ; } public void setValue ( ModelValues modelValues , Property property ) { if ( property == null ) return ; if ( RESOLVE_POJO_ON . equals ( property . getName ( ) ) ) { modelValues . doResolvePojo = true ; } else if ( RESOLVE_POJO_OFF . equals ( property . getName ( ) ) ) { modelValues . doResolvePojo = false ; } } public void setValue ( ModelValues modelValues , DatabaseProperty property ) { if ( property == null ) return ; if ( DATABASE_IS_ONLINE . equals ( property . getName ( ) ) ) { modelValues . doResolveDb = true ; } else if ( DATABASE_IS_OFFLINE . equals ( property . getName ( ) ) ) { modelValues . doResolveDb = false ; } else if ( DATABASE_HAS_URL . equals ( property . getName ( ) ) ) { modelValues . dbUrl = property . getDbUrl ( ) ; } else if ( DATABASE_LOGIN_USERNAME . equals ( property . getName ( ) ) ) { modelValues . dbUsername = property . getDbUsername ( ) ; } else if ( DATABASE_LOGIN_NPASSWORD . equals ( property . getName ( ) ) ) { modelValues . dbPassword = property . getDbPassword ( ) ; } else if ( DATABASE_ACTIVE_SCHEMA . equals ( property . getName ( ) ) ) { modelValues . dbSchema = property . getDbSchema ( ) ; } else if ( DATABASE_JDBC_DRIVER . equals ( property . getName ( ) ) ) { modelValues . dbDriver = property . getDbDriver ( ) ; } } public void setValue ( ModelValues modelValues , PojogenProperty property ) { if ( property == null ) return ; if ( POJOGEN_TYPE_SQLTYPES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getSqlTypes ( ) . size ( ) ; i < m ; i ++ ) { PojoAttrType type = new PojoAttrType ( property . getSqlTypes ( ) . get ( i ) . getTypeName ( ) , property . getSqlTypes ( ) . get ( i ) . getSize ( ) , property . getSqlTypes ( ) . get ( i ) . getType ( ) ) ; modelValues . sqlTypes . put ( type . getName ( ) + type . getSize ( ) , type ) ; } } else if ( POJOGEN_TYPE_IN_TABLE . equals ( property . getName ( ) ) ) { if ( ! modelValues . tableTypes . containsKey ( property . getDbTable ( ) ) ) modelValues . tableTypes . put ( property . getDbTable ( ) , new HashMap < String , PojoAttrType > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getSqlTypes ( ) . size ( ) ; i < m ; i ++ ) { PojoAttrType type = new PojoAttrType ( property . getSqlTypes ( ) . get ( i ) . getTypeName ( ) , property . getSqlTypes ( ) . get ( i ) . getSize ( ) , property . getSqlTypes ( ) . get ( i ) . getType ( ) ) ; modelValues . tableTypes . get ( property . getDbTable ( ) ) . put ( type . getName ( ) + type . getSize ( ) , type ) ; } } else if ( POJOGEN_TYPE_FOR_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . columnTypes . containsKey ( property . getDbTable ( ) ) ) modelValues . columnTypes . put ( property . getDbTable ( ) , new HashMap < String , PojoAttrType > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getColumnTypes ( ) . size ( ) ; i < m ; i ++ ) { PojoAttrType type = new PojoAttrType ( property . getColumnTypes ( ) . get ( i ) . getDbColumn ( ) , null , property . getColumnTypes ( ) . get ( i ) . getType ( ) ) ; modelValues . columnTypes . get ( property . getDbTable ( ) ) . put ( type . getName ( ) , type ) ; } } else if ( POJOGEN_RENAME_TABLES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getTables ( ) . size ( ) ; i < m ; i ++ ) { modelValues . tableNames . put ( property . getTables ( ) . get ( i ) . getDbTable ( ) , property . getTables ( ) . get ( i ) . getNewName ( ) ) ; } } else if ( POJOGEN_RENAME_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . columnNames . containsKey ( property . getDbTable ( ) ) ) modelValues . columnNames . put ( property . getDbTable ( ) , new HashMap < String , String > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getColumns ( ) . size ( ) ; i < m ; i ++ ) { modelValues . columnNames . get ( property . getDbTable ( ) ) . put ( property . getColumns ( ) . get ( i ) . getDbColumn ( ) , property . getColumns ( ) . get ( i ) . getNewName ( ) ) ; } } else if ( POJOGEN_IGNORE_TABLES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getDbTables ( ) . size ( ) ; i < m ; i ++ ) { modelValues . ignoreTables . add ( property . getDbTables ( ) . get ( i ) ) ; } } else if ( POJOGEN_ONLY_TABLES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getDbTables ( ) . size ( ) ; i < m ; i ++ ) { modelValues . onlyTables . add ( property . getDbTables ( ) . get ( i ) ) ; } } else if ( POJOGEN_IGNORE_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . ignoreColumns . containsKey ( property . getDbTable ( ) ) ) modelValues . ignoreColumns . put ( property . getDbTable ( ) , new HashSet < String > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getDbColumns ( ) . size ( ) ; i < m ; i ++ ) { modelValues . ignoreColumns . get ( property . getDbTable ( ) ) . add ( property . getDbColumns ( ) . get ( i ) ) ; } } else if ( POJOGEN_REQUIRED_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . requiredColumns . containsKey ( property . getDbTable ( ) ) ) modelValues . requiredColumns . put ( property . getDbTable ( ) , new HashSet < String > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getDbColumns ( ) . size ( ) ; i < m ; i ++ ) { modelValues . requiredColumns . get ( property . getDbTable ( ) ) . add ( property . getDbColumns ( ) . get ( i ) ) ; } } else if ( POJOGEN_NOT_REQUIRED_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . notRequiredColumns . containsKey ( property . getDbTable ( ) ) ) modelValues . notRequiredColumns . put ( property . getDbTable ( ) , new HashSet < String > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getDbColumns ( ) . size ( ) ; i < m ; i ++ ) { modelValues . notRequiredColumns . get ( property . getDbTable ( ) ) . add ( property . getDbColumns ( ) . get ( i ) ) ; } } else if ( POJOGEN_CREATE_COLUMNS . equals ( property . getName ( ) ) ) { if ( ! modelValues . createColumns . containsKey ( property . getDbTable ( ) ) ) modelValues . createColumns . put ( property . getDbTable ( ) , new HashMap < String , PojoAttrType > ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getColumnTypes ( ) . size ( ) ; i < m ; i ++ ) { PojoAttrType type = new PojoAttrType ( property . getColumnTypes ( ) . get ( i ) . getDbColumn ( ) , null , property . getColumnTypes ( ) . get ( i ) . getType ( ) ) ; modelValues . createColumns . get ( property . getDbTable ( ) ) . put ( type . getName ( ) , type ) ; } } else if ( POJOGEN_IGNORE_EXPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . ignoreExports . containsKey ( property . getDbTable ( ) ) ) modelValues . ignoreExports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > exports = modelValues . ignoreExports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getExports ( ) . size ( ) ; i < m ; i ++ ) { ExportAssignement export = property . getExports ( ) . get ( i ) ; if ( ! exports . containsKey ( export . getDbColumn ( ) ) ) exports . put ( export . getDbColumn ( ) , new HashMap < String , String > ( ) ) ; exports . get ( export . getDbColumn ( ) ) . put ( export . getFkTable ( ) , export . getFkColumn ( ) ) ; } } else if ( POJOGEN_IGNORE_IMPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . ignoreImports . containsKey ( property . getDbTable ( ) ) ) modelValues . ignoreImports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > imports = modelValues . ignoreImports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getImports ( ) . size ( ) ; i < m ; i ++ ) { ImportAssignement _import = property . getImports ( ) . get ( i ) ; if ( ! imports . containsKey ( _import . getDbColumn ( ) ) ) imports . put ( _import . getDbColumn ( ) , new HashMap < String , String > ( ) ) ; imports . get ( _import . getDbColumn ( ) ) . put ( _import . getPkTable ( ) , _import . getPkColumn ( ) ) ; } } else if ( POJOGEN_CREATE_EXPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . createExports . containsKey ( property . getDbTable ( ) ) ) modelValues . createExports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > exports = modelValues . createExports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getExports ( ) . size ( ) ; i < m ; i ++ ) { ExportAssignement export = property . getExports ( ) . get ( i ) ; if ( ! exports . containsKey ( export . getDbColumn ( ) ) ) exports . put ( export . getDbColumn ( ) , new HashMap < String , String > ( ) ) ; exports . get ( export . getDbColumn ( ) ) . put ( export . getFkTable ( ) , export . getFkColumn ( ) ) ; } } else if ( POJOGEN_CREATE_IMPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . createImports . containsKey ( property . getDbTable ( ) ) ) modelValues . createImports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > imports = modelValues . createImports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getImports ( ) . size ( ) ; i < m ; i ++ ) { ImportAssignement _import = property . getImports ( ) . get ( i ) ; if ( ! imports . containsKey ( _import . getDbColumn ( ) ) ) imports . put ( _import . getDbColumn ( ) , new HashMap < String , String > ( ) ) ; imports . get ( _import . getDbColumn ( ) ) . put ( _import . getPkTable ( ) , _import . getPkColumn ( ) ) ; } } else if ( POJOGEN_INHERIT_IMPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . inheritImports . containsKey ( property . getDbTable ( ) ) ) modelValues . inheritImports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > imports = modelValues . inheritImports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getImports ( ) . size ( ) ; i < m ; i ++ ) { ImportAssignement _import = property . getImports ( ) . get ( i ) ; if ( ! imports . containsKey ( _import . getDbColumn ( ) ) ) imports . put ( _import . getDbColumn ( ) , new HashMap < String , String > ( ) ) ; imports . get ( _import . getDbColumn ( ) ) . put ( _import . getPkTable ( ) , _import . getPkColumn ( ) ) ; } } else if ( POJOGEN_MANY_TO_MANY_IMPORTS . equals ( property . getName ( ) ) ) { if ( ! modelValues . manyToManyImports . containsKey ( property . getDbTable ( ) ) ) modelValues . manyToManyImports . put ( property . getDbTable ( ) , new HashMap < String , Map < String , String > > ( ) ) ; Map < String , Map < String , String > > many2s = modelValues . manyToManyImports . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getMany2s ( ) . size ( ) ; i < m ; i ++ ) { ManyToManyAssignement many2 = property . getMany2s ( ) . get ( i ) ; if ( ! many2s . containsKey ( many2 . getPkColumn ( ) ) ) many2s . put ( many2 . getPkColumn ( ) , new HashMap < String , String > ( ) ) ; many2s . get ( many2 . getPkColumn ( ) ) . put ( many2 . getPkTable ( ) , many2 . getFkColumn ( ) ) ; } } else if ( POJOGEN_INHERITANCE . equals ( property . getName ( ) ) ) { if ( ! modelValues . inheritance . containsKey ( property . getDbTable ( ) ) ) modelValues . inheritance . put ( property . getDbTable ( ) , new HashMap < String , Map < String , List < String > > > ( ) ) ; modelValues . inheritanceColumns . put ( property . getDbTable ( ) , property . getDbColumn ( ) ) ; Map < String , Map < String , List < String > > > inherits = modelValues . inheritance . get ( property . getDbTable ( ) ) ; for ( int i = <NUM_LIT:0> , m = property . getInheritance ( ) . size ( ) ; i < m ; i ++ ) { InheritanceAssignement _inherit = property . getInheritance ( ) . get ( i ) ; if ( ! inherits . containsKey ( _inherit . getDiscriminator ( ) ) ) inherits . put ( _inherit . getDiscriminator ( ) , new HashMap < String , List < String > > ( ) ) ; inherits . get ( _inherit . getDiscriminator ( ) ) . put ( _inherit . getDbTable ( ) , _inherit . getDbColumns ( ) ) ; } } else if ( POJOGEN_GENERATE_METHODS . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getMethods ( ) . size ( ) ; i < m ; i ++ ) { modelValues . generateMethods . add ( property . getMethods ( ) . get ( i ) ) ; } } else if ( POJOGEN_IMPLEMENTS_INTERFACES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getToImplements ( ) . size ( ) ; i < m ; i ++ ) { modelValues . toImplements . put ( property . getToImplements ( ) . get ( i ) . getIdentifier ( ) , property . getToImplements ( ) . get ( i ) ) ; } } else if ( POJOGEN_EXTENDS_CLASS . equals ( property . getName ( ) ) ) { modelValues . toExtends = property . getToExtends ( ) ; } else if ( POJOGEN_JOIN_TABLES . equals ( property . getName ( ) ) ) { for ( int i = <NUM_LIT:0> , m = property . getJoinTables ( ) . size ( ) ; i < m ; i ++ ) { JoinTableAssignement joinTableAssignement = property . getJoinTables ( ) . get ( i ) ; if ( ! modelValues . joinTables . containsKey ( joinTableAssignement . getDbTable ( ) ) ) modelValues . joinTables . put ( joinTableAssignement . getDbTable ( ) , new ArrayList < String > ( ) ) ; for ( String dbTable : joinTableAssignement . getDbTables ( ) ) { modelValues . joinTables . get ( joinTableAssignement . getDbTable ( ) ) . add ( dbTable ) ; } } } } @ Override public boolean isDoResolvePojo ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . doResolvePojo : false ; } @ Override public boolean isDoResolveDb ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . doResolveDb : false ; } @ Override public Map < String , PojoAttrType > getSqlTypes ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . sqlTypes : Collections . < String , PojoAttrType > emptyMap ( ) ; } @ Override public Map < String , Map < String , PojoAttrType > > getTableTypes ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . tableTypes : Collections . < String , Map < String , PojoAttrType > > emptyMap ( ) ; } @ Override public Map < String , Map < String , PojoAttrType > > getColumnTypes ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . columnTypes : Collections . < String , Map < String , PojoAttrType > > emptyMap ( ) ; } @ Override public Map < String , String > getTableNames ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . tableNames : Collections . < String , String > emptyMap ( ) ; } @ Override public Map < String , Map < String , String > > getColumnNames ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . columnNames : Collections . < String , Map < String , String > > emptyMap ( ) ; } @ Override public Set < String > getIgnoreTables ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . ignoreTables : Collections . < String > emptySet ( ) ; } @ Override public Set < String > getOnlyTables ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . onlyTables : Collections . < String > emptySet ( ) ; } @ Override public Map < String , Set < String > > getIgnoreColumns ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . ignoreColumns : Collections . < String , Set < String > > emptyMap ( ) ; } @ Override public Map < String , Set < String > > getRequiredColumns ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . requiredColumns : Collections . < String , Set < String > > emptyMap ( ) ; } @ Override public Map < String , Set < String > > getNotRequiredColumns ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . notRequiredColumns : Collections . < String , Set < String > > emptyMap ( ) ; } @ Override public Map < String , Map < String , PojoAttrType > > getCreateColumns ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . createColumns : Collections . < String , Map < String , PojoAttrType > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getIgnoreExports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . ignoreExports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getIgnoreImports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . ignoreImports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getCreateExports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . createExports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getCreateImports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . createImports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getInheritImports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . inheritImports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , String > > > getManyToManyImports ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . manyToManyImports : Collections . < String , Map < String , Map < String , String > > > emptyMap ( ) ; } @ Override public Map < String , Map < String , Map < String , List < String > > > > getInheritance ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . inheritance : Collections . < String , Map < String , Map < String , List < String > > > > emptyMap ( ) ; } @ Override public Map < String , String > getInheritanceColumns ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . inheritanceColumns : Collections . < String , String > emptyMap ( ) ; } @ Override public Set < String > getGenerateMethods ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . generateMethods : Collections . < String > emptySet ( ) ; } @ Override public Map < String , JvmType > getToImplements ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . toImplements : Collections . < String , JvmType > emptyMap ( ) ; } @ Override public JvmType getToExtends ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . toExtends : null ; } @ Override public Map < String , List < String > > getJoinTables ( EObject model ) { ModelValues modelValues = getModelValues ( model ) ; return ( modelValues != null ) ? modelValues . joinTables : Collections . < String , List < String > > emptyMap ( ) ; } @ Override public ModelValues getModelValues ( EObject model ) { Artifacts artifacts = EcoreUtil2 . getContainerOfType ( model , Artifacts . class ) ; if ( artifacts == null ) { LOGGER . error ( "<STR_LIT>" + model ) ; return null ; } if ( artifacts . eResource ( ) == null ) { LOGGER . error ( "<STR_LIT>" + artifacts ) ; return null ; } String dir = Utils . resourceDir ( artifacts . eResource ( ) ) ; if ( dir == null ) { LOGGER . error ( "<STR_LIT>" + artifacts . eResource ( ) . getURI ( ) ) ; return null ; } return dirs2models . get ( dir ) ; } @ Override public String toString ( ) { return "<STR_LIT>" + dirs2models + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl . property ; import java . util . List ; import java . util . Map ; import java . util . Set ; import org . eclipse . emf . common . notify . Adapter ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . common . types . JvmType ; import org . sqlproc . dsl . property . ModelPropertyBean . ModelValues ; public interface ModelProperty extends Adapter { boolean isDoResolvePojo ( EObject model ) ; boolean isDoResolveDb ( EObject model ) ; Map < String , PojoAttrType > getSqlTypes ( EObject model ) ; Map < String , Map < String , PojoAttrType > > getTableTypes ( EObject model ) ; Map < String , Map < String , PojoAttrType > > getColumnTypes ( EObject model ) ; Map < String , Map < String , String > > getColumnNames ( EObject model ) ; ModelValues getModelValues ( EObject model ) ; Map < String , String > getTableNames ( EObject model ) ; Set < String > getIgnoreTables ( EObject model ) ; Map < String , Set < String > > getIgnoreColumns ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getIgnoreExports ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getIgnoreImports ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getCreateExports ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getCreateImports ( EObject model ) ; Map < String , Map < String , PojoAttrType > > getCreateColumns ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getInheritImports ( EObject model ) ; Map < String , Map < String , Map < String , String > > > getManyToManyImports ( EObject model ) ; Map < String , Map < String , Map < String , List < String > > > > getInheritance ( EObject model ) ; Map < String , Set < String > > getRequiredColumns ( EObject model ) ; Map < String , Set < String > > getNotRequiredColumns ( EObject model ) ; Map < String , String > getInheritanceColumns ( EObject model ) ; Set < String > getGenerateMethods ( EObject model ) ; Map < String , JvmType > getToImplements ( EObject model ) ; JvmType getToExtends ( EObject model ) ; Set < String > getOnlyTables ( EObject model ) ; Map < String , List < String > > getJoinTables ( EObject model ) ; } </s>
<s> package org . sqlproc . dsl . property ; import java . util . HashMap ; import java . util . Map ; public class PojoAttribute { private boolean primitive ; private boolean required ; private boolean primaryKey ; private String name ; private String className ; private String dependencyClassName ; private String pkTable ; private String parentTable ; private Map < String , String > fkTables = new HashMap < String , String > ( ) ; public PojoAttribute ( ) { } public boolean isPrimitive ( ) { return primitive ; } public void setPrimitive ( boolean primitive ) { this . primitive = primitive ; } public boolean isRequired ( ) { return required ; } public void setRequired ( boolean required ) { this . required = required ; } public boolean isPrimaryKey ( ) { return primaryKey ; } public void setPrimaryKey ( boolean primaryKey ) { this . primaryKey = primaryKey ; } public String getName ( ) { return name ; } public void setName ( String name ) { this . name = name ; } public String getClassName ( ) { return className ; } public void setClassName ( String className ) { this . className = className ; } public String getDependencyClassName ( ) { return dependencyClassName ; } public void setDependencyClassName ( String dependencyClassName ) { this . dependencyClassName = dependencyClassName ; } public String getPkTable ( ) { return pkTable ; } public void setPkTable ( String pkTable ) { this . pkTable = pkTable ; } public String getParentTable ( ) { return parentTable ; } public void setParentTable ( String parentTable ) { this . parentTable = parentTable ; } public Map < String , String > getFkTables ( ) { return fkTables ; } public void setFkTables ( Map < String , String > fkTables ) { this . fkTables = fkTables ; } @ Override public String toString ( ) { return "<STR_LIT>" + primitive + "<STR_LIT>" + required + "<STR_LIT>" + primaryKey + "<STR_LIT>" + name + "<STR_LIT>" + className + "<STR_LIT>" + dependencyClassName + "<STR_LIT>" + pkTable + "<STR_LIT>" + parentTable + "<STR_LIT>" + fkTables + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl . property ; import org . eclipse . xtext . common . types . JvmType ; import org . eclipse . xtext . nodemodel . ICompositeNode ; import org . eclipse . xtext . nodemodel . util . NodeModelUtils ; import org . sqlproc . dsl . processorDsl . PojoEntity ; import org . sqlproc . dsl . processorDsl . PojoType ; public class PojoAttrType { String name ; int size ; String nativeType ; JvmType type ; boolean array ; PojoEntity ref ; String text ; public PojoAttrType ( String typeName , String size , PojoType pojoType ) { this . nativeType = pojoType . getNative ( ) ; this . type = pojoType . getType ( ) ; this . ref = pojoType . getRef ( ) ; this . array = pojoType . isArray ( ) ; if ( size != null ) { try { this . size = Integer . parseInt ( size ) ; } catch ( NumberFormatException ignore ) { } } String name = typeName ; int ix = name . indexOf ( '<CHAR_LIT:(>' ) ; int ix2 = ( ix >= <NUM_LIT:0> ) ? name . indexOf ( '<CHAR_LIT:)>' , ix + <NUM_LIT:1> ) : - <NUM_LIT:1> ; if ( ix >= <NUM_LIT:0> && ix2 >= <NUM_LIT:0> ) { String num = name . substring ( ix + <NUM_LIT:1> , ix2 ) ; name = name . substring ( <NUM_LIT:0> , ix ) ; try { this . size = Integer . parseInt ( num ) ; } catch ( NumberFormatException ignore ) { } } this . name = name ; ICompositeNode node = NodeModelUtils . getNode ( pojoType ) ; this . text = node . getText ( ) ; if ( this . text . startsWith ( "<STR_LIT::>" ) ) this . text = this . text . substring ( <NUM_LIT:1> ) ; if ( this . text . startsWith ( "<STR_LIT::>" ) ) this . text = this . text . substring ( <NUM_LIT:1> ) ; } public String getName ( ) { return name ; } public void setName ( String name ) { this . name = name ; } public int getSize ( ) { return size ; } public void setSize ( int size ) { this . size = size ; } public String getNativeType ( ) { return nativeType ; } public void setNativeType ( String nativeType ) { this . nativeType = nativeType ; } public JvmType getType ( ) { return type ; } public void setType ( JvmType type ) { this . type = type ; } public boolean isArray ( ) { return array ; } public void setArray ( boolean array ) { this . array = array ; } public PojoEntity getRef ( ) { return ref ; } public void setRef ( PojoEntity ref ) { this . ref = ref ; } public String getText ( ) { return text ; } public void setText ( String text ) { this . text = text ; } @ Override public String toString ( ) { return "<STR_LIT>" + name + "<STR_LIT>" + size + "<STR_LIT:]>" ; } } </s>
<s> package org . sqlproc . dsl ; public class ProcessorDslStandaloneSetup extends ProcessorDslStandaloneSetupGenerated { public static void doSetup ( ) { new ProcessorDslStandaloneSetup ( ) . createInjectorAndDoEMFRegistration ( ) ; } } </s>
<s> package org . sqlproc . dsl ; import org . eclipse . xtext . resource . IResourceFactory ; import org . sqlproc . dsl . property . ModelProperty ; import org . sqlproc . dsl . property . ModelPropertyBean ; import org . sqlproc . dsl . resolver . DbResolver ; import org . sqlproc . dsl . resolver . DbResolverBean ; import org . sqlproc . dsl . resolver . PojoResolverFactory ; import org . sqlproc . dsl . resolver . PojoResolverFactoryBean ; public class ProcessorDslRuntimeModule extends org . sqlproc . dsl . AbstractProcessorDslRuntimeModule { public Class < ? extends ModelProperty > bindModelProperty ( ) { return ModelPropertyBean . class ; } @ Override public Class < ? extends org . eclipse . xtext . naming . IQualifiedNameProvider > bindIQualifiedNameProvider ( ) { return ProcessorNameProvider . class ; } public Class < ? extends PojoResolverFactory > bindPojoResolverFactory ( ) { return PojoResolverFactoryBean . class ; } public Class < ? extends DbResolver > bindDbResolver ( ) { return DbResolverBean . class ; } @ Override public Class < ? extends IResourceFactory > bindIResourceFactory ( ) { return ProcessorResourceFactory . class ; } } </s>
<s> package org . sqlproc . dsl . generator ; import org . eclipse . emf . ecore . resource . Resource ; import org . eclipse . xtext . generator . IFileSystemAccess ; import org . eclipse . xtext . generator . IGenerator ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class ProcessorDslGenerator implements IGenerator { public void doGenerate ( final Resource resource , final IFileSystemAccess fsa ) { } } </s>
<s> package org . sqlproc . dsl ; import java . util . Properties ; import org . eclipse . xtext . Constants ; import org . eclipse . xtext . service . DefaultRuntimeModule ; import com . google . inject . Binder ; import com . google . inject . name . Names ; @ SuppressWarnings ( "<STR_LIT:all>" ) public abstract class AbstractProcessorDslRuntimeModule extends DefaultRuntimeModule { protected Properties properties = null ; @ Override public void configure ( Binder binder ) { properties = tryBindProperties ( binder , "<STR_LIT>" ) ; super . configure ( binder ) ; } public void configureLanguageName ( Binder binder ) { binder . bind ( String . class ) . annotatedWith ( Names . named ( Constants . LANGUAGE_NAME ) ) . toInstance ( "<STR_LIT>" ) ; } public void configureFileExtensions ( Binder binder ) { if ( properties == null \|\| properties . getProperty ( Constants . FILE_EXTENSIONS ) == null ) binder . bind ( String . class ) . annotatedWith ( Names . named ( Constants . FILE_EXTENSIONS ) ) . toInstance ( "<STR_LIT>" ) ; } public Class < ? extends org . eclipse . xtext . IGrammarAccess > bindIGrammarAccess ( ) { return org . sqlproc . dsl . services . ProcessorDslGrammarAccess . class ; } public Class < ? extends org . eclipse . xtext . serializer . sequencer . ISemanticSequencer > bindISemanticSequencer ( ) { return org . sqlproc . dsl . serializer . ProcessorDslSemanticSequencer . class ; } public Class < ? extends org . eclipse . xtext . serializer . sequencer . ISyntacticSequencer > bindISyntacticSequencer ( ) { return org . sqlproc . dsl . serializer . ProcessorDslSyntacticSequencer . class ; } public Class < ? extends org . eclipse . xtext . serializer . ISerializer > bindISerializer ( ) { return org . eclipse . xtext . serializer . impl . Serializer . class ; } public Class < ? extends org . eclipse . xtext . parser . IParser > bindIParser ( ) { return org . sqlproc . dsl . parser . antlr . ProcessorDslParser . class ; } public Class < ? extends org . eclipse . xtext . parser . ITokenToStringConverter > bindITokenToStringConverter ( ) { return org . eclipse . xtext . parser . antlr . AntlrTokenToStringConverter . class ; } public Class < ? extends org . eclipse . xtext . parser . antlr . IAntlrTokenFileProvider > bindIAntlrTokenFileProvider ( ) { return org . sqlproc . dsl . parser . antlr . ProcessorDslAntlrTokenFileProvider . class ; } public Class < ? extends org . eclipse . xtext . parser . antlr . Lexer > bindLexer ( ) { return org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslLexer . class ; } public com . google . inject . Provider < org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslLexer > provideInternalProcessorDslLexer ( ) { return org . eclipse . xtext . parser . antlr . LexerProvider . create ( org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslLexer . class ) ; } public void configureRuntimeLexer ( com . google . inject . Binder binder ) { binder . bind ( org . eclipse . xtext . parser . antlr . Lexer . class ) . annotatedWith ( com . google . inject . name . Names . named ( org . eclipse . xtext . parser . antlr . LexerBindings . RUNTIME ) ) . to ( org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslLexer . class ) ; } public Class < ? extends org . eclipse . xtext . parser . antlr . ITokenDefProvider > bindITokenDefProvider ( ) { return org . eclipse . xtext . parser . antlr . AntlrTokenDefProvider . class ; } @ org . eclipse . xtext . service . SingletonBinding ( eager = true ) public Class < ? extends org . sqlproc . dsl . validation . ProcessorDslJavaValidator > bindProcessorDslJavaValidator ( ) { return org . sqlproc . dsl . validation . ProcessorDslJavaValidator . class ; } public Class < ? extends org . eclipse . xtext . scoping . IScopeProvider > bindIScopeProvider ( ) { return org . sqlproc . dsl . scoping . ProcessorDslScopeProvider . class ; } public void configureIScopeProviderDelegate ( com . google . inject . Binder binder ) { binder . bind ( org . eclipse . xtext . scoping . IScopeProvider . class ) . annotatedWith ( com . google . inject . name . Names . named ( org . eclipse . xtext . scoping . impl . AbstractDeclarativeScopeProvider . NAMED_DELEGATE ) ) . to ( org . eclipse . xtext . scoping . impl . ImportedNamespaceAwareLocalScopeProvider . class ) ; } public void configureIgnoreCaseLinking ( com . google . inject . Binder binder ) { binder . bindConstant ( ) . annotatedWith ( org . eclipse . xtext . scoping . IgnoreCaseLinking . class ) . to ( false ) ; } public Class < ? extends org . eclipse . xtext . naming . IQualifiedNameProvider > bindIQualifiedNameProvider ( ) { return org . eclipse . xtext . naming . DefaultDeclarativeQualifiedNameProvider . class ; } public Class < ? extends org . eclipse . xtext . resource . IContainer . Manager > bindIContainer$Manager ( ) { return org . eclipse . xtext . resource . containers . StateBasedContainerManager . class ; } public Class < ? extends org . eclipse . xtext . resource . containers . IAllContainersState . Provider > bindIAllContainersState$Provider ( ) { return org . eclipse . xtext . resource . containers . ResourceSetBasedAllContainersStateProvider . class ; } public void configureIResourceDescriptions ( com . google . inject . Binder binder ) { binder . bind ( org . eclipse . xtext . resource . IResourceDescriptions . class ) . to ( org . eclipse . xtext . resource . impl . ResourceSetBasedResourceDescriptions . class ) ; } public void configureIResourceDescriptionsBuilderScope ( com . google . inject . Binder binder ) { binder . bind ( org . eclipse . xtext . resource . IResourceDescriptions . class ) . annotatedWith ( com . google . inject . name . Names . named ( org . eclipse . xtext . resource . impl . ResourceDescriptionsProvider . NAMED_BUILDER_SCOPE ) ) . to ( org . eclipse . xtext . resource . impl . ResourceSetBasedResourceDescriptions . class ) ; } public Class < ? extends org . eclipse . xtext . generator . IGenerator > bindIGenerator ( ) { return org . sqlproc . dsl . generator . ProcessorDslGenerator . class ; } public Class < ? extends org . eclipse . xtext . formatting . IFormatter > bindIFormatter ( ) { return org . sqlproc . dsl . formatting . ProcessorDslFormatter . class ; } public java . lang . ClassLoader bindClassLoaderToInstance ( ) { return getClass ( ) . getClassLoader ( ) ; } public org . eclipse . xtext . common . types . TypesFactory bindTypesFactoryToInstance ( ) { return org . eclipse . xtext . common . types . TypesFactory . eINSTANCE ; } public Class < ? extends org . eclipse . xtext . common . types . access . IJvmTypeProvider . Factory > bindIJvmTypeProvider$Factory ( ) { return org . eclipse . xtext . common . types . access . ClasspathTypeProviderFactory . class ; } public Class < ? extends org . eclipse . xtext . common . types . xtext . AbstractTypeScopeProvider > bindAbstractTypeScopeProvider ( ) { return org . eclipse . xtext . common . types . xtext . ClasspathBasedTypeScopeProvider . class ; } public Class < ? extends org . eclipse . xtext . scoping . IGlobalScopeProvider > bindIGlobalScopeProvider ( ) { return org . eclipse . xtext . common . types . xtext . TypesAwareDefaultGlobalScopeProvider . class ; } } </s>
<s> package org . sqlproc . dsl ; import org . eclipse . emf . ecore . EPackage ; import org . eclipse . xtext . ISetup ; import org . eclipse . emf . ecore . resource . Resource ; import com . google . inject . Guice ; import com . google . inject . Injector ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class ProcessorDslStandaloneSetupGenerated implements ISetup { public Injector createInjectorAndDoEMFRegistration ( ) { if ( ! Resource . Factory . Registry . INSTANCE . getExtensionToFactoryMap ( ) . containsKey ( "<STR_LIT>" ) ) Resource . Factory . Registry . INSTANCE . getExtensionToFactoryMap ( ) . put ( "<STR_LIT>" , new org . eclipse . emf . ecore . xmi . impl . EcoreResourceFactoryImpl ( ) ) ; if ( ! Resource . Factory . Registry . INSTANCE . getExtensionToFactoryMap ( ) . containsKey ( "<STR_LIT>" ) ) Resource . Factory . Registry . INSTANCE . getExtensionToFactoryMap ( ) . put ( "<STR_LIT>" , new org . eclipse . emf . ecore . xmi . impl . XMIResourceFactoryImpl ( ) ) ; if ( ! EPackage . Registry . INSTANCE . containsKey ( org . eclipse . xtext . XtextPackage . eNS_URI ) ) EPackage . Registry . INSTANCE . put ( org . eclipse . xtext . XtextPackage . eNS_URI , org . eclipse . xtext . XtextPackage . eINSTANCE ) ; Injector injector = createInjector ( ) ; register ( injector ) ; return injector ; } public Injector createInjector ( ) { return Guice . createInjector ( new org . sqlproc . dsl . ProcessorDslRuntimeModule ( ) ) ; } public void register ( Injector injector ) { if ( ! EPackage . Registry . INSTANCE . containsKey ( "<STR_LIT>" ) ) { EPackage . Registry . INSTANCE . put ( "<STR_LIT>" , org . sqlproc . dsl . processorDsl . ProcessorDslPackage . eINSTANCE ) ; } org . eclipse . xtext . resource . IResourceFactory resourceFactory = injector . getInstance ( org . eclipse . xtext . resource . IResourceFactory . class ) ; org . eclipse . xtext . resource . IResourceServiceProvider serviceProvider = injector . getInstance ( org . eclipse . xtext . resource . IResourceServiceProvider . class ) ; Resource . Factory . Registry . INSTANCE . getExtensionToFactoryMap ( ) . put ( "<STR_LIT>" , resourceFactory ) ; org . eclipse . xtext . resource . IResourceServiceProvider . Registry . INSTANCE . getExtensionToFactoryMap ( ) . put ( "<STR_LIT>" , serviceProvider ) ; } } </s>
<s> package org . sqlproc . dsl . services ; import com . google . inject . Singleton ; import com . google . inject . Inject ; import org . eclipse . xtext . * ; import org . eclipse . xtext . service . GrammarProvider ; import org . eclipse . xtext . service . AbstractElementFinder . * ; @ Singleton public class ProcessorDslGrammarAccess extends AbstractGrammarElementFinder { public class ArtifactsElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cWSTerminalRuleCall_0 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cAlternatives_1 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_0 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cFeaturesAssignment_1_0_0 = ( Assignment ) cGroup_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cFeaturesOptionalFeatureParserRuleCall_1_0_0_0 = ( RuleCall ) cFeaturesAssignment_1_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_0_1 = ( RuleCall ) cGroup_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_1 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cStatementsAssignment_1_1_0 = ( Assignment ) cGroup_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementsMetaStatementParserRuleCall_1_1_0_0 = ( RuleCall ) cStatementsAssignment_1_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_1_1 = ( RuleCall ) cGroup_1_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_2 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cMappingsAssignment_1_2_0 = ( Assignment ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cMappingsMappingRuleParserRuleCall_1_2_0_0 = ( RuleCall ) cMappingsAssignment_1_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_2_1 = ( RuleCall ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_3 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Assignment cPojosAssignment_1_3_0 = ( Assignment ) cGroup_1_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPojosPojoDefinitionParserRuleCall_1_3_0_0 = ( RuleCall ) cPojosAssignment_1_3_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_3_1 = ( RuleCall ) cGroup_1_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_4 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final Assignment cUsagesAssignment_1_4_0 = ( Assignment ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cUsagesPojoUsageParserRuleCall_1_4_0_0 = ( RuleCall ) cUsagesAssignment_1_4_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_4_1 = ( RuleCall ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_5 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cPropertiesAssignment_1_5_0 = ( Assignment ) cGroup_1_5 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPropertiesPropertyParserRuleCall_1_5_0_0 = ( RuleCall ) cPropertiesAssignment_1_5_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_5_1 = ( RuleCall ) cGroup_1_5 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_6 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final Assignment cTablesAssignment_1_6_0 = ( Assignment ) cGroup_1_6 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTablesTableDefinitionParserRuleCall_1_6_0_0 = ( RuleCall ) cTablesAssignment_1_6_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_6_1 = ( RuleCall ) cGroup_1_6 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1_7 = ( Group ) cAlternatives_1 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final Assignment cTableUsagesAssignment_1_7_0 = ( Assignment ) cGroup_1_7 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTableUsagesTableUsageParserRuleCall_1_7_0_0 = ( RuleCall ) cTableUsagesAssignment_1_7_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_1_7_1 = ( RuleCall ) cGroup_1_7 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public RuleCall getWSTerminalRuleCall_0 ( ) { return cWSTerminalRuleCall_0 ; } public Alternatives getAlternatives_1 ( ) { return cAlternatives_1 ; } public Group getGroup_1_0 ( ) { return cGroup_1_0 ; } public Assignment getFeaturesAssignment_1_0_0 ( ) { return cFeaturesAssignment_1_0_0 ; } public RuleCall getFeaturesOptionalFeatureParserRuleCall_1_0_0_0 ( ) { return cFeaturesOptionalFeatureParserRuleCall_1_0_0_0 ; } public RuleCall getWSTerminalRuleCall_1_0_1 ( ) { return cWSTerminalRuleCall_1_0_1 ; } public Group getGroup_1_1 ( ) { return cGroup_1_1 ; } public Assignment getStatementsAssignment_1_1_0 ( ) { return cStatementsAssignment_1_1_0 ; } public RuleCall getStatementsMetaStatementParserRuleCall_1_1_0_0 ( ) { return cStatementsMetaStatementParserRuleCall_1_1_0_0 ; } public RuleCall getWSTerminalRuleCall_1_1_1 ( ) { return cWSTerminalRuleCall_1_1_1 ; } public Group getGroup_1_2 ( ) { return cGroup_1_2 ; } public Assignment getMappingsAssignment_1_2_0 ( ) { return cMappingsAssignment_1_2_0 ; } public RuleCall getMappingsMappingRuleParserRuleCall_1_2_0_0 ( ) { return cMappingsMappingRuleParserRuleCall_1_2_0_0 ; } public RuleCall getWSTerminalRuleCall_1_2_1 ( ) { return cWSTerminalRuleCall_1_2_1 ; } public Group getGroup_1_3 ( ) { return cGroup_1_3 ; } public Assignment getPojosAssignment_1_3_0 ( ) { return cPojosAssignment_1_3_0 ; } public RuleCall getPojosPojoDefinitionParserRuleCall_1_3_0_0 ( ) { return cPojosPojoDefinitionParserRuleCall_1_3_0_0 ; } public RuleCall getWSTerminalRuleCall_1_3_1 ( ) { return cWSTerminalRuleCall_1_3_1 ; } public Group getGroup_1_4 ( ) { return cGroup_1_4 ; } public Assignment getUsagesAssignment_1_4_0 ( ) { return cUsagesAssignment_1_4_0 ; } public RuleCall getUsagesPojoUsageParserRuleCall_1_4_0_0 ( ) { return cUsagesPojoUsageParserRuleCall_1_4_0_0 ; } public RuleCall getWSTerminalRuleCall_1_4_1 ( ) { return cWSTerminalRuleCall_1_4_1 ; } public Group getGroup_1_5 ( ) { return cGroup_1_5 ; } public Assignment getPropertiesAssignment_1_5_0 ( ) { return cPropertiesAssignment_1_5_0 ; } public RuleCall getPropertiesPropertyParserRuleCall_1_5_0_0 ( ) { return cPropertiesPropertyParserRuleCall_1_5_0_0 ; } public RuleCall getWSTerminalRuleCall_1_5_1 ( ) { return cWSTerminalRuleCall_1_5_1 ; } public Group getGroup_1_6 ( ) { return cGroup_1_6 ; } public Assignment getTablesAssignment_1_6_0 ( ) { return cTablesAssignment_1_6_0 ; } public RuleCall getTablesTableDefinitionParserRuleCall_1_6_0_0 ( ) { return cTablesTableDefinitionParserRuleCall_1_6_0_0 ; } public RuleCall getWSTerminalRuleCall_1_6_1 ( ) { return cWSTerminalRuleCall_1_6_1 ; } public Group getGroup_1_7 ( ) { return cGroup_1_7 ; } public Assignment getTableUsagesAssignment_1_7_0 ( ) { return cTableUsagesAssignment_1_7_0 ; } public RuleCall getTableUsagesTableUsageParserRuleCall_1_7_0_0 ( ) { return cTableUsagesTableUsageParserRuleCall_1_7_0_0 ; } public RuleCall getWSTerminalRuleCall_1_7_1 ( ) { return cWSTerminalRuleCall_1_7_1 ; } } public class PropertyElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_0 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_0 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cNameAssignment_0_0_0 = ( Assignment ) cGroup_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameResolveReferencesKeyword_0_0_0_0 = ( Keyword ) cNameAssignment_0_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_0_1 = ( RuleCall ) cGroup_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDoResolvePojoAssignment_0_0_2 = ( Assignment ) cGroup_0_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDoResolvePojoON_OFFTerminalRuleCall_0_0_2_0 = ( RuleCall ) cDoResolvePojoAssignment_0_0_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_1 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0_1_0 = ( Assignment ) cGroup_0_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabaseOnlineKeyword_0_1_0_0 = ( Keyword ) cNameAssignment_0_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_1_1 = ( RuleCall ) cGroup_0_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDoResolveDbAssignment_0_1_2 = ( Assignment ) cGroup_0_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDoResolveDbON_OFFTerminalRuleCall_0_1_2_0 = ( RuleCall ) cDoResolveDbAssignment_0_1_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_2 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cNameAssignment_0_2_0 = ( Assignment ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabaseUrlKeyword_0_2_0_0 = ( Keyword ) cNameAssignment_0_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_2_1 = ( RuleCall ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDbUrlAssignment_0_2_2 = ( Assignment ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDbUrlPropertyValueParserRuleCall_0_2_2_0 = ( RuleCall ) cDbUrlAssignment_0_2_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_3 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Assignment cNameAssignment_0_3_0 = ( Assignment ) cGroup_0_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabaseUsernameKeyword_0_3_0_0 = ( Keyword ) cNameAssignment_0_3_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_3_1 = ( RuleCall ) cGroup_0_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDbUsernameAssignment_0_3_2 = ( Assignment ) cGroup_0_3 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDbUsernamePropertyValueParserRuleCall_0_3_2_0 = ( RuleCall ) cDbUsernameAssignment_0_3_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_4 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final Assignment cNameAssignment_0_4_0 = ( Assignment ) cGroup_0_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabasePasswordKeyword_0_4_0_0 = ( Keyword ) cNameAssignment_0_4_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_4_1 = ( RuleCall ) cGroup_0_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDbPasswordAssignment_0_4_2 = ( Assignment ) cGroup_0_4 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDbPasswordPropertyValueParserRuleCall_0_4_2_0 = ( RuleCall ) cDbPasswordAssignment_0_4_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_5 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cNameAssignment_0_5_0 = ( Assignment ) cGroup_0_5 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabaseSchemaKeyword_0_5_0_0 = ( Keyword ) cNameAssignment_0_5_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_5_1 = ( RuleCall ) cGroup_0_5 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDbSchemaAssignment_0_5_2 = ( Assignment ) cGroup_0_5 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDbSchemaPropertyValueParserRuleCall_0_5_2_0 = ( RuleCall ) cDbSchemaAssignment_0_5_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_6 = ( Group ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final Assignment cNameAssignment_0_6_0 = ( Assignment ) cGroup_0_6 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Keyword cNameDatabaseDriverKeyword_0_6_0_0 = ( Keyword ) cNameAssignment_0_6_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_6_1 = ( RuleCall ) cGroup_0_6 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cDbDriverAssignment_0_6_2 = ( Assignment ) cGroup_0_6 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cDbDriverPropertyValueParserRuleCall_0_6_2_0 = ( RuleCall ) cDbDriverAssignment_0_6_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_1 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Alternatives getAlternatives_0 ( ) { return cAlternatives_0 ; } public Group getGroup_0_0 ( ) { return cGroup_0_0 ; } public Assignment getNameAssignment_0_0_0 ( ) { return cNameAssignment_0_0_0 ; } public Keyword getNameResolveReferencesKeyword_0_0_0_0 ( ) { return cNameResolveReferencesKeyword_0_0_0_0 ; } public RuleCall getWSTerminalRuleCall_0_0_1 ( ) { return cWSTerminalRuleCall_0_0_1 ; } public Assignment getDoResolvePojoAssignment_0_0_2 ( ) { return cDoResolvePojoAssignment_0_0_2 ; } public RuleCall getDoResolvePojoON_OFFTerminalRuleCall_0_0_2_0 ( ) { return cDoResolvePojoON_OFFTerminalRuleCall_0_0_2_0 ; } public Group getGroup_0_1 ( ) { return cGroup_0_1 ; } public Assignment getNameAssignment_0_1_0 ( ) { return cNameAssignment_0_1_0 ; } public Keyword getNameDatabaseOnlineKeyword_0_1_0_0 ( ) { return cNameDatabaseOnlineKeyword_0_1_0_0 ; } public RuleCall getWSTerminalRuleCall_0_1_1 ( ) { return cWSTerminalRuleCall_0_1_1 ; } public Assignment getDoResolveDbAssignment_0_1_2 ( ) { return cDoResolveDbAssignment_0_1_2 ; } public RuleCall getDoResolveDbON_OFFTerminalRuleCall_0_1_2_0 ( ) { return cDoResolveDbON_OFFTerminalRuleCall_0_1_2_0 ; } public Group getGroup_0_2 ( ) { return cGroup_0_2 ; } public Assignment getNameAssignment_0_2_0 ( ) { return cNameAssignment_0_2_0 ; } public Keyword getNameDatabaseUrlKeyword_0_2_0_0 ( ) { return cNameDatabaseUrlKeyword_0_2_0_0 ; } public RuleCall getWSTerminalRuleCall_0_2_1 ( ) { return cWSTerminalRuleCall_0_2_1 ; } public Assignment getDbUrlAssignment_0_2_2 ( ) { return cDbUrlAssignment_0_2_2 ; } public RuleCall getDbUrlPropertyValueParserRuleCall_0_2_2_0 ( ) { return cDbUrlPropertyValueParserRuleCall_0_2_2_0 ; } public Group getGroup_0_3 ( ) { return cGroup_0_3 ; } public Assignment getNameAssignment_0_3_0 ( ) { return cNameAssignment_0_3_0 ; } public Keyword getNameDatabaseUsernameKeyword_0_3_0_0 ( ) { return cNameDatabaseUsernameKeyword_0_3_0_0 ; } public RuleCall getWSTerminalRuleCall_0_3_1 ( ) { return cWSTerminalRuleCall_0_3_1 ; } public Assignment getDbUsernameAssignment_0_3_2 ( ) { return cDbUsernameAssignment_0_3_2 ; } public RuleCall getDbUsernamePropertyValueParserRuleCall_0_3_2_0 ( ) { return cDbUsernamePropertyValueParserRuleCall_0_3_2_0 ; } public Group getGroup_0_4 ( ) { return cGroup_0_4 ; } public Assignment getNameAssignment_0_4_0 ( ) { return cNameAssignment_0_4_0 ; } public Keyword getNameDatabasePasswordKeyword_0_4_0_0 ( ) { return cNameDatabasePasswordKeyword_0_4_0_0 ; } public RuleCall getWSTerminalRuleCall_0_4_1 ( ) { return cWSTerminalRuleCall_0_4_1 ; } public Assignment getDbPasswordAssignment_0_4_2 ( ) { return cDbPasswordAssignment_0_4_2 ; } public RuleCall getDbPasswordPropertyValueParserRuleCall_0_4_2_0 ( ) { return cDbPasswordPropertyValueParserRuleCall_0_4_2_0 ; } public Group getGroup_0_5 ( ) { return cGroup_0_5 ; } public Assignment getNameAssignment_0_5_0 ( ) { return cNameAssignment_0_5_0 ; } public Keyword getNameDatabaseSchemaKeyword_0_5_0_0 ( ) { return cNameDatabaseSchemaKeyword_0_5_0_0 ; } public RuleCall getWSTerminalRuleCall_0_5_1 ( ) { return cWSTerminalRuleCall_0_5_1 ; } public Assignment getDbSchemaAssignment_0_5_2 ( ) { return cDbSchemaAssignment_0_5_2 ; } public RuleCall getDbSchemaPropertyValueParserRuleCall_0_5_2_0 ( ) { return cDbSchemaPropertyValueParserRuleCall_0_5_2_0 ; } public Group getGroup_0_6 ( ) { return cGroup_0_6 ; } public Assignment getNameAssignment_0_6_0 ( ) { return cNameAssignment_0_6_0 ; } public Keyword getNameDatabaseDriverKeyword_0_6_0_0 ( ) { return cNameDatabaseDriverKeyword_0_6_0_0 ; } public RuleCall getWSTerminalRuleCall_0_6_1 ( ) { return cWSTerminalRuleCall_0_6_1 ; } public Assignment getDbDriverAssignment_0_6_2 ( ) { return cDbDriverAssignment_0_6_2 ; } public RuleCall getDbDriverPropertyValueParserRuleCall_0_6_2_0 ( ) { return cDbDriverPropertyValueParserRuleCall_0_6_2_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_1 ( ) { return cSEMICOLONTerminalRuleCall_1 ; } } public class PropertyValueElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_0 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_0_0 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_0_2 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_0_3 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOLONTerminalRuleCall_0_4 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cSTRINGTerminalRuleCall_0_5 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cCOMMATerminalRuleCall_0_6 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMINUSTerminalRuleCall_0_7 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cPLUSTerminalRuleCall_0_8 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cLPARENTerminalRuleCall_0_9 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRPARENTerminalRuleCall_0_10 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cLBRACETerminalRuleCall_0_11 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cRBRACETerminalRuleCall_0_12 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cQUESTITerminalRuleCall_0_13 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cNOTTerminalRuleCall_0_14 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBANDTerminalRuleCall_0_15 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cBORTerminalRuleCall_0_16 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cHASHTerminalRuleCall_0_17 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cATTerminalRuleCall_0_18 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_0_19 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cEQUALSTerminalRuleCall_0_20 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cLESS_THANTerminalRuleCall_0_21 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_0_22 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cPERCENTTerminalRuleCall_0_23 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_0_24 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cORTerminalRuleCall_0_25 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_0_26 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_0_27 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_0_28 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_0_29 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_0_30 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:30> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_1_0 = ( Alternatives ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_1_0_0 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_1_0_1 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_1_0_2 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_1_0_3 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_1_0_4 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cCOLONTerminalRuleCall_1_0_5 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cSTRINGTerminalRuleCall_1_0_6 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cCOMMATerminalRuleCall_1_0_7 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cMINUSTerminalRuleCall_1_0_8 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cPLUSTerminalRuleCall_1_0_9 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cLPARENTerminalRuleCall_1_0_10 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cRPARENTerminalRuleCall_1_0_11 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cLBRACETerminalRuleCall_1_0_12 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cRBRACETerminalRuleCall_1_0_13 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cQUESTITerminalRuleCall_1_0_14 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cNOTTerminalRuleCall_1_0_15 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cBANDTerminalRuleCall_1_0_16 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cBORTerminalRuleCall_1_0_17 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_1_0_18 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cATTerminalRuleCall_1_0_19 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_1_0_20 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cEQUALSTerminalRuleCall_1_0_21 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_1_0_22 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_1_0_23 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cPERCENTTerminalRuleCall_1_0_24 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cANDTerminalRuleCall_1_0_25 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_1_0_26 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_1_0_27 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_1_0_28 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_1_0_29 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_1_0_30 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:30> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_1_0_31 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:31> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Alternatives getAlternatives_0 ( ) { return cAlternatives_0 ; } public RuleCall getRESTTerminalRuleCall_0_0 ( ) { return cRESTTerminalRuleCall_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_0_1 ; } public RuleCall getIDENTTerminalRuleCall_0_2 ( ) { return cIDENTTerminalRuleCall_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_0_3 ( ) { return cNUMBERTerminalRuleCall_0_3 ; } public RuleCall getCOLONTerminalRuleCall_0_4 ( ) { return cCOLONTerminalRuleCall_0_4 ; } public RuleCall getSTRINGTerminalRuleCall_0_5 ( ) { return cSTRINGTerminalRuleCall_0_5 ; } public RuleCall getCOMMATerminalRuleCall_0_6 ( ) { return cCOMMATerminalRuleCall_0_6 ; } public RuleCall getMINUSTerminalRuleCall_0_7 ( ) { return cMINUSTerminalRuleCall_0_7 ; } public RuleCall getPLUSTerminalRuleCall_0_8 ( ) { return cPLUSTerminalRuleCall_0_8 ; } public RuleCall getLPARENTerminalRuleCall_0_9 ( ) { return cLPARENTerminalRuleCall_0_9 ; } public RuleCall getRPARENTerminalRuleCall_0_10 ( ) { return cRPARENTerminalRuleCall_0_10 ; } public RuleCall getLBRACETerminalRuleCall_0_11 ( ) { return cLBRACETerminalRuleCall_0_11 ; } public RuleCall getRBRACETerminalRuleCall_0_12 ( ) { return cRBRACETerminalRuleCall_0_12 ; } public RuleCall getQUESTITerminalRuleCall_0_13 ( ) { return cQUESTITerminalRuleCall_0_13 ; } public RuleCall getNOTTerminalRuleCall_0_14 ( ) { return cNOTTerminalRuleCall_0_14 ; } public RuleCall getBANDTerminalRuleCall_0_15 ( ) { return cBANDTerminalRuleCall_0_15 ; } public RuleCall getBORTerminalRuleCall_0_16 ( ) { return cBORTerminalRuleCall_0_16 ; } public RuleCall getHASHTerminalRuleCall_0_17 ( ) { return cHASHTerminalRuleCall_0_17 ; } public RuleCall getATTerminalRuleCall_0_18 ( ) { return cATTerminalRuleCall_0_18 ; } public RuleCall getCARETTerminalRuleCall_0_19 ( ) { return cCARETTerminalRuleCall_0_19 ; } public RuleCall getEQUALSTerminalRuleCall_0_20 ( ) { return cEQUALSTerminalRuleCall_0_20 ; } public RuleCall getLESS_THANTerminalRuleCall_0_21 ( ) { return cLESS_THANTerminalRuleCall_0_21 ; } public RuleCall getMORE_THANTerminalRuleCall_0_22 ( ) { return cMORE_THANTerminalRuleCall_0_22 ; } public RuleCall getPERCENTTerminalRuleCall_0_23 ( ) { return cPERCENTTerminalRuleCall_0_23 ; } public RuleCall getANDTerminalRuleCall_0_24 ( ) { return cANDTerminalRuleCall_0_24 ; } public RuleCall getORTerminalRuleCall_0_25 ( ) { return cORTerminalRuleCall_0_25 ; } public RuleCall getESC_CHARTerminalRuleCall_0_26 ( ) { return cESC_CHARTerminalRuleCall_0_26 ; } public RuleCall getON_OFFTerminalRuleCall_0_27 ( ) { return cON_OFFTerminalRuleCall_0_27 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_0_28 ( ) { return cSTATEMEN_TYPETerminalRuleCall_0_28 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_0_29 ( ) { return cMAPPING_TYPETerminalRuleCall_0_29 ; } public RuleCall getOPTION_TYPETerminalRuleCall_0_30 ( ) { return cOPTION_TYPETerminalRuleCall_0_30 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Alternatives getAlternatives_1_0 ( ) { return cAlternatives_1_0 ; } public RuleCall getRESTTerminalRuleCall_1_0_0 ( ) { return cRESTTerminalRuleCall_1_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_1_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_1_0_1 ; } public RuleCall getIDENTTerminalRuleCall_1_0_2 ( ) { return cIDENTTerminalRuleCall_1_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_1_0_3 ( ) { return cNUMBERTerminalRuleCall_1_0_3 ; } public RuleCall getWSTerminalRuleCall_1_0_4 ( ) { return cWSTerminalRuleCall_1_0_4 ; } public RuleCall getCOLONTerminalRuleCall_1_0_5 ( ) { return cCOLONTerminalRuleCall_1_0_5 ; } public RuleCall getSTRINGTerminalRuleCall_1_0_6 ( ) { return cSTRINGTerminalRuleCall_1_0_6 ; } public RuleCall getCOMMATerminalRuleCall_1_0_7 ( ) { return cCOMMATerminalRuleCall_1_0_7 ; } public RuleCall getMINUSTerminalRuleCall_1_0_8 ( ) { return cMINUSTerminalRuleCall_1_0_8 ; } public RuleCall getPLUSTerminalRuleCall_1_0_9 ( ) { return cPLUSTerminalRuleCall_1_0_9 ; } public RuleCall getLPARENTerminalRuleCall_1_0_10 ( ) { return cLPARENTerminalRuleCall_1_0_10 ; } public RuleCall getRPARENTerminalRuleCall_1_0_11 ( ) { return cRPARENTerminalRuleCall_1_0_11 ; } public RuleCall getLBRACETerminalRuleCall_1_0_12 ( ) { return cLBRACETerminalRuleCall_1_0_12 ; } public RuleCall getRBRACETerminalRuleCall_1_0_13 ( ) { return cRBRACETerminalRuleCall_1_0_13 ; } public RuleCall getQUESTITerminalRuleCall_1_0_14 ( ) { return cQUESTITerminalRuleCall_1_0_14 ; } public RuleCall getNOTTerminalRuleCall_1_0_15 ( ) { return cNOTTerminalRuleCall_1_0_15 ; } public RuleCall getBANDTerminalRuleCall_1_0_16 ( ) { return cBANDTerminalRuleCall_1_0_16 ; } public RuleCall getBORTerminalRuleCall_1_0_17 ( ) { return cBORTerminalRuleCall_1_0_17 ; } public RuleCall getHASHTerminalRuleCall_1_0_18 ( ) { return cHASHTerminalRuleCall_1_0_18 ; } public RuleCall getATTerminalRuleCall_1_0_19 ( ) { return cATTerminalRuleCall_1_0_19 ; } public RuleCall getCARETTerminalRuleCall_1_0_20 ( ) { return cCARETTerminalRuleCall_1_0_20 ; } public RuleCall getEQUALSTerminalRuleCall_1_0_21 ( ) { return cEQUALSTerminalRuleCall_1_0_21 ; } public RuleCall getLESS_THANTerminalRuleCall_1_0_22 ( ) { return cLESS_THANTerminalRuleCall_1_0_22 ; } public RuleCall getMORE_THANTerminalRuleCall_1_0_23 ( ) { return cMORE_THANTerminalRuleCall_1_0_23 ; } public RuleCall getPERCENTTerminalRuleCall_1_0_24 ( ) { return cPERCENTTerminalRuleCall_1_0_24 ; } public RuleCall getANDTerminalRuleCall_1_0_25 ( ) { return cANDTerminalRuleCall_1_0_25 ; } public RuleCall getORTerminalRuleCall_1_0_26 ( ) { return cORTerminalRuleCall_1_0_26 ; } public RuleCall getESC_CHARTerminalRuleCall_1_0_27 ( ) { return cESC_CHARTerminalRuleCall_1_0_27 ; } public RuleCall getON_OFFTerminalRuleCall_1_0_28 ( ) { return cON_OFFTerminalRuleCall_1_0_28 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_1_0_29 ( ) { return cSTATEMEN_TYPETerminalRuleCall_1_0_29 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_1_0_30 ( ) { return cMAPPING_TYPETerminalRuleCall_1_0_30 ; } public RuleCall getOPTION_TYPETerminalRuleCall_1_0_31 ( ) { return cOPTION_TYPETerminalRuleCall_1_0_31 ; } } public class PojoDefinitionElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cPojoKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cNameAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cNameIDENTTerminalRuleCall_1_0 = ( RuleCall ) cNameAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cClassAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Alternatives cClassAlternatives_2_0 = ( Alternatives ) cClassAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cClassIDENTTerminalRuleCall_2_0_0 = ( RuleCall ) cClassAlternatives_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cClassIDENT_DOTTerminalRuleCall_2_0_1 = ( RuleCall ) cClassAlternatives_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getPojoKeyword_0 ( ) { return cPojoKeyword_0 ; } public Assignment getNameAssignment_1 ( ) { return cNameAssignment_1 ; } public RuleCall getNameIDENTTerminalRuleCall_1_0 ( ) { return cNameIDENTTerminalRuleCall_1_0 ; } public Assignment getClassAssignment_2 ( ) { return cClassAssignment_2 ; } public Alternatives getClassAlternatives_2_0 ( ) { return cClassAlternatives_2_0 ; } public RuleCall getClassIDENTTerminalRuleCall_2_0_0 ( ) { return cClassIDENTTerminalRuleCall_2_0_0 ; } public RuleCall getClassIDENT_DOTTerminalRuleCall_2_0_1 ( ) { return cClassIDENT_DOTTerminalRuleCall_2_0_1 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class PojoUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cColumnUsageParserRuleCall_0 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIdentifierUsageParserRuleCall_1 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cConstantUsageParserRuleCall_2 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cMappingUsageParserRuleCall_3 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public RuleCall getColumnUsageParserRuleCall_0 ( ) { return cColumnUsageParserRuleCall_0 ; } public RuleCall getIdentifierUsageParserRuleCall_1 ( ) { return cIdentifierUsageParserRuleCall_1 ; } public RuleCall getConstantUsageParserRuleCall_2 ( ) { return cConstantUsageParserRuleCall_2 ; } public RuleCall getMappingUsageParserRuleCall_3 ( ) { return cMappingUsageParserRuleCall_3 ; } } public class ColumnUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cColKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cStatementAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final CrossReference cStatementMetaStatementCrossReference_1_0 = ( CrossReference ) cStatementAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 = ( RuleCall ) cStatementMetaStatementCrossReference_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cPojoAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final CrossReference cPojoPojoDefinitionCrossReference_2_0 = ( CrossReference ) cPojoAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 = ( RuleCall ) cPojoPojoDefinitionCrossReference_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getColKeyword_0 ( ) { return cColKeyword_0 ; } public Assignment getStatementAssignment_1 ( ) { return cStatementAssignment_1 ; } public CrossReference getStatementMetaStatementCrossReference_1_0 ( ) { return cStatementMetaStatementCrossReference_1_0 ; } public RuleCall getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) { return cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ; } public Assignment getPojoAssignment_2 ( ) { return cPojoAssignment_2 ; } public CrossReference getPojoPojoDefinitionCrossReference_2_0 ( ) { return cPojoPojoDefinitionCrossReference_2_0 ; } public RuleCall getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) { return cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class IdentifierUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cIdentKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cStatementAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final CrossReference cStatementMetaStatementCrossReference_1_0 = ( CrossReference ) cStatementAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 = ( RuleCall ) cStatementMetaStatementCrossReference_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cPojoAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final CrossReference cPojoPojoDefinitionCrossReference_2_0 = ( CrossReference ) cPojoAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 = ( RuleCall ) cPojoPojoDefinitionCrossReference_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getIdentKeyword_0 ( ) { return cIdentKeyword_0 ; } public Assignment getStatementAssignment_1 ( ) { return cStatementAssignment_1 ; } public CrossReference getStatementMetaStatementCrossReference_1_0 ( ) { return cStatementMetaStatementCrossReference_1_0 ; } public RuleCall getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) { return cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ; } public Assignment getPojoAssignment_2 ( ) { return cPojoAssignment_2 ; } public CrossReference getPojoPojoDefinitionCrossReference_2_0 ( ) { return cPojoPojoDefinitionCrossReference_2_0 ; } public RuleCall getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) { return cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class ConstantUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cConstKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cStatementAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final CrossReference cStatementMetaStatementCrossReference_1_0 = ( CrossReference ) cStatementAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 = ( RuleCall ) cStatementMetaStatementCrossReference_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cPojoAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final CrossReference cPojoPojoDefinitionCrossReference_2_0 = ( CrossReference ) cPojoAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 = ( RuleCall ) cPojoPojoDefinitionCrossReference_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getConstKeyword_0 ( ) { return cConstKeyword_0 ; } public Assignment getStatementAssignment_1 ( ) { return cStatementAssignment_1 ; } public CrossReference getStatementMetaStatementCrossReference_1_0 ( ) { return cStatementMetaStatementCrossReference_1_0 ; } public RuleCall getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) { return cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ; } public Assignment getPojoAssignment_2 ( ) { return cPojoAssignment_2 ; } public CrossReference getPojoPojoDefinitionCrossReference_2_0 ( ) { return cPojoPojoDefinitionCrossReference_2_0 ; } public RuleCall getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) { return cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class MappingUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cOutKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cStatementAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final CrossReference cStatementMappingRuleCrossReference_1_0 = ( CrossReference ) cStatementAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementMappingRuleIDENTTerminalRuleCall_1_0_1 = ( RuleCall ) cStatementMappingRuleCrossReference_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cPojoAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final CrossReference cPojoPojoDefinitionCrossReference_2_0 = ( CrossReference ) cPojoAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 = ( RuleCall ) cPojoPojoDefinitionCrossReference_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getOutKeyword_0 ( ) { return cOutKeyword_0 ; } public Assignment getStatementAssignment_1 ( ) { return cStatementAssignment_1 ; } public CrossReference getStatementMappingRuleCrossReference_1_0 ( ) { return cStatementMappingRuleCrossReference_1_0 ; } public RuleCall getStatementMappingRuleIDENTTerminalRuleCall_1_0_1 ( ) { return cStatementMappingRuleIDENTTerminalRuleCall_1_0_1 ; } public Assignment getPojoAssignment_2 ( ) { return cPojoAssignment_2 ; } public CrossReference getPojoPojoDefinitionCrossReference_2_0 ( ) { return cPojoPojoDefinitionCrossReference_2_0 ; } public RuleCall getPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ( ) { return cPojoPojoDefinitionIDENTTerminalRuleCall_2_0_1 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class TableDefinitionElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cTableKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cNameAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cNameIDENTTerminalRuleCall_1_0 = ( RuleCall ) cNameAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cTableAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cTableIDENTTerminalRuleCall_2_0 = ( RuleCall ) cTableAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getTableKeyword_0 ( ) { return cTableKeyword_0 ; } public Assignment getNameAssignment_1 ( ) { return cNameAssignment_1 ; } public RuleCall getNameIDENTTerminalRuleCall_1_0 ( ) { return cNameIDENTTerminalRuleCall_1_0 ; } public Assignment getTableAssignment_2 ( ) { return cTableAssignment_2 ; } public RuleCall getTableIDENTTerminalRuleCall_2_0 ( ) { return cTableIDENTTerminalRuleCall_2_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_3 ( ) { return cSEMICOLONTerminalRuleCall_3 ; } } public class TableUsageElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Keyword cDbcolKeyword_0 = ( Keyword ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cStatementAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final CrossReference cStatementMetaStatementCrossReference_1_0 = ( CrossReference ) cStatementAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 = ( RuleCall ) cStatementMetaStatementCrossReference_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTableAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final CrossReference cTableTableDefinitionCrossReference_2_0 = ( CrossReference ) cTableAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTableTableDefinitionIDENTTerminalRuleCall_2_0_1 = ( RuleCall ) cTableTableDefinitionCrossReference_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Keyword cPrefixKeyword_3_0 = ( Keyword ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cPrefixAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cPrefixIDENTTerminalRuleCall_3_1_0 = ( RuleCall ) cPrefixAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_4 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:4> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Keyword getDbcolKeyword_0 ( ) { return cDbcolKeyword_0 ; } public Assignment getStatementAssignment_1 ( ) { return cStatementAssignment_1 ; } public CrossReference getStatementMetaStatementCrossReference_1_0 ( ) { return cStatementMetaStatementCrossReference_1_0 ; } public RuleCall getStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ( ) { return cStatementMetaStatementIDENTTerminalRuleCall_1_0_1 ; } public Assignment getTableAssignment_2 ( ) { return cTableAssignment_2 ; } public CrossReference getTableTableDefinitionCrossReference_2_0 ( ) { return cTableTableDefinitionCrossReference_2_0 ; } public RuleCall getTableTableDefinitionIDENTTerminalRuleCall_2_0_1 ( ) { return cTableTableDefinitionIDENTTerminalRuleCall_2_0_1 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public Keyword getPrefixKeyword_3_0 ( ) { return cPrefixKeyword_3_0 ; } public Assignment getPrefixAssignment_3_1 ( ) { return cPrefixAssignment_3_1 ; } public RuleCall getPrefixIDENTTerminalRuleCall_3_1_0 ( ) { return cPrefixIDENTTerminalRuleCall_3_1_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_4 ( ) { return cSEMICOLONTerminalRuleCall_4 ; } } public class MetaStatementElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0 = ( RuleCall ) cNameAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cLPARENTerminalRuleCall_1 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTypeAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cTypeSTATEMEN_TYPETerminalRuleCall_2_0 = ( RuleCall ) cTypeAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOMMATerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cFiltersAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cFiltersIDENTTerminalRuleCall_3_1_0 = ( RuleCall ) cFiltersAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRPARENTerminalRuleCall_4 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cEQUALSTerminalRuleCall_5 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cStatementAssignment_6 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cStatementSqlParserRuleCall_6_0 = ( RuleCall ) cStatementAssignment_6 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_7 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:7> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getNameAssignment_0 ( ) { return cNameAssignment_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0 ; } public RuleCall getLPARENTerminalRuleCall_1 ( ) { return cLPARENTerminalRuleCall_1 ; } public Assignment getTypeAssignment_2 ( ) { return cTypeAssignment_2 ; } public RuleCall getTypeSTATEMEN_TYPETerminalRuleCall_2_0 ( ) { return cTypeSTATEMEN_TYPETerminalRuleCall_2_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCOMMATerminalRuleCall_3_0 ( ) { return cCOMMATerminalRuleCall_3_0 ; } public Assignment getFiltersAssignment_3_1 ( ) { return cFiltersAssignment_3_1 ; } public RuleCall getFiltersIDENTTerminalRuleCall_3_1_0 ( ) { return cFiltersIDENTTerminalRuleCall_3_1_0 ; } public RuleCall getRPARENTerminalRuleCall_4 ( ) { return cRPARENTerminalRuleCall_4 ; } public RuleCall getEQUALSTerminalRuleCall_5 ( ) { return cEQUALSTerminalRuleCall_5 ; } public Assignment getStatementAssignment_6 ( ) { return cStatementAssignment_6 ; } public RuleCall getStatementSqlParserRuleCall_6_0 ( ) { return cStatementSqlParserRuleCall_6_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_7 ( ) { return cSEMICOLONTerminalRuleCall_7 ; } } public class SqlElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Assignment cSqlsAssignment = ( Assignment ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSqlsSqlFragmentParserRuleCall_0 = ( RuleCall ) cSqlsAssignment . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Assignment getSqlsAssignment ( ) { return cSqlsAssignment ; } public RuleCall getSqlsSqlFragmentParserRuleCall_0 ( ) { return cSqlsSqlFragmentParserRuleCall_0 ; } } public class SqlFragmentElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cValueAssignment_0 = ( Assignment ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValueSqlValueParserRuleCall_0_0 = ( RuleCall ) cValueAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cATTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cColAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cColColumnParserRuleCall_1_1_0 = ( RuleCall ) cColAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cSTRINGTerminalRuleCall_2_0 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cCnstAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCnstConstantParserRuleCall_2_1_0 = ( RuleCall ) cCnstAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOLONTerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIdentAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIdentIdentifierParserRuleCall_3_1_0 = ( RuleCall ) cIdentAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_4 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cLBRACETerminalRuleCall_4_0 = ( RuleCall ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cMetaAssignment_4_1 = ( Assignment ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cMetaMetaSqlParserRuleCall_4_1_0 = ( RuleCall ) cMetaAssignment_4_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRBRACETerminalRuleCall_4_2 = ( RuleCall ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Group cGroup_5 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cPERCENTTerminalRuleCall_5_0 = ( RuleCall ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cAlternatives_5_1 = ( Alternatives ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_5_1_0 = ( Group ) cAlternatives_5_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPERCENTTerminalRuleCall_5_1_0_0 = ( RuleCall ) cGroup_5_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cDbtabAssignment_5_1_0_1 = ( Assignment ) cGroup_5_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cDbtabDatabaseTableParserRuleCall_5_1_0_1_0 = ( RuleCall ) cDbtabAssignment_5_1_0_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cDbcolAssignment_5_1_1 = ( Assignment ) cAlternatives_5_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cDbcolDatabaseColumnParserRuleCall_5_1_1_0 = ( RuleCall ) cDbcolAssignment_5_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Assignment getValueAssignment_0 ( ) { return cValueAssignment_0 ; } public RuleCall getValueSqlValueParserRuleCall_0_0 ( ) { return cValueSqlValueParserRuleCall_0_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getATTerminalRuleCall_1_0 ( ) { return cATTerminalRuleCall_1_0 ; } public Assignment getColAssignment_1_1 ( ) { return cColAssignment_1_1 ; } public RuleCall getColColumnParserRuleCall_1_1_0 ( ) { return cColColumnParserRuleCall_1_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public RuleCall getSTRINGTerminalRuleCall_2_0 ( ) { return cSTRINGTerminalRuleCall_2_0 ; } public Assignment getCnstAssignment_2_1 ( ) { return cCnstAssignment_2_1 ; } public RuleCall getCnstConstantParserRuleCall_2_1_0 ( ) { return cCnstConstantParserRuleCall_2_1_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCOLONTerminalRuleCall_3_0 ( ) { return cCOLONTerminalRuleCall_3_0 ; } public Assignment getIdentAssignment_3_1 ( ) { return cIdentAssignment_3_1 ; } public RuleCall getIdentIdentifierParserRuleCall_3_1_0 ( ) { return cIdentIdentifierParserRuleCall_3_1_0 ; } public Group getGroup_4 ( ) { return cGroup_4 ; } public RuleCall getLBRACETerminalRuleCall_4_0 ( ) { return cLBRACETerminalRuleCall_4_0 ; } public Assignment getMetaAssignment_4_1 ( ) { return cMetaAssignment_4_1 ; } public RuleCall getMetaMetaSqlParserRuleCall_4_1_0 ( ) { return cMetaMetaSqlParserRuleCall_4_1_0 ; } public RuleCall getRBRACETerminalRuleCall_4_2 ( ) { return cRBRACETerminalRuleCall_4_2 ; } public Group getGroup_5 ( ) { return cGroup_5 ; } public RuleCall getPERCENTTerminalRuleCall_5_0 ( ) { return cPERCENTTerminalRuleCall_5_0 ; } public Alternatives getAlternatives_5_1 ( ) { return cAlternatives_5_1 ; } public Group getGroup_5_1_0 ( ) { return cGroup_5_1_0 ; } public RuleCall getPERCENTTerminalRuleCall_5_1_0_0 ( ) { return cPERCENTTerminalRuleCall_5_1_0_0 ; } public Assignment getDbtabAssignment_5_1_0_1 ( ) { return cDbtabAssignment_5_1_0_1 ; } public RuleCall getDbtabDatabaseTableParserRuleCall_5_1_0_1_0 ( ) { return cDbtabDatabaseTableParserRuleCall_5_1_0_1_0 ; } public Assignment getDbcolAssignment_5_1_1 ( ) { return cDbcolAssignment_5_1_1 ; } public RuleCall getDbcolDatabaseColumnParserRuleCall_5_1_1_0 ( ) { return cDbcolDatabaseColumnParserRuleCall_5_1_1_0 ; } } public class SqlValueElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_0 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_0_0 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_0_2 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_0_3 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_0_4 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cCOMMATerminalRuleCall_0_5 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cMINUSTerminalRuleCall_0_6 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cPLUSTerminalRuleCall_0_7 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cLPARENTerminalRuleCall_0_8 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cRPARENTerminalRuleCall_0_9 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRBRACETerminalRuleCall_0_10 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cQUESTITerminalRuleCall_0_11 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cNOTTerminalRuleCall_0_12 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cBANDTerminalRuleCall_0_13 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBORTerminalRuleCall_0_14 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_0_15 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cCARETTerminalRuleCall_0_16 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cEQUALSTerminalRuleCall_0_17 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_0_18 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_0_19 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_0_20 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cORTerminalRuleCall_0_21 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_0_22 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_0_23 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_0_24 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_0_25 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_0_26 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_1_0 = ( Alternatives ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_1_0_0 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_1_0_1 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_1_0_2 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_1_0_3 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_1_0_4 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cCOMMATerminalRuleCall_1_0_5 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cMINUSTerminalRuleCall_1_0_6 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cPLUSTerminalRuleCall_1_0_7 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cLPARENTerminalRuleCall_1_0_8 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cRPARENTerminalRuleCall_1_0_9 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRBRACETerminalRuleCall_1_0_10 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cQUESTITerminalRuleCall_1_0_11 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cNOTTerminalRuleCall_1_0_12 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cBANDTerminalRuleCall_1_0_13 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBORTerminalRuleCall_1_0_14 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_1_0_15 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cCARETTerminalRuleCall_1_0_16 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cEQUALSTerminalRuleCall_1_0_17 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_1_0_18 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_1_0_19 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_1_0_20 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cORTerminalRuleCall_1_0_21 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_1_0_22 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_1_0_23 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_1_0_24 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_1_0_25 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_1_0_26 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Alternatives getAlternatives_0 ( ) { return cAlternatives_0 ; } public RuleCall getRESTTerminalRuleCall_0_0 ( ) { return cRESTTerminalRuleCall_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_0_1 ; } public RuleCall getIDENTTerminalRuleCall_0_2 ( ) { return cIDENTTerminalRuleCall_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_0_3 ( ) { return cNUMBERTerminalRuleCall_0_3 ; } public RuleCall getWSTerminalRuleCall_0_4 ( ) { return cWSTerminalRuleCall_0_4 ; } public RuleCall getCOMMATerminalRuleCall_0_5 ( ) { return cCOMMATerminalRuleCall_0_5 ; } public RuleCall getMINUSTerminalRuleCall_0_6 ( ) { return cMINUSTerminalRuleCall_0_6 ; } public RuleCall getPLUSTerminalRuleCall_0_7 ( ) { return cPLUSTerminalRuleCall_0_7 ; } public RuleCall getLPARENTerminalRuleCall_0_8 ( ) { return cLPARENTerminalRuleCall_0_8 ; } public RuleCall getRPARENTerminalRuleCall_0_9 ( ) { return cRPARENTerminalRuleCall_0_9 ; } public RuleCall getRBRACETerminalRuleCall_0_10 ( ) { return cRBRACETerminalRuleCall_0_10 ; } public RuleCall getQUESTITerminalRuleCall_0_11 ( ) { return cQUESTITerminalRuleCall_0_11 ; } public RuleCall getNOTTerminalRuleCall_0_12 ( ) { return cNOTTerminalRuleCall_0_12 ; } public RuleCall getBANDTerminalRuleCall_0_13 ( ) { return cBANDTerminalRuleCall_0_13 ; } public RuleCall getBORTerminalRuleCall_0_14 ( ) { return cBORTerminalRuleCall_0_14 ; } public RuleCall getHASHTerminalRuleCall_0_15 ( ) { return cHASHTerminalRuleCall_0_15 ; } public RuleCall getCARETTerminalRuleCall_0_16 ( ) { return cCARETTerminalRuleCall_0_16 ; } public RuleCall getEQUALSTerminalRuleCall_0_17 ( ) { return cEQUALSTerminalRuleCall_0_17 ; } public RuleCall getLESS_THANTerminalRuleCall_0_18 ( ) { return cLESS_THANTerminalRuleCall_0_18 ; } public RuleCall getMORE_THANTerminalRuleCall_0_19 ( ) { return cMORE_THANTerminalRuleCall_0_19 ; } public RuleCall getANDTerminalRuleCall_0_20 ( ) { return cANDTerminalRuleCall_0_20 ; } public RuleCall getORTerminalRuleCall_0_21 ( ) { return cORTerminalRuleCall_0_21 ; } public RuleCall getESC_CHARTerminalRuleCall_0_22 ( ) { return cESC_CHARTerminalRuleCall_0_22 ; } public RuleCall getON_OFFTerminalRuleCall_0_23 ( ) { return cON_OFFTerminalRuleCall_0_23 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_0_24 ( ) { return cSTATEMEN_TYPETerminalRuleCall_0_24 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_0_25 ( ) { return cMAPPING_TYPETerminalRuleCall_0_25 ; } public RuleCall getOPTION_TYPETerminalRuleCall_0_26 ( ) { return cOPTION_TYPETerminalRuleCall_0_26 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Alternatives getAlternatives_1_0 ( ) { return cAlternatives_1_0 ; } public RuleCall getRESTTerminalRuleCall_1_0_0 ( ) { return cRESTTerminalRuleCall_1_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_1_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_1_0_1 ; } public RuleCall getIDENTTerminalRuleCall_1_0_2 ( ) { return cIDENTTerminalRuleCall_1_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_1_0_3 ( ) { return cNUMBERTerminalRuleCall_1_0_3 ; } public RuleCall getWSTerminalRuleCall_1_0_4 ( ) { return cWSTerminalRuleCall_1_0_4 ; } public RuleCall getCOMMATerminalRuleCall_1_0_5 ( ) { return cCOMMATerminalRuleCall_1_0_5 ; } public RuleCall getMINUSTerminalRuleCall_1_0_6 ( ) { return cMINUSTerminalRuleCall_1_0_6 ; } public RuleCall getPLUSTerminalRuleCall_1_0_7 ( ) { return cPLUSTerminalRuleCall_1_0_7 ; } public RuleCall getLPARENTerminalRuleCall_1_0_8 ( ) { return cLPARENTerminalRuleCall_1_0_8 ; } public RuleCall getRPARENTerminalRuleCall_1_0_9 ( ) { return cRPARENTerminalRuleCall_1_0_9 ; } public RuleCall getRBRACETerminalRuleCall_1_0_10 ( ) { return cRBRACETerminalRuleCall_1_0_10 ; } public RuleCall getQUESTITerminalRuleCall_1_0_11 ( ) { return cQUESTITerminalRuleCall_1_0_11 ; } public RuleCall getNOTTerminalRuleCall_1_0_12 ( ) { return cNOTTerminalRuleCall_1_0_12 ; } public RuleCall getBANDTerminalRuleCall_1_0_13 ( ) { return cBANDTerminalRuleCall_1_0_13 ; } public RuleCall getBORTerminalRuleCall_1_0_14 ( ) { return cBORTerminalRuleCall_1_0_14 ; } public RuleCall getHASHTerminalRuleCall_1_0_15 ( ) { return cHASHTerminalRuleCall_1_0_15 ; } public RuleCall getCARETTerminalRuleCall_1_0_16 ( ) { return cCARETTerminalRuleCall_1_0_16 ; } public RuleCall getEQUALSTerminalRuleCall_1_0_17 ( ) { return cEQUALSTerminalRuleCall_1_0_17 ; } public RuleCall getLESS_THANTerminalRuleCall_1_0_18 ( ) { return cLESS_THANTerminalRuleCall_1_0_18 ; } public RuleCall getMORE_THANTerminalRuleCall_1_0_19 ( ) { return cMORE_THANTerminalRuleCall_1_0_19 ; } public RuleCall getANDTerminalRuleCall_1_0_20 ( ) { return cANDTerminalRuleCall_1_0_20 ; } public RuleCall getORTerminalRuleCall_1_0_21 ( ) { return cORTerminalRuleCall_1_0_21 ; } public RuleCall getESC_CHARTerminalRuleCall_1_0_22 ( ) { return cESC_CHARTerminalRuleCall_1_0_22 ; } public RuleCall getON_OFFTerminalRuleCall_1_0_23 ( ) { return cON_OFFTerminalRuleCall_1_0_23 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_1_0_24 ( ) { return cSTATEMEN_TYPETerminalRuleCall_1_0_24 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_1_0_25 ( ) { return cMAPPING_TYPETerminalRuleCall_1_0_25 ; } public RuleCall getOPTION_TYPETerminalRuleCall_1_0_26 ( ) { return cOPTION_TYPETerminalRuleCall_1_0_26 ; } } public class MetaSqlElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_0 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_0 = ( RuleCall ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_0_1 = ( Assignment ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_0_1_0 = ( RuleCall ) cIfsAssignment_0_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_2 = ( Group ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_0_2_0 = ( RuleCall ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_0_2_1 = ( Assignment ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_0_2_1_0 = ( RuleCall ) cIfsAssignment_0_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTypeAssignment_1_0 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeQUESTITerminalRuleCall_1_0_0 = ( RuleCall ) cTypeAssignment_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cCondAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCondIfSqlCondParserRuleCall_1_1_0 = ( RuleCall ) cCondAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cBORTerminalRuleCall_1_2 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cIfsAssignment_1_3 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cIfsIfSqlParserRuleCall_1_3_0 = ( RuleCall ) cIfsAssignment_1_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1_4 = ( Group ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cBORTerminalRuleCall_1_4_0 = ( RuleCall ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_1_4_1 = ( Assignment ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_1_4_1_0 = ( RuleCall ) cIfsAssignment_1_4_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cTypeAssignment_2_0 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeBANDTerminalRuleCall_2_0_0 = ( RuleCall ) cTypeAssignment_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_2_1_0 = ( RuleCall ) cIfsAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2_2 = ( Group ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_2_2_0 = ( RuleCall ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_2_2_1 = ( Assignment ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_2_2_1_0 = ( RuleCall ) cIfsAssignment_2_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Assignment cTypeAssignment_3_0 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeBORTerminalRuleCall_3_0_0 = ( RuleCall ) cTypeAssignment_3_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_3_1_0 = ( RuleCall ) cIfsAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3_2 = ( Group ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_3_2_0 = ( RuleCall ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_3_2_1 = ( Assignment ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_3_2_1_0 = ( RuleCall ) cIfsAssignment_3_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_4 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:4> ) ; private final Assignment cTypeAssignment_4_0 = ( Assignment ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeEQUALSTerminalRuleCall_4_0_0 = ( RuleCall ) cTypeAssignment_4_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_4_1 = ( RuleCall ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cFtypeAssignment_4_2 = ( Assignment ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cFtypeIDENTTerminalRuleCall_4_2_0 = ( RuleCall ) cFtypeAssignment_4_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_4_3 = ( Assignment ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cIfsIfSqlParserRuleCall_4_3_0 = ( RuleCall ) cIfsAssignment_4_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_5 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cTypeAssignment_5_0 = ( Assignment ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeHASHTerminalRuleCall_5_0_0 = ( RuleCall ) cTypeAssignment_5_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNUMBERTerminalRuleCall_5_1 = ( RuleCall ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cOrdAssignment_5_2 = ( Assignment ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cOrdOrdSqlParserRuleCall_5_2_0 = ( RuleCall ) cOrdAssignment_5_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Group getGroup_0 ( ) { return cGroup_0 ; } public RuleCall getWSTerminalRuleCall_0_0 ( ) { return cWSTerminalRuleCall_0_0 ; } public Assignment getIfsAssignment_0_1 ( ) { return cIfsAssignment_0_1 ; } public RuleCall getIfsIfSqlParserRuleCall_0_1_0 ( ) { return cIfsIfSqlParserRuleCall_0_1_0 ; } public Group getGroup_0_2 ( ) { return cGroup_0_2 ; } public RuleCall getBORTerminalRuleCall_0_2_0 ( ) { return cBORTerminalRuleCall_0_2_0 ; } public Assignment getIfsAssignment_0_2_1 ( ) { return cIfsAssignment_0_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_0_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_0_2_1_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Assignment getTypeAssignment_1_0 ( ) { return cTypeAssignment_1_0 ; } public RuleCall getTypeQUESTITerminalRuleCall_1_0_0 ( ) { return cTypeQUESTITerminalRuleCall_1_0_0 ; } public Assignment getCondAssignment_1_1 ( ) { return cCondAssignment_1_1 ; } public RuleCall getCondIfSqlCondParserRuleCall_1_1_0 ( ) { return cCondIfSqlCondParserRuleCall_1_1_0 ; } public RuleCall getBORTerminalRuleCall_1_2 ( ) { return cBORTerminalRuleCall_1_2 ; } public Assignment getIfsAssignment_1_3 ( ) { return cIfsAssignment_1_3 ; } public RuleCall getIfsIfSqlParserRuleCall_1_3_0 ( ) { return cIfsIfSqlParserRuleCall_1_3_0 ; } public Group getGroup_1_4 ( ) { return cGroup_1_4 ; } public RuleCall getBORTerminalRuleCall_1_4_0 ( ) { return cBORTerminalRuleCall_1_4_0 ; } public Assignment getIfsAssignment_1_4_1 ( ) { return cIfsAssignment_1_4_1 ; } public RuleCall getIfsIfSqlParserRuleCall_1_4_1_0 ( ) { return cIfsIfSqlParserRuleCall_1_4_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public Assignment getTypeAssignment_2_0 ( ) { return cTypeAssignment_2_0 ; } public RuleCall getTypeBANDTerminalRuleCall_2_0_0 ( ) { return cTypeBANDTerminalRuleCall_2_0_0 ; } public Assignment getIfsAssignment_2_1 ( ) { return cIfsAssignment_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_2_1_0 ; } public Group getGroup_2_2 ( ) { return cGroup_2_2 ; } public RuleCall getBORTerminalRuleCall_2_2_0 ( ) { return cBORTerminalRuleCall_2_2_0 ; } public Assignment getIfsAssignment_2_2_1 ( ) { return cIfsAssignment_2_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_2_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_2_2_1_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public Assignment getTypeAssignment_3_0 ( ) { return cTypeAssignment_3_0 ; } public RuleCall getTypeBORTerminalRuleCall_3_0_0 ( ) { return cTypeBORTerminalRuleCall_3_0_0 ; } public Assignment getIfsAssignment_3_1 ( ) { return cIfsAssignment_3_1 ; } public RuleCall getIfsIfSqlParserRuleCall_3_1_0 ( ) { return cIfsIfSqlParserRuleCall_3_1_0 ; } public Group getGroup_3_2 ( ) { return cGroup_3_2 ; } public RuleCall getBORTerminalRuleCall_3_2_0 ( ) { return cBORTerminalRuleCall_3_2_0 ; } public Assignment getIfsAssignment_3_2_1 ( ) { return cIfsAssignment_3_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_3_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_3_2_1_0 ; } public Group getGroup_4 ( ) { return cGroup_4 ; } public Assignment getTypeAssignment_4_0 ( ) { return cTypeAssignment_4_0 ; } public RuleCall getTypeEQUALSTerminalRuleCall_4_0_0 ( ) { return cTypeEQUALSTerminalRuleCall_4_0_0 ; } public RuleCall getWSTerminalRuleCall_4_1 ( ) { return cWSTerminalRuleCall_4_1 ; } public Assignment getFtypeAssignment_4_2 ( ) { return cFtypeAssignment_4_2 ; } public RuleCall getFtypeIDENTTerminalRuleCall_4_2_0 ( ) { return cFtypeIDENTTerminalRuleCall_4_2_0 ; } public Assignment getIfsAssignment_4_3 ( ) { return cIfsAssignment_4_3 ; } public RuleCall getIfsIfSqlParserRuleCall_4_3_0 ( ) { return cIfsIfSqlParserRuleCall_4_3_0 ; } public Group getGroup_5 ( ) { return cGroup_5 ; } public Assignment getTypeAssignment_5_0 ( ) { return cTypeAssignment_5_0 ; } public RuleCall getTypeHASHTerminalRuleCall_5_0_0 ( ) { return cTypeHASHTerminalRuleCall_5_0_0 ; } public RuleCall getNUMBERTerminalRuleCall_5_1 ( ) { return cNUMBERTerminalRuleCall_5_1 ; } public Assignment getOrdAssignment_5_2 ( ) { return cOrdAssignment_5_2 ; } public RuleCall getOrdOrdSqlParserRuleCall_5_2_0 ( ) { return cOrdOrdSqlParserRuleCall_5_2_0 ; } } public class IfSqlElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Assignment cSqlsAssignment = ( Assignment ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSqlsIfSqlFragmentParserRuleCall_0 = ( RuleCall ) cSqlsAssignment . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Assignment getSqlsAssignment ( ) { return cSqlsAssignment ; } public RuleCall getSqlsIfSqlFragmentParserRuleCall_0 ( ) { return cSqlsIfSqlFragmentParserRuleCall_0 ; } } public class IfSqlFragmentElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cValueAssignment_0 = ( Assignment ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValueIfSqlValueParserRuleCall_0_0 = ( RuleCall ) cValueAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cATTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cColAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cColColumnParserRuleCall_1_1_0 = ( RuleCall ) cColAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cSTRINGTerminalRuleCall_2_0 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cCnstAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCnstConstantParserRuleCall_2_1_0 = ( RuleCall ) cCnstAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOLONTerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIdentAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIdentIdentifierParserRuleCall_3_1_0 = ( RuleCall ) cIdentAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_4 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cPERCENTTerminalRuleCall_4_0 = ( RuleCall ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cAlternatives_4_1 = ( Alternatives ) cGroup_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_4_1_0 = ( Group ) cAlternatives_4_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cPERCENTTerminalRuleCall_4_1_0_0 = ( RuleCall ) cGroup_4_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cDbtabAssignment_4_1_0_1 = ( Assignment ) cGroup_4_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cDbtabDatabaseTableParserRuleCall_4_1_0_1_0 = ( RuleCall ) cDbtabAssignment_4_1_0_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cDbcolAssignment_4_1_1 = ( Assignment ) cAlternatives_4_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cDbcolDatabaseColumnParserRuleCall_4_1_1_0 = ( RuleCall ) cDbcolAssignment_4_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_5 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cLBRACETerminalRuleCall_5_0 = ( RuleCall ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cMetaAssignment_5_1 = ( Assignment ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cMetaIfMetaSqlParserRuleCall_5_1_0 = ( RuleCall ) cMetaAssignment_5_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRBRACETerminalRuleCall_5_2 = ( RuleCall ) cGroup_5 . eContents ( ) . get ( <NUM_LIT:2> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Assignment getValueAssignment_0 ( ) { return cValueAssignment_0 ; } public RuleCall getValueIfSqlValueParserRuleCall_0_0 ( ) { return cValueIfSqlValueParserRuleCall_0_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getATTerminalRuleCall_1_0 ( ) { return cATTerminalRuleCall_1_0 ; } public Assignment getColAssignment_1_1 ( ) { return cColAssignment_1_1 ; } public RuleCall getColColumnParserRuleCall_1_1_0 ( ) { return cColColumnParserRuleCall_1_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public RuleCall getSTRINGTerminalRuleCall_2_0 ( ) { return cSTRINGTerminalRuleCall_2_0 ; } public Assignment getCnstAssignment_2_1 ( ) { return cCnstAssignment_2_1 ; } public RuleCall getCnstConstantParserRuleCall_2_1_0 ( ) { return cCnstConstantParserRuleCall_2_1_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCOLONTerminalRuleCall_3_0 ( ) { return cCOLONTerminalRuleCall_3_0 ; } public Assignment getIdentAssignment_3_1 ( ) { return cIdentAssignment_3_1 ; } public RuleCall getIdentIdentifierParserRuleCall_3_1_0 ( ) { return cIdentIdentifierParserRuleCall_3_1_0 ; } public Group getGroup_4 ( ) { return cGroup_4 ; } public RuleCall getPERCENTTerminalRuleCall_4_0 ( ) { return cPERCENTTerminalRuleCall_4_0 ; } public Alternatives getAlternatives_4_1 ( ) { return cAlternatives_4_1 ; } public Group getGroup_4_1_0 ( ) { return cGroup_4_1_0 ; } public RuleCall getPERCENTTerminalRuleCall_4_1_0_0 ( ) { return cPERCENTTerminalRuleCall_4_1_0_0 ; } public Assignment getDbtabAssignment_4_1_0_1 ( ) { return cDbtabAssignment_4_1_0_1 ; } public RuleCall getDbtabDatabaseTableParserRuleCall_4_1_0_1_0 ( ) { return cDbtabDatabaseTableParserRuleCall_4_1_0_1_0 ; } public Assignment getDbcolAssignment_4_1_1 ( ) { return cDbcolAssignment_4_1_1 ; } public RuleCall getDbcolDatabaseColumnParserRuleCall_4_1_1_0 ( ) { return cDbcolDatabaseColumnParserRuleCall_4_1_1_0 ; } public Group getGroup_5 ( ) { return cGroup_5 ; } public RuleCall getLBRACETerminalRuleCall_5_0 ( ) { return cLBRACETerminalRuleCall_5_0 ; } public Assignment getMetaAssignment_5_1 ( ) { return cMetaAssignment_5_1 ; } public RuleCall getMetaIfMetaSqlParserRuleCall_5_1_0 ( ) { return cMetaIfMetaSqlParserRuleCall_5_1_0 ; } public RuleCall getRBRACETerminalRuleCall_5_2 ( ) { return cRBRACETerminalRuleCall_5_2 ; } } public class IfSqlValueElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_0 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_0_0 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_0_2 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_0_3 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_0_4 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_0_5 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cCOMMATerminalRuleCall_0_6 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMINUSTerminalRuleCall_0_7 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cPLUSTerminalRuleCall_0_8 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cLPARENTerminalRuleCall_0_9 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRPARENTerminalRuleCall_0_10 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cQUESTITerminalRuleCall_0_11 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cNOTTerminalRuleCall_0_12 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cBANDTerminalRuleCall_0_13 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_0_14 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_0_15 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cEQUALSTerminalRuleCall_0_16 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cLESS_THANTerminalRuleCall_0_17 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_0_18 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_0_19 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_0_20 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cESC_CHARTerminalRuleCall_0_21 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_0_22 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_0_23 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_0_24 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_0_25 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_1_0 = ( Alternatives ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_1_0_0 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_1_0_1 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_1_0_2 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_1_0_3 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_1_0_4 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_1_0_5 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cCOMMATerminalRuleCall_1_0_6 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMINUSTerminalRuleCall_1_0_7 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cPLUSTerminalRuleCall_1_0_8 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cLPARENTerminalRuleCall_1_0_9 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRPARENTerminalRuleCall_1_0_10 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cQUESTITerminalRuleCall_1_0_11 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cNOTTerminalRuleCall_1_0_12 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cBANDTerminalRuleCall_1_0_13 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_1_0_14 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_1_0_15 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cEQUALSTerminalRuleCall_1_0_16 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cLESS_THANTerminalRuleCall_1_0_17 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_1_0_18 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_1_0_19 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_1_0_20 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cESC_CHARTerminalRuleCall_1_0_21 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_1_0_22 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_1_0_23 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_1_0_24 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_1_0_25 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Alternatives getAlternatives_0 ( ) { return cAlternatives_0 ; } public RuleCall getRESTTerminalRuleCall_0_0 ( ) { return cRESTTerminalRuleCall_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_0_1 ; } public RuleCall getIDENTTerminalRuleCall_0_2 ( ) { return cIDENTTerminalRuleCall_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_0_3 ( ) { return cNUMBERTerminalRuleCall_0_3 ; } public RuleCall getWSTerminalRuleCall_0_4 ( ) { return cWSTerminalRuleCall_0_4 ; } public RuleCall getSEMICOLONTerminalRuleCall_0_5 ( ) { return cSEMICOLONTerminalRuleCall_0_5 ; } public RuleCall getCOMMATerminalRuleCall_0_6 ( ) { return cCOMMATerminalRuleCall_0_6 ; } public RuleCall getMINUSTerminalRuleCall_0_7 ( ) { return cMINUSTerminalRuleCall_0_7 ; } public RuleCall getPLUSTerminalRuleCall_0_8 ( ) { return cPLUSTerminalRuleCall_0_8 ; } public RuleCall getLPARENTerminalRuleCall_0_9 ( ) { return cLPARENTerminalRuleCall_0_9 ; } public RuleCall getRPARENTerminalRuleCall_0_10 ( ) { return cRPARENTerminalRuleCall_0_10 ; } public RuleCall getQUESTITerminalRuleCall_0_11 ( ) { return cQUESTITerminalRuleCall_0_11 ; } public RuleCall getNOTTerminalRuleCall_0_12 ( ) { return cNOTTerminalRuleCall_0_12 ; } public RuleCall getBANDTerminalRuleCall_0_13 ( ) { return cBANDTerminalRuleCall_0_13 ; } public RuleCall getHASHTerminalRuleCall_0_14 ( ) { return cHASHTerminalRuleCall_0_14 ; } public RuleCall getCARETTerminalRuleCall_0_15 ( ) { return cCARETTerminalRuleCall_0_15 ; } public RuleCall getEQUALSTerminalRuleCall_0_16 ( ) { return cEQUALSTerminalRuleCall_0_16 ; } public RuleCall getLESS_THANTerminalRuleCall_0_17 ( ) { return cLESS_THANTerminalRuleCall_0_17 ; } public RuleCall getMORE_THANTerminalRuleCall_0_18 ( ) { return cMORE_THANTerminalRuleCall_0_18 ; } public RuleCall getANDTerminalRuleCall_0_19 ( ) { return cANDTerminalRuleCall_0_19 ; } public RuleCall getORTerminalRuleCall_0_20 ( ) { return cORTerminalRuleCall_0_20 ; } public RuleCall getESC_CHARTerminalRuleCall_0_21 ( ) { return cESC_CHARTerminalRuleCall_0_21 ; } public RuleCall getON_OFFTerminalRuleCall_0_22 ( ) { return cON_OFFTerminalRuleCall_0_22 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_0_23 ( ) { return cSTATEMEN_TYPETerminalRuleCall_0_23 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_0_24 ( ) { return cMAPPING_TYPETerminalRuleCall_0_24 ; } public RuleCall getOPTION_TYPETerminalRuleCall_0_25 ( ) { return cOPTION_TYPETerminalRuleCall_0_25 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Alternatives getAlternatives_1_0 ( ) { return cAlternatives_1_0 ; } public RuleCall getRESTTerminalRuleCall_1_0_0 ( ) { return cRESTTerminalRuleCall_1_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_1_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_1_0_1 ; } public RuleCall getIDENTTerminalRuleCall_1_0_2 ( ) { return cIDENTTerminalRuleCall_1_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_1_0_3 ( ) { return cNUMBERTerminalRuleCall_1_0_3 ; } public RuleCall getWSTerminalRuleCall_1_0_4 ( ) { return cWSTerminalRuleCall_1_0_4 ; } public RuleCall getSEMICOLONTerminalRuleCall_1_0_5 ( ) { return cSEMICOLONTerminalRuleCall_1_0_5 ; } public RuleCall getCOMMATerminalRuleCall_1_0_6 ( ) { return cCOMMATerminalRuleCall_1_0_6 ; } public RuleCall getMINUSTerminalRuleCall_1_0_7 ( ) { return cMINUSTerminalRuleCall_1_0_7 ; } public RuleCall getPLUSTerminalRuleCall_1_0_8 ( ) { return cPLUSTerminalRuleCall_1_0_8 ; } public RuleCall getLPARENTerminalRuleCall_1_0_9 ( ) { return cLPARENTerminalRuleCall_1_0_9 ; } public RuleCall getRPARENTerminalRuleCall_1_0_10 ( ) { return cRPARENTerminalRuleCall_1_0_10 ; } public RuleCall getQUESTITerminalRuleCall_1_0_11 ( ) { return cQUESTITerminalRuleCall_1_0_11 ; } public RuleCall getNOTTerminalRuleCall_1_0_12 ( ) { return cNOTTerminalRuleCall_1_0_12 ; } public RuleCall getBANDTerminalRuleCall_1_0_13 ( ) { return cBANDTerminalRuleCall_1_0_13 ; } public RuleCall getHASHTerminalRuleCall_1_0_14 ( ) { return cHASHTerminalRuleCall_1_0_14 ; } public RuleCall getCARETTerminalRuleCall_1_0_15 ( ) { return cCARETTerminalRuleCall_1_0_15 ; } public RuleCall getEQUALSTerminalRuleCall_1_0_16 ( ) { return cEQUALSTerminalRuleCall_1_0_16 ; } public RuleCall getLESS_THANTerminalRuleCall_1_0_17 ( ) { return cLESS_THANTerminalRuleCall_1_0_17 ; } public RuleCall getMORE_THANTerminalRuleCall_1_0_18 ( ) { return cMORE_THANTerminalRuleCall_1_0_18 ; } public RuleCall getANDTerminalRuleCall_1_0_19 ( ) { return cANDTerminalRuleCall_1_0_19 ; } public RuleCall getORTerminalRuleCall_1_0_20 ( ) { return cORTerminalRuleCall_1_0_20 ; } public RuleCall getESC_CHARTerminalRuleCall_1_0_21 ( ) { return cESC_CHARTerminalRuleCall_1_0_21 ; } public RuleCall getON_OFFTerminalRuleCall_1_0_22 ( ) { return cON_OFFTerminalRuleCall_1_0_22 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_1_0_23 ( ) { return cSTATEMEN_TYPETerminalRuleCall_1_0_23 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_1_0_24 ( ) { return cMAPPING_TYPETerminalRuleCall_1_0_24 ; } public RuleCall getOPTION_TYPETerminalRuleCall_1_0_25 ( ) { return cOPTION_TYPETerminalRuleCall_1_0_25 ; } } public class IfMetaSqlElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_0 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_0_0 = ( RuleCall ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_0_1 = ( Assignment ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_0_1_0 = ( RuleCall ) cIfsAssignment_0_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_0_2 = ( Group ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_0_2_0 = ( RuleCall ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_0_2_1 = ( Assignment ) cGroup_0_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_0_2_1_0 = ( RuleCall ) cIfsAssignment_0_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTypeAssignment_1_0 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeQUESTITerminalRuleCall_1_0_0 = ( RuleCall ) cTypeAssignment_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cCondAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCondIfSqlCondParserRuleCall_1_1_0 = ( RuleCall ) cCondAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cBORTerminalRuleCall_1_2 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cIfsAssignment_1_3 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cIfsIfSqlParserRuleCall_1_3_0 = ( RuleCall ) cIfsAssignment_1_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1_4 = ( Group ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cBORTerminalRuleCall_1_4_0 = ( RuleCall ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_1_4_1 = ( Assignment ) cGroup_1_4 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_1_4_1_0 = ( RuleCall ) cIfsAssignment_1_4_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cTypeAssignment_2_0 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeBANDTerminalRuleCall_2_0_0 = ( RuleCall ) cTypeAssignment_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_2_1_0 = ( RuleCall ) cIfsAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2_2 = ( Group ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_2_2_0 = ( RuleCall ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_2_2_1 = ( Assignment ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_2_2_1_0 = ( RuleCall ) cIfsAssignment_2_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Assignment cTypeAssignment_3_0 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cTypeBORTerminalRuleCall_3_0_0 = ( RuleCall ) cTypeAssignment_3_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_3_1_0 = ( RuleCall ) cIfsAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3_2 = ( Group ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBORTerminalRuleCall_3_2_0 = ( RuleCall ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIfsAssignment_3_2_1 = ( Assignment ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIfsIfSqlParserRuleCall_3_2_1_0 = ( RuleCall ) cIfsAssignment_3_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Group getGroup_0 ( ) { return cGroup_0 ; } public RuleCall getWSTerminalRuleCall_0_0 ( ) { return cWSTerminalRuleCall_0_0 ; } public Assignment getIfsAssignment_0_1 ( ) { return cIfsAssignment_0_1 ; } public RuleCall getIfsIfSqlParserRuleCall_0_1_0 ( ) { return cIfsIfSqlParserRuleCall_0_1_0 ; } public Group getGroup_0_2 ( ) { return cGroup_0_2 ; } public RuleCall getBORTerminalRuleCall_0_2_0 ( ) { return cBORTerminalRuleCall_0_2_0 ; } public Assignment getIfsAssignment_0_2_1 ( ) { return cIfsAssignment_0_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_0_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_0_2_1_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Assignment getTypeAssignment_1_0 ( ) { return cTypeAssignment_1_0 ; } public RuleCall getTypeQUESTITerminalRuleCall_1_0_0 ( ) { return cTypeQUESTITerminalRuleCall_1_0_0 ; } public Assignment getCondAssignment_1_1 ( ) { return cCondAssignment_1_1 ; } public RuleCall getCondIfSqlCondParserRuleCall_1_1_0 ( ) { return cCondIfSqlCondParserRuleCall_1_1_0 ; } public RuleCall getBORTerminalRuleCall_1_2 ( ) { return cBORTerminalRuleCall_1_2 ; } public Assignment getIfsAssignment_1_3 ( ) { return cIfsAssignment_1_3 ; } public RuleCall getIfsIfSqlParserRuleCall_1_3_0 ( ) { return cIfsIfSqlParserRuleCall_1_3_0 ; } public Group getGroup_1_4 ( ) { return cGroup_1_4 ; } public RuleCall getBORTerminalRuleCall_1_4_0 ( ) { return cBORTerminalRuleCall_1_4_0 ; } public Assignment getIfsAssignment_1_4_1 ( ) { return cIfsAssignment_1_4_1 ; } public RuleCall getIfsIfSqlParserRuleCall_1_4_1_0 ( ) { return cIfsIfSqlParserRuleCall_1_4_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public Assignment getTypeAssignment_2_0 ( ) { return cTypeAssignment_2_0 ; } public RuleCall getTypeBANDTerminalRuleCall_2_0_0 ( ) { return cTypeBANDTerminalRuleCall_2_0_0 ; } public Assignment getIfsAssignment_2_1 ( ) { return cIfsAssignment_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_2_1_0 ; } public Group getGroup_2_2 ( ) { return cGroup_2_2 ; } public RuleCall getBORTerminalRuleCall_2_2_0 ( ) { return cBORTerminalRuleCall_2_2_0 ; } public Assignment getIfsAssignment_2_2_1 ( ) { return cIfsAssignment_2_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_2_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_2_2_1_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public Assignment getTypeAssignment_3_0 ( ) { return cTypeAssignment_3_0 ; } public RuleCall getTypeBORTerminalRuleCall_3_0_0 ( ) { return cTypeBORTerminalRuleCall_3_0_0 ; } public Assignment getIfsAssignment_3_1 ( ) { return cIfsAssignment_3_1 ; } public RuleCall getIfsIfSqlParserRuleCall_3_1_0 ( ) { return cIfsIfSqlParserRuleCall_3_1_0 ; } public Group getGroup_3_2 ( ) { return cGroup_3_2 ; } public RuleCall getBORTerminalRuleCall_3_2_0 ( ) { return cBORTerminalRuleCall_3_2_0 ; } public Assignment getIfsAssignment_3_2_1 ( ) { return cIfsAssignment_3_2_1 ; } public RuleCall getIfsIfSqlParserRuleCall_3_2_1_0 ( ) { return cIfsIfSqlParserRuleCall_3_2_1_0 ; } } public class IfSqlCondElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cWSTerminalRuleCall_0 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cBool1Assignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cBool1IfSqlBoolParserRuleCall_1_0 = ( RuleCall ) cBool1Assignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_2 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final Assignment cOperAssignment_3_0 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cOperAlternatives_3_0_0 = ( Alternatives ) cOperAssignment_3_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cOperANDTerminalRuleCall_3_0_0_0 = ( RuleCall ) cOperAlternatives_3_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cOperORTerminalRuleCall_3_0_0_1 = ( RuleCall ) cOperAlternatives_3_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cWSTerminalRuleCall_3_1 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cBool2Assignment_3_2 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cBool2IfSqlBoolParserRuleCall_3_2_0 = ( RuleCall ) cBool2Assignment_3_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_3_3 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public RuleCall getWSTerminalRuleCall_0 ( ) { return cWSTerminalRuleCall_0 ; } public Assignment getBool1Assignment_1 ( ) { return cBool1Assignment_1 ; } public RuleCall getBool1IfSqlBoolParserRuleCall_1_0 ( ) { return cBool1IfSqlBoolParserRuleCall_1_0 ; } public RuleCall getWSTerminalRuleCall_2 ( ) { return cWSTerminalRuleCall_2 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public Assignment getOperAssignment_3_0 ( ) { return cOperAssignment_3_0 ; } public Alternatives getOperAlternatives_3_0_0 ( ) { return cOperAlternatives_3_0_0 ; } public RuleCall getOperANDTerminalRuleCall_3_0_0_0 ( ) { return cOperANDTerminalRuleCall_3_0_0_0 ; } public RuleCall getOperORTerminalRuleCall_3_0_0_1 ( ) { return cOperORTerminalRuleCall_3_0_0_1 ; } public RuleCall getWSTerminalRuleCall_3_1 ( ) { return cWSTerminalRuleCall_3_1 ; } public Assignment getBool2Assignment_3_2 ( ) { return cBool2Assignment_3_2 ; } public RuleCall getBool2IfSqlBoolParserRuleCall_3_2_0 ( ) { return cBool2IfSqlBoolParserRuleCall_3_2_0 ; } public RuleCall getWSTerminalRuleCall_3_3 ( ) { return cWSTerminalRuleCall_3_3 ; } } public class IfSqlBoolElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_0 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cNotAssignment_0_0 = ( Assignment ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNotNOTTerminalRuleCall_0_0_0 = ( RuleCall ) cNotAssignment_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSTRINGTerminalRuleCall_0_1 = ( RuleCall ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cCnstAssignment_0_2 = ( Assignment ) cGroup_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCnstConstantParserRuleCall_0_2_0 = ( RuleCall ) cCnstAssignment_0_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNotAssignment_1_0 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNotNOTTerminalRuleCall_1_0_0 = ( RuleCall ) cNotAssignment_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cCOLONTerminalRuleCall_1_1 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cIdentAssignment_1_2 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cIdentIdentifierParserRuleCall_1_2_0 = ( RuleCall ) cIdentAssignment_1_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cNotAssignment_2_0 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNotNOTTerminalRuleCall_2_0_0 = ( RuleCall ) cNotAssignment_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cLPARENTerminalRuleCall_2_1 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cCondAssignment_2_2 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCondIfSqlCondParserRuleCall_2_2_0 = ( RuleCall ) cCondAssignment_2_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRPARENTerminalRuleCall_2_3 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Group getGroup_0 ( ) { return cGroup_0 ; } public Assignment getNotAssignment_0_0 ( ) { return cNotAssignment_0_0 ; } public RuleCall getNotNOTTerminalRuleCall_0_0_0 ( ) { return cNotNOTTerminalRuleCall_0_0_0 ; } public RuleCall getSTRINGTerminalRuleCall_0_1 ( ) { return cSTRINGTerminalRuleCall_0_1 ; } public Assignment getCnstAssignment_0_2 ( ) { return cCnstAssignment_0_2 ; } public RuleCall getCnstConstantParserRuleCall_0_2_0 ( ) { return cCnstConstantParserRuleCall_0_2_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Assignment getNotAssignment_1_0 ( ) { return cNotAssignment_1_0 ; } public RuleCall getNotNOTTerminalRuleCall_1_0_0 ( ) { return cNotNOTTerminalRuleCall_1_0_0 ; } public RuleCall getCOLONTerminalRuleCall_1_1 ( ) { return cCOLONTerminalRuleCall_1_1 ; } public Assignment getIdentAssignment_1_2 ( ) { return cIdentAssignment_1_2 ; } public RuleCall getIdentIdentifierParserRuleCall_1_2_0 ( ) { return cIdentIdentifierParserRuleCall_1_2_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public Assignment getNotAssignment_2_0 ( ) { return cNotAssignment_2_0 ; } public RuleCall getNotNOTTerminalRuleCall_2_0_0 ( ) { return cNotNOTTerminalRuleCall_2_0_0 ; } public RuleCall getLPARENTerminalRuleCall_2_1 ( ) { return cLPARENTerminalRuleCall_2_1 ; } public Assignment getCondAssignment_2_2 ( ) { return cCondAssignment_2_2 ; } public RuleCall getCondIfSqlCondParserRuleCall_2_2_0 ( ) { return cCondIfSqlCondParserRuleCall_2_2_0 ; } public RuleCall getRPARENTerminalRuleCall_2_3 ( ) { return cRPARENTerminalRuleCall_2_3 ; } } public class OrdSqlElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Assignment cSqlsAssignment = ( Assignment ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSqlsOrdSql2ParserRuleCall_0 = ( RuleCall ) cSqlsAssignment . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Assignment getSqlsAssignment ( ) { return cSqlsAssignment ; } public RuleCall getSqlsOrdSql2ParserRuleCall_0 ( ) { return cSqlsOrdSql2ParserRuleCall_0 ; } } public class OrdSql2Elements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cValueAssignment_0 = ( Assignment ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValueOrdSqlValueParserRuleCall_0_0 = ( RuleCall ) cValueAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSTRINGTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cCnstAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCnstConstantParserRuleCall_1_1_0 = ( RuleCall ) cCnstAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCOLONTerminalRuleCall_2_0 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cIdentAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIdentIdentifierParserRuleCall_2_1_0 = ( RuleCall ) cIdentAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cPERCENTTerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cDbcolAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cDbcolDatabaseColumnParserRuleCall_3_1_0 = ( RuleCall ) cDbcolAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public Assignment getValueAssignment_0 ( ) { return cValueAssignment_0 ; } public RuleCall getValueOrdSqlValueParserRuleCall_0_0 ( ) { return cValueOrdSqlValueParserRuleCall_0_0 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getSTRINGTerminalRuleCall_1_0 ( ) { return cSTRINGTerminalRuleCall_1_0 ; } public Assignment getCnstAssignment_1_1 ( ) { return cCnstAssignment_1_1 ; } public RuleCall getCnstConstantParserRuleCall_1_1_0 ( ) { return cCnstConstantParserRuleCall_1_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public RuleCall getCOLONTerminalRuleCall_2_0 ( ) { return cCOLONTerminalRuleCall_2_0 ; } public Assignment getIdentAssignment_2_1 ( ) { return cIdentAssignment_2_1 ; } public RuleCall getIdentIdentifierParserRuleCall_2_1_0 ( ) { return cIdentIdentifierParserRuleCall_2_1_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getPERCENTTerminalRuleCall_3_0 ( ) { return cPERCENTTerminalRuleCall_3_0 ; } public Assignment getDbcolAssignment_3_1 ( ) { return cDbcolAssignment_3_1 ; } public RuleCall getDbcolDatabaseColumnParserRuleCall_3_1_0 ( ) { return cDbcolDatabaseColumnParserRuleCall_3_1_0 ; } } public class OrdSqlValueElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_0 = ( Alternatives ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_0_0 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_0_2 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_0_3 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_0_4 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_0_5 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cCOMMATerminalRuleCall_0_6 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMINUSTerminalRuleCall_0_7 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cPLUSTerminalRuleCall_0_8 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cLPARENTerminalRuleCall_0_9 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRPARENTerminalRuleCall_0_10 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cLBRACETerminalRuleCall_0_11 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cQUESTITerminalRuleCall_0_12 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cNOTTerminalRuleCall_0_13 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBANDTerminalRuleCall_0_14 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBORTerminalRuleCall_0_15 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cHASHTerminalRuleCall_0_16 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cATTerminalRuleCall_0_17 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_0_18 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cEQUALSTerminalRuleCall_0_19 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_0_20 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cMORE_THANTerminalRuleCall_0_21 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_0_22 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_0_23 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_0_24 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cON_OFFTerminalRuleCall_0_25 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_0_26 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_0_27 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_0_28 = ( RuleCall ) cAlternatives_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cAlternatives_1_0 = ( Alternatives ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRESTTerminalRuleCall_1_0_0 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_1_0_1 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_1_0_2 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_1_0_3 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_1_0_4 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_1_0_5 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cCOMMATerminalRuleCall_1_0_6 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMINUSTerminalRuleCall_1_0_7 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cPLUSTerminalRuleCall_1_0_8 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cLPARENTerminalRuleCall_1_0_9 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cRPARENTerminalRuleCall_1_0_10 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cLBRACETerminalRuleCall_1_0_11 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cQUESTITerminalRuleCall_1_0_12 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cNOTTerminalRuleCall_1_0_13 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBANDTerminalRuleCall_1_0_14 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cBORTerminalRuleCall_1_0_15 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cHASHTerminalRuleCall_1_0_16 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cATTerminalRuleCall_1_0_17 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_1_0_18 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cEQUALSTerminalRuleCall_1_0_19 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_1_0_20 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cMORE_THANTerminalRuleCall_1_0_21 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cANDTerminalRuleCall_1_0_22 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_1_0_23 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_1_0_24 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cON_OFFTerminalRuleCall_1_0_25 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_1_0_26 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_1_0_27 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_1_0_28 = ( RuleCall ) cAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Alternatives getAlternatives_0 ( ) { return cAlternatives_0 ; } public RuleCall getRESTTerminalRuleCall_0_0 ( ) { return cRESTTerminalRuleCall_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_0_1 ; } public RuleCall getIDENTTerminalRuleCall_0_2 ( ) { return cIDENTTerminalRuleCall_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_0_3 ( ) { return cNUMBERTerminalRuleCall_0_3 ; } public RuleCall getWSTerminalRuleCall_0_4 ( ) { return cWSTerminalRuleCall_0_4 ; } public RuleCall getSEMICOLONTerminalRuleCall_0_5 ( ) { return cSEMICOLONTerminalRuleCall_0_5 ; } public RuleCall getCOMMATerminalRuleCall_0_6 ( ) { return cCOMMATerminalRuleCall_0_6 ; } public RuleCall getMINUSTerminalRuleCall_0_7 ( ) { return cMINUSTerminalRuleCall_0_7 ; } public RuleCall getPLUSTerminalRuleCall_0_8 ( ) { return cPLUSTerminalRuleCall_0_8 ; } public RuleCall getLPARENTerminalRuleCall_0_9 ( ) { return cLPARENTerminalRuleCall_0_9 ; } public RuleCall getRPARENTerminalRuleCall_0_10 ( ) { return cRPARENTerminalRuleCall_0_10 ; } public RuleCall getLBRACETerminalRuleCall_0_11 ( ) { return cLBRACETerminalRuleCall_0_11 ; } public RuleCall getQUESTITerminalRuleCall_0_12 ( ) { return cQUESTITerminalRuleCall_0_12 ; } public RuleCall getNOTTerminalRuleCall_0_13 ( ) { return cNOTTerminalRuleCall_0_13 ; } public RuleCall getBANDTerminalRuleCall_0_14 ( ) { return cBANDTerminalRuleCall_0_14 ; } public RuleCall getBORTerminalRuleCall_0_15 ( ) { return cBORTerminalRuleCall_0_15 ; } public RuleCall getHASHTerminalRuleCall_0_16 ( ) { return cHASHTerminalRuleCall_0_16 ; } public RuleCall getATTerminalRuleCall_0_17 ( ) { return cATTerminalRuleCall_0_17 ; } public RuleCall getCARETTerminalRuleCall_0_18 ( ) { return cCARETTerminalRuleCall_0_18 ; } public RuleCall getEQUALSTerminalRuleCall_0_19 ( ) { return cEQUALSTerminalRuleCall_0_19 ; } public RuleCall getLESS_THANTerminalRuleCall_0_20 ( ) { return cLESS_THANTerminalRuleCall_0_20 ; } public RuleCall getMORE_THANTerminalRuleCall_0_21 ( ) { return cMORE_THANTerminalRuleCall_0_21 ; } public RuleCall getANDTerminalRuleCall_0_22 ( ) { return cANDTerminalRuleCall_0_22 ; } public RuleCall getORTerminalRuleCall_0_23 ( ) { return cORTerminalRuleCall_0_23 ; } public RuleCall getESC_CHARTerminalRuleCall_0_24 ( ) { return cESC_CHARTerminalRuleCall_0_24 ; } public RuleCall getON_OFFTerminalRuleCall_0_25 ( ) { return cON_OFFTerminalRuleCall_0_25 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_0_26 ( ) { return cSTATEMEN_TYPETerminalRuleCall_0_26 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_0_27 ( ) { return cMAPPING_TYPETerminalRuleCall_0_27 ; } public RuleCall getOPTION_TYPETerminalRuleCall_0_28 ( ) { return cOPTION_TYPETerminalRuleCall_0_28 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public Alternatives getAlternatives_1_0 ( ) { return cAlternatives_1_0 ; } public RuleCall getRESTTerminalRuleCall_1_0_0 ( ) { return cRESTTerminalRuleCall_1_0_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_1_0_1 ( ) { return cIDENT_DOTTerminalRuleCall_1_0_1 ; } public RuleCall getIDENTTerminalRuleCall_1_0_2 ( ) { return cIDENTTerminalRuleCall_1_0_2 ; } public RuleCall getNUMBERTerminalRuleCall_1_0_3 ( ) { return cNUMBERTerminalRuleCall_1_0_3 ; } public RuleCall getWSTerminalRuleCall_1_0_4 ( ) { return cWSTerminalRuleCall_1_0_4 ; } public RuleCall getSEMICOLONTerminalRuleCall_1_0_5 ( ) { return cSEMICOLONTerminalRuleCall_1_0_5 ; } public RuleCall getCOMMATerminalRuleCall_1_0_6 ( ) { return cCOMMATerminalRuleCall_1_0_6 ; } public RuleCall getMINUSTerminalRuleCall_1_0_7 ( ) { return cMINUSTerminalRuleCall_1_0_7 ; } public RuleCall getPLUSTerminalRuleCall_1_0_8 ( ) { return cPLUSTerminalRuleCall_1_0_8 ; } public RuleCall getLPARENTerminalRuleCall_1_0_9 ( ) { return cLPARENTerminalRuleCall_1_0_9 ; } public RuleCall getRPARENTerminalRuleCall_1_0_10 ( ) { return cRPARENTerminalRuleCall_1_0_10 ; } public RuleCall getLBRACETerminalRuleCall_1_0_11 ( ) { return cLBRACETerminalRuleCall_1_0_11 ; } public RuleCall getQUESTITerminalRuleCall_1_0_12 ( ) { return cQUESTITerminalRuleCall_1_0_12 ; } public RuleCall getNOTTerminalRuleCall_1_0_13 ( ) { return cNOTTerminalRuleCall_1_0_13 ; } public RuleCall getBANDTerminalRuleCall_1_0_14 ( ) { return cBANDTerminalRuleCall_1_0_14 ; } public RuleCall getBORTerminalRuleCall_1_0_15 ( ) { return cBORTerminalRuleCall_1_0_15 ; } public RuleCall getHASHTerminalRuleCall_1_0_16 ( ) { return cHASHTerminalRuleCall_1_0_16 ; } public RuleCall getATTerminalRuleCall_1_0_17 ( ) { return cATTerminalRuleCall_1_0_17 ; } public RuleCall getCARETTerminalRuleCall_1_0_18 ( ) { return cCARETTerminalRuleCall_1_0_18 ; } public RuleCall getEQUALSTerminalRuleCall_1_0_19 ( ) { return cEQUALSTerminalRuleCall_1_0_19 ; } public RuleCall getLESS_THANTerminalRuleCall_1_0_20 ( ) { return cLESS_THANTerminalRuleCall_1_0_20 ; } public RuleCall getMORE_THANTerminalRuleCall_1_0_21 ( ) { return cMORE_THANTerminalRuleCall_1_0_21 ; } public RuleCall getANDTerminalRuleCall_1_0_22 ( ) { return cANDTerminalRuleCall_1_0_22 ; } public RuleCall getORTerminalRuleCall_1_0_23 ( ) { return cORTerminalRuleCall_1_0_23 ; } public RuleCall getESC_CHARTerminalRuleCall_1_0_24 ( ) { return cESC_CHARTerminalRuleCall_1_0_24 ; } public RuleCall getON_OFFTerminalRuleCall_1_0_25 ( ) { return cON_OFFTerminalRuleCall_1_0_25 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_1_0_26 ( ) { return cSTATEMEN_TYPETerminalRuleCall_1_0_26 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_1_0_27 ( ) { return cMAPPING_TYPETerminalRuleCall_1_0_27 ; } public RuleCall getOPTION_TYPETerminalRuleCall_1_0_28 ( ) { return cOPTION_TYPETerminalRuleCall_1_0_28 ; } } public class ColumnElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cNameAlternatives_0_0 = ( Alternatives ) cNameAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0_0 = ( RuleCall ) cNameAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_0_0_1 = ( RuleCall ) cNameAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cNameNUMBERTerminalRuleCall_0_0_2 = ( RuleCall ) cNameAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCARETTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cTypeAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cTypeIDENTTerminalRuleCall_1_1_0 = ( RuleCall ) cTypeAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1_2 = ( Group ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCARETTerminalRuleCall_1_2_0 = ( RuleCall ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cValsAssignment_1_2_1 = ( Assignment ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cValsAlternatives_1_2_1_0 = ( Alternatives ) cValsAssignment_1_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsIDENTTerminalRuleCall_1_2_1_0_0 = ( RuleCall ) cValsAlternatives_1_2_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsNUMBERTerminalRuleCall_1_2_1_0_1 = ( RuleCall ) cValsAlternatives_1_2_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getNameAssignment_0 ( ) { return cNameAssignment_0 ; } public Alternatives getNameAlternatives_0_0 ( ) { return cNameAlternatives_0_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_0_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_0_0_1 ; } public RuleCall getNameNUMBERTerminalRuleCall_0_0_2 ( ) { return cNameNUMBERTerminalRuleCall_0_0_2 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getCARETTerminalRuleCall_1_0 ( ) { return cCARETTerminalRuleCall_1_0 ; } public Assignment getTypeAssignment_1_1 ( ) { return cTypeAssignment_1_1 ; } public RuleCall getTypeIDENTTerminalRuleCall_1_1_0 ( ) { return cTypeIDENTTerminalRuleCall_1_1_0 ; } public Group getGroup_1_2 ( ) { return cGroup_1_2 ; } public RuleCall getCARETTerminalRuleCall_1_2_0 ( ) { return cCARETTerminalRuleCall_1_2_0 ; } public Assignment getValsAssignment_1_2_1 ( ) { return cValsAssignment_1_2_1 ; } public Alternatives getValsAlternatives_1_2_1_0 ( ) { return cValsAlternatives_1_2_1_0 ; } public RuleCall getValsIDENTTerminalRuleCall_1_2_1_0_0 ( ) { return cValsIDENTTerminalRuleCall_1_2_1_0_0 ; } public RuleCall getValsNUMBERTerminalRuleCall_1_2_1_0_1 ( ) { return cValsNUMBERTerminalRuleCall_1_2_1_0_1 ; } } public class ConstantElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cCaseAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cCaseAlternatives_0_0 = ( Alternatives ) cCaseAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cCasePLUSTerminalRuleCall_0_0_0 = ( RuleCall ) cCaseAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cCaseMINUSTerminalRuleCall_0_0_1 = ( RuleCall ) cCaseAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cNameAlternatives_1_0 = ( Alternatives ) cNameAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_1_0_0 = ( RuleCall ) cNameAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_1_0_1 = ( RuleCall ) cNameAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_2 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCARETTerminalRuleCall_2_0 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cTypeAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cTypeIDENTTerminalRuleCall_2_1_0 = ( RuleCall ) cTypeAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2_2 = ( Group ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCARETTerminalRuleCall_2_2_0 = ( RuleCall ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cValsAssignment_2_2_1 = ( Assignment ) cGroup_2_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cValsAlternatives_2_2_1_0 = ( Alternatives ) cValsAssignment_2_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsIDENTTerminalRuleCall_2_2_1_0_0 = ( RuleCall ) cValsAlternatives_2_2_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsNUMBERTerminalRuleCall_2_2_1_0_1 = ( RuleCall ) cValsAlternatives_2_2_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getCaseAssignment_0 ( ) { return cCaseAssignment_0 ; } public Alternatives getCaseAlternatives_0_0 ( ) { return cCaseAlternatives_0_0 ; } public RuleCall getCasePLUSTerminalRuleCall_0_0_0 ( ) { return cCasePLUSTerminalRuleCall_0_0_0 ; } public RuleCall getCaseMINUSTerminalRuleCall_0_0_1 ( ) { return cCaseMINUSTerminalRuleCall_0_0_1 ; } public Assignment getNameAssignment_1 ( ) { return cNameAssignment_1 ; } public Alternatives getNameAlternatives_1_0 ( ) { return cNameAlternatives_1_0 ; } public RuleCall getNameIDENTTerminalRuleCall_1_0_0 ( ) { return cNameIDENTTerminalRuleCall_1_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_1_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_1_0_1 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public RuleCall getCARETTerminalRuleCall_2_0 ( ) { return cCARETTerminalRuleCall_2_0 ; } public Assignment getTypeAssignment_2_1 ( ) { return cTypeAssignment_2_1 ; } public RuleCall getTypeIDENTTerminalRuleCall_2_1_0 ( ) { return cTypeIDENTTerminalRuleCall_2_1_0 ; } public Group getGroup_2_2 ( ) { return cGroup_2_2 ; } public RuleCall getCARETTerminalRuleCall_2_2_0 ( ) { return cCARETTerminalRuleCall_2_2_0 ; } public Assignment getValsAssignment_2_2_1 ( ) { return cValsAssignment_2_2_1 ; } public Alternatives getValsAlternatives_2_2_1_0 ( ) { return cValsAlternatives_2_2_1_0 ; } public RuleCall getValsIDENTTerminalRuleCall_2_2_1_0_0 ( ) { return cValsIDENTTerminalRuleCall_2_2_1_0_0 ; } public RuleCall getValsNUMBERTerminalRuleCall_2_2_1_0_1 ( ) { return cValsNUMBERTerminalRuleCall_2_2_1_0_1 ; } } public class IdentifierElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cModeAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cModeAlternatives_0_0 = ( Alternatives ) cModeAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cModeEQUALSTerminalRuleCall_0_0_0 = ( RuleCall ) cModeAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cModeLESS_THANTerminalRuleCall_0_0_1 = ( RuleCall ) cModeAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cModeMORE_THANTerminalRuleCall_0_0_2 = ( RuleCall ) cModeAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Assignment cCaseAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cCaseAlternatives_1_0 = ( Alternatives ) cCaseAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cCasePLUSTerminalRuleCall_1_0_0 = ( RuleCall ) cCaseAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cCaseMINUSTerminalRuleCall_1_0_1 = ( RuleCall ) cCaseAlternatives_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Alternatives cNameAlternatives_2_0 = ( Alternatives ) cNameAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_2_0_0 = ( RuleCall ) cNameAlternatives_2_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_2_0_1 = ( RuleCall ) cNameAlternatives_2_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cNameNUMBERTerminalRuleCall_2_0_2 = ( RuleCall ) cNameAlternatives_2_0 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCARETTerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cTypeAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cTypeIDENTTerminalRuleCall_3_1_0 = ( RuleCall ) cTypeAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3_2 = ( Group ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cCARETTerminalRuleCall_3_2_0 = ( RuleCall ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cValsAssignment_3_2_1 = ( Assignment ) cGroup_3_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cValsAlternatives_3_2_1_0 = ( Alternatives ) cValsAssignment_3_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsIDENTTerminalRuleCall_3_2_1_0_0 = ( RuleCall ) cValsAlternatives_3_2_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsNUMBERTerminalRuleCall_3_2_1_0_1 = ( RuleCall ) cValsAlternatives_3_2_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getModeAssignment_0 ( ) { return cModeAssignment_0 ; } public Alternatives getModeAlternatives_0_0 ( ) { return cModeAlternatives_0_0 ; } public RuleCall getModeEQUALSTerminalRuleCall_0_0_0 ( ) { return cModeEQUALSTerminalRuleCall_0_0_0 ; } public RuleCall getModeLESS_THANTerminalRuleCall_0_0_1 ( ) { return cModeLESS_THANTerminalRuleCall_0_0_1 ; } public RuleCall getModeMORE_THANTerminalRuleCall_0_0_2 ( ) { return cModeMORE_THANTerminalRuleCall_0_0_2 ; } public Assignment getCaseAssignment_1 ( ) { return cCaseAssignment_1 ; } public Alternatives getCaseAlternatives_1_0 ( ) { return cCaseAlternatives_1_0 ; } public RuleCall getCasePLUSTerminalRuleCall_1_0_0 ( ) { return cCasePLUSTerminalRuleCall_1_0_0 ; } public RuleCall getCaseMINUSTerminalRuleCall_1_0_1 ( ) { return cCaseMINUSTerminalRuleCall_1_0_1 ; } public Assignment getNameAssignment_2 ( ) { return cNameAssignment_2 ; } public Alternatives getNameAlternatives_2_0 ( ) { return cNameAlternatives_2_0 ; } public RuleCall getNameIDENTTerminalRuleCall_2_0_0 ( ) { return cNameIDENTTerminalRuleCall_2_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_2_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_2_0_1 ; } public RuleCall getNameNUMBERTerminalRuleCall_2_0_2 ( ) { return cNameNUMBERTerminalRuleCall_2_0_2 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCARETTerminalRuleCall_3_0 ( ) { return cCARETTerminalRuleCall_3_0 ; } public Assignment getTypeAssignment_3_1 ( ) { return cTypeAssignment_3_1 ; } public RuleCall getTypeIDENTTerminalRuleCall_3_1_0 ( ) { return cTypeIDENTTerminalRuleCall_3_1_0 ; } public Group getGroup_3_2 ( ) { return cGroup_3_2 ; } public RuleCall getCARETTerminalRuleCall_3_2_0 ( ) { return cCARETTerminalRuleCall_3_2_0 ; } public Assignment getValsAssignment_3_2_1 ( ) { return cValsAssignment_3_2_1 ; } public Alternatives getValsAlternatives_3_2_1_0 ( ) { return cValsAlternatives_3_2_1_0 ; } public RuleCall getValsIDENTTerminalRuleCall_3_2_1_0_0 ( ) { return cValsIDENTTerminalRuleCall_3_2_1_0_0 ; } public RuleCall getValsNUMBERTerminalRuleCall_3_2_1_0_1 ( ) { return cValsNUMBERTerminalRuleCall_3_2_1_0_1 ; } } public class DatabaseColumnElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Assignment cNameAssignment = ( Assignment ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cNameAlternatives_0 = ( Alternatives ) cNameAssignment . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0 = ( RuleCall ) cNameAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cNameAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Assignment getNameAssignment ( ) { return cNameAssignment ; } public Alternatives getNameAlternatives_0 ( ) { return cNameAlternatives_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_0_1 ; } } public class DatabaseTableElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Assignment cNameAssignment = ( Assignment ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cNameAlternatives_0 = ( Alternatives ) cNameAssignment . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0 = ( RuleCall ) cNameAlternatives_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_0_1 = ( RuleCall ) cNameAlternatives_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Assignment getNameAssignment ( ) { return cNameAssignment ; } public Alternatives getNameAlternatives_0 ( ) { return cNameAlternatives_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_0_1 ; } } public class MappingRuleElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0 = ( RuleCall ) cNameAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cLPARENTerminalRuleCall_1 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTypeAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cTypeMAPPING_TYPETerminalRuleCall_2_0 = ( RuleCall ) cTypeAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOMMATerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cFiltersAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cFiltersIDENTTerminalRuleCall_3_1_0 = ( RuleCall ) cFiltersAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRPARENTerminalRuleCall_4 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cEQUALSTerminalRuleCall_5 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cMappingAssignment_6 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cMappingMappingParserRuleCall_6_0 = ( RuleCall ) cMappingAssignment_6 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_7 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:7> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getNameAssignment_0 ( ) { return cNameAssignment_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0 ; } public RuleCall getLPARENTerminalRuleCall_1 ( ) { return cLPARENTerminalRuleCall_1 ; } public Assignment getTypeAssignment_2 ( ) { return cTypeAssignment_2 ; } public RuleCall getTypeMAPPING_TYPETerminalRuleCall_2_0 ( ) { return cTypeMAPPING_TYPETerminalRuleCall_2_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCOMMATerminalRuleCall_3_0 ( ) { return cCOMMATerminalRuleCall_3_0 ; } public Assignment getFiltersAssignment_3_1 ( ) { return cFiltersAssignment_3_1 ; } public RuleCall getFiltersIDENTTerminalRuleCall_3_1_0 ( ) { return cFiltersIDENTTerminalRuleCall_3_1_0 ; } public RuleCall getRPARENTerminalRuleCall_4 ( ) { return cRPARENTerminalRuleCall_4 ; } public RuleCall getEQUALSTerminalRuleCall_5 ( ) { return cEQUALSTerminalRuleCall_5 ; } public Assignment getMappingAssignment_6 ( ) { return cMappingAssignment_6 ; } public RuleCall getMappingMappingParserRuleCall_6_0 ( ) { return cMappingMappingParserRuleCall_6_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_7 ( ) { return cSEMICOLONTerminalRuleCall_7 ; } } public class MappingElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cWSTerminalRuleCall_0 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cMappingItemsAssignment_1 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cMappingItemsMappingItemParserRuleCall_1_0 = ( RuleCall ) cMappingItemsAssignment_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_2 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cWSTerminalRuleCall_2_0 = ( RuleCall ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cMappingItemsAssignment_2_1 = ( Assignment ) cGroup_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cMappingItemsMappingItemParserRuleCall_2_1_0 = ( RuleCall ) cMappingItemsAssignment_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cWSTerminalRuleCall_3 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public RuleCall getWSTerminalRuleCall_0 ( ) { return cWSTerminalRuleCall_0 ; } public Assignment getMappingItemsAssignment_1 ( ) { return cMappingItemsAssignment_1 ; } public RuleCall getMappingItemsMappingItemParserRuleCall_1_0 ( ) { return cMappingItemsMappingItemParserRuleCall_1_0 ; } public Group getGroup_2 ( ) { return cGroup_2 ; } public RuleCall getWSTerminalRuleCall_2_0 ( ) { return cWSTerminalRuleCall_2_0 ; } public Assignment getMappingItemsAssignment_2_1 ( ) { return cMappingItemsAssignment_2_1 ; } public RuleCall getMappingItemsMappingItemParserRuleCall_2_1_0 ( ) { return cMappingItemsMappingItemParserRuleCall_2_1_0 ; } public RuleCall getWSTerminalRuleCall_3 ( ) { return cWSTerminalRuleCall_3 ; } } public class MappingItemElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cColAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cColAlternatives_0_0 = ( Alternatives ) cColAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cColIDENTTerminalRuleCall_0_0_0 = ( RuleCall ) cColAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cColNUMBERTerminalRuleCall_0_0_1 = ( RuleCall ) cColAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cSTRINGTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cTypeAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cTypeIDENTTerminalRuleCall_1_1_0 = ( RuleCall ) cTypeAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_1_2 = ( Group ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cSTRINGTerminalRuleCall_1_2_0 = ( RuleCall ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cAttrAssignment_1_2_1 = ( Assignment ) cGroup_1_2 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cAttrMappingColumnParserRuleCall_1_2_1_0 = ( RuleCall ) cAttrAssignment_1_2_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getColAssignment_0 ( ) { return cColAssignment_0 ; } public Alternatives getColAlternatives_0_0 ( ) { return cColAlternatives_0_0 ; } public RuleCall getColIDENTTerminalRuleCall_0_0_0 ( ) { return cColIDENTTerminalRuleCall_0_0_0 ; } public RuleCall getColNUMBERTerminalRuleCall_0_0_1 ( ) { return cColNUMBERTerminalRuleCall_0_0_1 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getSTRINGTerminalRuleCall_1_0 ( ) { return cSTRINGTerminalRuleCall_1_0 ; } public Assignment getTypeAssignment_1_1 ( ) { return cTypeAssignment_1_1 ; } public RuleCall getTypeIDENTTerminalRuleCall_1_1_0 ( ) { return cTypeIDENTTerminalRuleCall_1_1_0 ; } public Group getGroup_1_2 ( ) { return cGroup_1_2 ; } public RuleCall getSTRINGTerminalRuleCall_1_2_0 ( ) { return cSTRINGTerminalRuleCall_1_2_0 ; } public Assignment getAttrAssignment_1_2_1 ( ) { return cAttrAssignment_1_2_1 ; } public RuleCall getAttrMappingColumnParserRuleCall_1_2_1_0 ( ) { return cAttrMappingColumnParserRuleCall_1_2_1_0 ; } } public class MappingColumnElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Alternatives cNameAlternatives_0_0 = ( Alternatives ) cNameAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0_0 = ( RuleCall ) cNameAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENT_DOTTerminalRuleCall_0_0_1 = ( RuleCall ) cNameAlternatives_0_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Group cGroup_1 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cCARETTerminalRuleCall_1_0 = ( RuleCall ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cValsAssignment_1_1 = ( Assignment ) cGroup_1 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Alternatives cValsAlternatives_1_1_0 = ( Alternatives ) cValsAssignment_1_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsIDENTTerminalRuleCall_1_1_0_0 = ( RuleCall ) cValsAlternatives_1_1_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cValsNUMBERTerminalRuleCall_1_1_0_1 = ( RuleCall ) cValsAlternatives_1_1_0 . eContents ( ) . get ( <NUM_LIT:1> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getNameAssignment_0 ( ) { return cNameAssignment_0 ; } public Alternatives getNameAlternatives_0_0 ( ) { return cNameAlternatives_0_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0_0 ; } public RuleCall getNameIDENT_DOTTerminalRuleCall_0_0_1 ( ) { return cNameIDENT_DOTTerminalRuleCall_0_0_1 ; } public Group getGroup_1 ( ) { return cGroup_1 ; } public RuleCall getCARETTerminalRuleCall_1_0 ( ) { return cCARETTerminalRuleCall_1_0 ; } public Assignment getValsAssignment_1_1 ( ) { return cValsAssignment_1_1 ; } public Alternatives getValsAlternatives_1_1_0 ( ) { return cValsAlternatives_1_1_0 ; } public RuleCall getValsIDENTTerminalRuleCall_1_1_0_0 ( ) { return cValsIDENTTerminalRuleCall_1_1_0_0 ; } public RuleCall getValsNUMBERTerminalRuleCall_1_1_0_1 ( ) { return cValsNUMBERTerminalRuleCall_1_1_0_1 ; } } public class OptionalFeatureElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Group cGroup = ( Group ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cNameAssignment_0 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cNameIDENTTerminalRuleCall_0_0 = ( RuleCall ) cNameAssignment_0 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cLPARENTerminalRuleCall_1 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:1> ) ; private final Assignment cTypeAssignment_2 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cTypeOPTION_TYPETerminalRuleCall_2_0 = ( RuleCall ) cTypeAssignment_2 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Group cGroup_3 = ( Group ) cGroup . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cCOMMATerminalRuleCall_3_0 = ( RuleCall ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final Assignment cFiltersAssignment_3_1 = ( Assignment ) cGroup_3 . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cFiltersIDENTTerminalRuleCall_3_1_0 = ( RuleCall ) cFiltersAssignment_3_1 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cRPARENTerminalRuleCall_4 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cEQUALSTerminalRuleCall_5 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:5> ) ; private final Assignment cOptionAssignment_6 = ( Assignment ) cGroup . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cOptionFeatureValueParserRuleCall_6_0 = ( RuleCall ) cOptionAssignment_6 . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cSEMICOLONTerminalRuleCall_7 = ( RuleCall ) cGroup . eContents ( ) . get ( <NUM_LIT:7> ) ; public ParserRule getRule ( ) { return rule ; } public Group getGroup ( ) { return cGroup ; } public Assignment getNameAssignment_0 ( ) { return cNameAssignment_0 ; } public RuleCall getNameIDENTTerminalRuleCall_0_0 ( ) { return cNameIDENTTerminalRuleCall_0_0 ; } public RuleCall getLPARENTerminalRuleCall_1 ( ) { return cLPARENTerminalRuleCall_1 ; } public Assignment getTypeAssignment_2 ( ) { return cTypeAssignment_2 ; } public RuleCall getTypeOPTION_TYPETerminalRuleCall_2_0 ( ) { return cTypeOPTION_TYPETerminalRuleCall_2_0 ; } public Group getGroup_3 ( ) { return cGroup_3 ; } public RuleCall getCOMMATerminalRuleCall_3_0 ( ) { return cCOMMATerminalRuleCall_3_0 ; } public Assignment getFiltersAssignment_3_1 ( ) { return cFiltersAssignment_3_1 ; } public RuleCall getFiltersIDENTTerminalRuleCall_3_1_0 ( ) { return cFiltersIDENTTerminalRuleCall_3_1_0 ; } public RuleCall getRPARENTerminalRuleCall_4 ( ) { return cRPARENTerminalRuleCall_4 ; } public RuleCall getEQUALSTerminalRuleCall_5 ( ) { return cEQUALSTerminalRuleCall_5 ; } public Assignment getOptionAssignment_6 ( ) { return cOptionAssignment_6 ; } public RuleCall getOptionFeatureValueParserRuleCall_6_0 ( ) { return cOptionFeatureValueParserRuleCall_6_0 ; } public RuleCall getSEMICOLONTerminalRuleCall_7 ( ) { return cSEMICOLONTerminalRuleCall_7 ; } } public class FeatureValueElements extends AbstractParserRuleElementFinder { private final ParserRule rule = ( ParserRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ; private final Alternatives cAlternatives = ( Alternatives ) rule . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cRESTTerminalRuleCall_0 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:0> ) ; private final RuleCall cIDENT_DOTTerminalRuleCall_1 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:1> ) ; private final RuleCall cIDENTTerminalRuleCall_2 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:2> ) ; private final RuleCall cNUMBERTerminalRuleCall_3 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:3> ) ; private final RuleCall cWSTerminalRuleCall_4 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:4> ) ; private final RuleCall cCOLONTerminalRuleCall_5 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:5> ) ; private final RuleCall cSTRINGTerminalRuleCall_6 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:6> ) ; private final RuleCall cCOMMATerminalRuleCall_7 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:7> ) ; private final RuleCall cMINUSTerminalRuleCall_8 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:8> ) ; private final RuleCall cPLUSTerminalRuleCall_9 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:9> ) ; private final RuleCall cLPARENTerminalRuleCall_10 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:10> ) ; private final RuleCall cRPARENTerminalRuleCall_11 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:11> ) ; private final RuleCall cLBRACETerminalRuleCall_12 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:12> ) ; private final RuleCall cRBRACETerminalRuleCall_13 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cQUESTITerminalRuleCall_14 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cNOTTerminalRuleCall_15 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:15> ) ; private final RuleCall cBANDTerminalRuleCall_16 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:16> ) ; private final RuleCall cBORTerminalRuleCall_17 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cHASHTerminalRuleCall_18 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cATTerminalRuleCall_19 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cCARETTerminalRuleCall_20 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:20> ) ; private final RuleCall cEQUALSTerminalRuleCall_21 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cLESS_THANTerminalRuleCall_22 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMORE_THANTerminalRuleCall_23 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cPERCENTTerminalRuleCall_24 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:24> ) ; private final RuleCall cANDTerminalRuleCall_25 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cORTerminalRuleCall_26 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cESC_CHARTerminalRuleCall_27 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cON_OFFTerminalRuleCall_28 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cSTATEMEN_TYPETerminalRuleCall_29 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT> ) ; private final RuleCall cMAPPING_TYPETerminalRuleCall_30 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:30> ) ; private final RuleCall cOPTION_TYPETerminalRuleCall_31 = ( RuleCall ) cAlternatives . eContents ( ) . get ( <NUM_LIT:31> ) ; public ParserRule getRule ( ) { return rule ; } public Alternatives getAlternatives ( ) { return cAlternatives ; } public RuleCall getRESTTerminalRuleCall_0 ( ) { return cRESTTerminalRuleCall_0 ; } public RuleCall getIDENT_DOTTerminalRuleCall_1 ( ) { return cIDENT_DOTTerminalRuleCall_1 ; } public RuleCall getIDENTTerminalRuleCall_2 ( ) { return cIDENTTerminalRuleCall_2 ; } public RuleCall getNUMBERTerminalRuleCall_3 ( ) { return cNUMBERTerminalRuleCall_3 ; } public RuleCall getWSTerminalRuleCall_4 ( ) { return cWSTerminalRuleCall_4 ; } public RuleCall getCOLONTerminalRuleCall_5 ( ) { return cCOLONTerminalRuleCall_5 ; } public RuleCall getSTRINGTerminalRuleCall_6 ( ) { return cSTRINGTerminalRuleCall_6 ; } public RuleCall getCOMMATerminalRuleCall_7 ( ) { return cCOMMATerminalRuleCall_7 ; } public RuleCall getMINUSTerminalRuleCall_8 ( ) { return cMINUSTerminalRuleCall_8 ; } public RuleCall getPLUSTerminalRuleCall_9 ( ) { return cPLUSTerminalRuleCall_9 ; } public RuleCall getLPARENTerminalRuleCall_10 ( ) { return cLPARENTerminalRuleCall_10 ; } public RuleCall getRPARENTerminalRuleCall_11 ( ) { return cRPARENTerminalRuleCall_11 ; } public RuleCall getLBRACETerminalRuleCall_12 ( ) { return cLBRACETerminalRuleCall_12 ; } public RuleCall getRBRACETerminalRuleCall_13 ( ) { return cRBRACETerminalRuleCall_13 ; } public RuleCall getQUESTITerminalRuleCall_14 ( ) { return cQUESTITerminalRuleCall_14 ; } public RuleCall getNOTTerminalRuleCall_15 ( ) { return cNOTTerminalRuleCall_15 ; } public RuleCall getBANDTerminalRuleCall_16 ( ) { return cBANDTerminalRuleCall_16 ; } public RuleCall getBORTerminalRuleCall_17 ( ) { return cBORTerminalRuleCall_17 ; } public RuleCall getHASHTerminalRuleCall_18 ( ) { return cHASHTerminalRuleCall_18 ; } public RuleCall getATTerminalRuleCall_19 ( ) { return cATTerminalRuleCall_19 ; } public RuleCall getCARETTerminalRuleCall_20 ( ) { return cCARETTerminalRuleCall_20 ; } public RuleCall getEQUALSTerminalRuleCall_21 ( ) { return cEQUALSTerminalRuleCall_21 ; } public RuleCall getLESS_THANTerminalRuleCall_22 ( ) { return cLESS_THANTerminalRuleCall_22 ; } public RuleCall getMORE_THANTerminalRuleCall_23 ( ) { return cMORE_THANTerminalRuleCall_23 ; } public RuleCall getPERCENTTerminalRuleCall_24 ( ) { return cPERCENTTerminalRuleCall_24 ; } public RuleCall getANDTerminalRuleCall_25 ( ) { return cANDTerminalRuleCall_25 ; } public RuleCall getORTerminalRuleCall_26 ( ) { return cORTerminalRuleCall_26 ; } public RuleCall getESC_CHARTerminalRuleCall_27 ( ) { return cESC_CHARTerminalRuleCall_27 ; } public RuleCall getON_OFFTerminalRuleCall_28 ( ) { return cON_OFFTerminalRuleCall_28 ; } public RuleCall getSTATEMEN_TYPETerminalRuleCall_29 ( ) { return cSTATEMEN_TYPETerminalRuleCall_29 ; } public RuleCall getMAPPING_TYPETerminalRuleCall_30 ( ) { return cMAPPING_TYPETerminalRuleCall_30 ; } public RuleCall getOPTION_TYPETerminalRuleCall_31 ( ) { return cOPTION_TYPETerminalRuleCall_31 ; } } private ArtifactsElements pArtifacts ; private PropertyElements pProperty ; private PropertyValueElements pPropertyValue ; private PojoDefinitionElements pPojoDefinition ; private PojoUsageElements pPojoUsage ; private ColumnUsageElements pColumnUsage ; private IdentifierUsageElements pIdentifierUsage ; private ConstantUsageElements pConstantUsage ; private MappingUsageElements pMappingUsage ; private TableDefinitionElements pTableDefinition ; private TableUsageElements pTableUsage ; private MetaStatementElements pMetaStatement ; private SqlElements pSql ; private SqlFragmentElements pSqlFragment ; private SqlValueElements pSqlValue ; private MetaSqlElements pMetaSql ; private IfSqlElements pIfSql ; private IfSqlFragmentElements pIfSqlFragment ; private IfSqlValueElements pIfSqlValue ; private IfMetaSqlElements pIfMetaSql ; private IfSqlCondElements pIfSqlCond ; private IfSqlBoolElements pIfSqlBool ; private OrdSqlElements pOrdSql ; private OrdSql2Elements pOrdSql2 ; private OrdSqlValueElements pOrdSqlValue ; private ColumnElements pColumn ; private ConstantElements pConstant ; private IdentifierElements pIdentifier ; private DatabaseColumnElements pDatabaseColumn ; private DatabaseTableElements pDatabaseTable ; private MappingRuleElements pMappingRule ; private MappingElements pMapping ; private MappingItemElements pMappingItem ; private MappingColumnElements pMappingColumn ; private OptionalFeatureElements pOptionalFeature ; private FeatureValueElements pFeatureValue ; private TerminalRule tON_OFF ; private TerminalRule tSTATEMEN_TYPE ; private TerminalRule tMAPPING_TYPE ; private TerminalRule tOPTION_TYPE ; private TerminalRule tIDENT_DOT ; private TerminalRule tIDENT ; private TerminalRule tNUMBER ; private TerminalRule tESC_CHAR ; private TerminalRule tML_COMMENT ; private TerminalRule tSL_COMMENT ; private TerminalRule tWS ; private TerminalRule tAND ; private TerminalRule tOR ; private TerminalRule tCOLON ; private TerminalRule tSEMICOLON ; private TerminalRule tSTRING ; private TerminalRule tCOMMA ; private TerminalRule tMINUS ; private TerminalRule tPLUS ; private TerminalRule tLPAREN ; private TerminalRule tRPAREN ; private TerminalRule tLBRACE ; private TerminalRule tRBRACE ; private TerminalRule tQUESTI ; private TerminalRule tNOT ; private TerminalRule tBAND ; private TerminalRule tBOR ; private TerminalRule tHASH ; private TerminalRule tAT ; private TerminalRule tCARET ; private TerminalRule tEQUALS ; private TerminalRule tLESS_THAN ; private TerminalRule tMORE_THAN ; private TerminalRule tPERCENT ; private TerminalRule tREST ; private final GrammarProvider grammarProvider ; @ Inject public ProcessorDslGrammarAccess ( GrammarProvider grammarProvider ) { this . grammarProvider = grammarProvider ; } public Grammar getGrammar ( ) { return grammarProvider . getGrammar ( this ) ; } public ArtifactsElements getArtifactsAccess ( ) { return ( pArtifacts != null ) ? pArtifacts : ( pArtifacts = new ArtifactsElements ( ) ) ; } public ParserRule getArtifactsRule ( ) { return getArtifactsAccess ( ) . getRule ( ) ; } public PropertyElements getPropertyAccess ( ) { return ( pProperty != null ) ? pProperty : ( pProperty = new PropertyElements ( ) ) ; } public ParserRule getPropertyRule ( ) { return getPropertyAccess ( ) . getRule ( ) ; } public PropertyValueElements getPropertyValueAccess ( ) { return ( pPropertyValue != null ) ? pPropertyValue : ( pPropertyValue = new PropertyValueElements ( ) ) ; } public ParserRule getPropertyValueRule ( ) { return getPropertyValueAccess ( ) . getRule ( ) ; } public PojoDefinitionElements getPojoDefinitionAccess ( ) { return ( pPojoDefinition != null ) ? pPojoDefinition : ( pPojoDefinition = new PojoDefinitionElements ( ) ) ; } public ParserRule getPojoDefinitionRule ( ) { return getPojoDefinitionAccess ( ) . getRule ( ) ; } public PojoUsageElements getPojoUsageAccess ( ) { return ( pPojoUsage != null ) ? pPojoUsage : ( pPojoUsage = new PojoUsageElements ( ) ) ; } public ParserRule getPojoUsageRule ( ) { return getPojoUsageAccess ( ) . getRule ( ) ; } public ColumnUsageElements getColumnUsageAccess ( ) { return ( pColumnUsage != null ) ? pColumnUsage : ( pColumnUsage = new ColumnUsageElements ( ) ) ; } public ParserRule getColumnUsageRule ( ) { return getColumnUsageAccess ( ) . getRule ( ) ; } public IdentifierUsageElements getIdentifierUsageAccess ( ) { return ( pIdentifierUsage != null ) ? pIdentifierUsage : ( pIdentifierUsage = new IdentifierUsageElements ( ) ) ; } public ParserRule getIdentifierUsageRule ( ) { return getIdentifierUsageAccess ( ) . getRule ( ) ; } public ConstantUsageElements getConstantUsageAccess ( ) { return ( pConstantUsage != null ) ? pConstantUsage : ( pConstantUsage = new ConstantUsageElements ( ) ) ; } public ParserRule getConstantUsageRule ( ) { return getConstantUsageAccess ( ) . getRule ( ) ; } public MappingUsageElements getMappingUsageAccess ( ) { return ( pMappingUsage != null ) ? pMappingUsage : ( pMappingUsage = new MappingUsageElements ( ) ) ; } public ParserRule getMappingUsageRule ( ) { return getMappingUsageAccess ( ) . getRule ( ) ; } public TableDefinitionElements getTableDefinitionAccess ( ) { return ( pTableDefinition != null ) ? pTableDefinition : ( pTableDefinition = new TableDefinitionElements ( ) ) ; } public ParserRule getTableDefinitionRule ( ) { return getTableDefinitionAccess ( ) . getRule ( ) ; } public TableUsageElements getTableUsageAccess ( ) { return ( pTableUsage != null ) ? pTableUsage : ( pTableUsage = new TableUsageElements ( ) ) ; } public ParserRule getTableUsageRule ( ) { return getTableUsageAccess ( ) . getRule ( ) ; } public MetaStatementElements getMetaStatementAccess ( ) { return ( pMetaStatement != null ) ? pMetaStatement : ( pMetaStatement = new MetaStatementElements ( ) ) ; } public ParserRule getMetaStatementRule ( ) { return getMetaStatementAccess ( ) . getRule ( ) ; } public SqlElements getSqlAccess ( ) { return ( pSql != null ) ? pSql : ( pSql = new SqlElements ( ) ) ; } public ParserRule getSqlRule ( ) { return getSqlAccess ( ) . getRule ( ) ; } public SqlFragmentElements getSqlFragmentAccess ( ) { return ( pSqlFragment != null ) ? pSqlFragment : ( pSqlFragment = new SqlFragmentElements ( ) ) ; } public ParserRule getSqlFragmentRule ( ) { return getSqlFragmentAccess ( ) . getRule ( ) ; } public SqlValueElements getSqlValueAccess ( ) { return ( pSqlValue != null ) ? pSqlValue : ( pSqlValue = new SqlValueElements ( ) ) ; } public ParserRule getSqlValueRule ( ) { return getSqlValueAccess ( ) . getRule ( ) ; } public MetaSqlElements getMetaSqlAccess ( ) { return ( pMetaSql != null ) ? pMetaSql : ( pMetaSql = new MetaSqlElements ( ) ) ; } public ParserRule getMetaSqlRule ( ) { return getMetaSqlAccess ( ) . getRule ( ) ; } public IfSqlElements getIfSqlAccess ( ) { return ( pIfSql != null ) ? pIfSql : ( pIfSql = new IfSqlElements ( ) ) ; } public ParserRule getIfSqlRule ( ) { return getIfSqlAccess ( ) . getRule ( ) ; } public IfSqlFragmentElements getIfSqlFragmentAccess ( ) { return ( pIfSqlFragment != null ) ? pIfSqlFragment : ( pIfSqlFragment = new IfSqlFragmentElements ( ) ) ; } public ParserRule getIfSqlFragmentRule ( ) { return getIfSqlFragmentAccess ( ) . getRule ( ) ; } public IfSqlValueElements getIfSqlValueAccess ( ) { return ( pIfSqlValue != null ) ? pIfSqlValue : ( pIfSqlValue = new IfSqlValueElements ( ) ) ; } public ParserRule getIfSqlValueRule ( ) { return getIfSqlValueAccess ( ) . getRule ( ) ; } public IfMetaSqlElements getIfMetaSqlAccess ( ) { return ( pIfMetaSql != null ) ? pIfMetaSql : ( pIfMetaSql = new IfMetaSqlElements ( ) ) ; } public ParserRule getIfMetaSqlRule ( ) { return getIfMetaSqlAccess ( ) . getRule ( ) ; } public IfSqlCondElements getIfSqlCondAccess ( ) { return ( pIfSqlCond != null ) ? pIfSqlCond : ( pIfSqlCond = new IfSqlCondElements ( ) ) ; } public ParserRule getIfSqlCondRule ( ) { return getIfSqlCondAccess ( ) . getRule ( ) ; } public IfSqlBoolElements getIfSqlBoolAccess ( ) { return ( pIfSqlBool != null ) ? pIfSqlBool : ( pIfSqlBool = new IfSqlBoolElements ( ) ) ; } public ParserRule getIfSqlBoolRule ( ) { return getIfSqlBoolAccess ( ) . getRule ( ) ; } public OrdSqlElements getOrdSqlAccess ( ) { return ( pOrdSql != null ) ? pOrdSql : ( pOrdSql = new OrdSqlElements ( ) ) ; } public ParserRule getOrdSqlRule ( ) { return getOrdSqlAccess ( ) . getRule ( ) ; } public OrdSql2Elements getOrdSql2Access ( ) { return ( pOrdSql2 != null ) ? pOrdSql2 : ( pOrdSql2 = new OrdSql2Elements ( ) ) ; } public ParserRule getOrdSql2Rule ( ) { return getOrdSql2Access ( ) . getRule ( ) ; } public OrdSqlValueElements getOrdSqlValueAccess ( ) { return ( pOrdSqlValue != null ) ? pOrdSqlValue : ( pOrdSqlValue = new OrdSqlValueElements ( ) ) ; } public ParserRule getOrdSqlValueRule ( ) { return getOrdSqlValueAccess ( ) . getRule ( ) ; } public ColumnElements getColumnAccess ( ) { return ( pColumn != null ) ? pColumn : ( pColumn = new ColumnElements ( ) ) ; } public ParserRule getColumnRule ( ) { return getColumnAccess ( ) . getRule ( ) ; } public ConstantElements getConstantAccess ( ) { return ( pConstant != null ) ? pConstant : ( pConstant = new ConstantElements ( ) ) ; } public ParserRule getConstantRule ( ) { return getConstantAccess ( ) . getRule ( ) ; } public IdentifierElements getIdentifierAccess ( ) { return ( pIdentifier != null ) ? pIdentifier : ( pIdentifier = new IdentifierElements ( ) ) ; } public ParserRule getIdentifierRule ( ) { return getIdentifierAccess ( ) . getRule ( ) ; } public DatabaseColumnElements getDatabaseColumnAccess ( ) { return ( pDatabaseColumn != null ) ? pDatabaseColumn : ( pDatabaseColumn = new DatabaseColumnElements ( ) ) ; } public ParserRule getDatabaseColumnRule ( ) { return getDatabaseColumnAccess ( ) . getRule ( ) ; } public DatabaseTableElements getDatabaseTableAccess ( ) { return ( pDatabaseTable != null ) ? pDatabaseTable : ( pDatabaseTable = new DatabaseTableElements ( ) ) ; } public ParserRule getDatabaseTableRule ( ) { return getDatabaseTableAccess ( ) . getRule ( ) ; } public MappingRuleElements getMappingRuleAccess ( ) { return ( pMappingRule != null ) ? pMappingRule : ( pMappingRule = new MappingRuleElements ( ) ) ; } public ParserRule getMappingRuleRule ( ) { return getMappingRuleAccess ( ) . getRule ( ) ; } public MappingElements getMappingAccess ( ) { return ( pMapping != null ) ? pMapping : ( pMapping = new MappingElements ( ) ) ; } public ParserRule getMappingRule ( ) { return getMappingAccess ( ) . getRule ( ) ; } public MappingItemElements getMappingItemAccess ( ) { return ( pMappingItem != null ) ? pMappingItem : ( pMappingItem = new MappingItemElements ( ) ) ; } public ParserRule getMappingItemRule ( ) { return getMappingItemAccess ( ) . getRule ( ) ; } public MappingColumnElements getMappingColumnAccess ( ) { return ( pMappingColumn != null ) ? pMappingColumn : ( pMappingColumn = new MappingColumnElements ( ) ) ; } public ParserRule getMappingColumnRule ( ) { return getMappingColumnAccess ( ) . getRule ( ) ; } public OptionalFeatureElements getOptionalFeatureAccess ( ) { return ( pOptionalFeature != null ) ? pOptionalFeature : ( pOptionalFeature = new OptionalFeatureElements ( ) ) ; } public ParserRule getOptionalFeatureRule ( ) { return getOptionalFeatureAccess ( ) . getRule ( ) ; } public FeatureValueElements getFeatureValueAccess ( ) { return ( pFeatureValue != null ) ? pFeatureValue : ( pFeatureValue = new FeatureValueElements ( ) ) ; } public ParserRule getFeatureValueRule ( ) { return getFeatureValueAccess ( ) . getRule ( ) ; } public TerminalRule getON_OFFRule ( ) { return ( tON_OFF != null ) ? tON_OFF : ( tON_OFF = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getSTATEMEN_TYPERule ( ) { return ( tSTATEMEN_TYPE != null ) ? tSTATEMEN_TYPE : ( tSTATEMEN_TYPE = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getMAPPING_TYPERule ( ) { return ( tMAPPING_TYPE != null ) ? tMAPPING_TYPE : ( tMAPPING_TYPE = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getOPTION_TYPERule ( ) { return ( tOPTION_TYPE != null ) ? tOPTION_TYPE : ( tOPTION_TYPE = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getIDENT_DOTRule ( ) { return ( tIDENT_DOT != null ) ? tIDENT_DOT : ( tIDENT_DOT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getIDENTRule ( ) { return ( tIDENT != null ) ? tIDENT : ( tIDENT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getNUMBERRule ( ) { return ( tNUMBER != null ) ? tNUMBER : ( tNUMBER = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getESC_CHARRule ( ) { return ( tESC_CHAR != null ) ? tESC_CHAR : ( tESC_CHAR = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getML_COMMENTRule ( ) { return ( tML_COMMENT != null ) ? tML_COMMENT : ( tML_COMMENT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getSL_COMMENTRule ( ) { return ( tSL_COMMENT != null ) ? tSL_COMMENT : ( tSL_COMMENT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getWSRule ( ) { return ( tWS != null ) ? tWS : ( tWS = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getANDRule ( ) { return ( tAND != null ) ? tAND : ( tAND = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getORRule ( ) { return ( tOR != null ) ? tOR : ( tOR = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getCOLONRule ( ) { return ( tCOLON != null ) ? tCOLON : ( tCOLON = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getSEMICOLONRule ( ) { return ( tSEMICOLON != null ) ? tSEMICOLON : ( tSEMICOLON = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getSTRINGRule ( ) { return ( tSTRING != null ) ? tSTRING : ( tSTRING = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getCOMMARule ( ) { return ( tCOMMA != null ) ? tCOMMA : ( tCOMMA = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getMINUSRule ( ) { return ( tMINUS != null ) ? tMINUS : ( tMINUS = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getPLUSRule ( ) { return ( tPLUS != null ) ? tPLUS : ( tPLUS = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getLPARENRule ( ) { return ( tLPAREN != null ) ? tLPAREN : ( tLPAREN = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getRPARENRule ( ) { return ( tRPAREN != null ) ? tRPAREN : ( tRPAREN = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getLBRACERule ( ) { return ( tLBRACE != null ) ? tLBRACE : ( tLBRACE = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getRBRACERule ( ) { return ( tRBRACE != null ) ? tRBRACE : ( tRBRACE = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getQUESTIRule ( ) { return ( tQUESTI != null ) ? tQUESTI : ( tQUESTI = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getNOTRule ( ) { return ( tNOT != null ) ? tNOT : ( tNOT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getBANDRule ( ) { return ( tBAND != null ) ? tBAND : ( tBAND = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getBORRule ( ) { return ( tBOR != null ) ? tBOR : ( tBOR = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getHASHRule ( ) { return ( tHASH != null ) ? tHASH : ( tHASH = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getATRule ( ) { return ( tAT != null ) ? tAT : ( tAT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getCARETRule ( ) { return ( tCARET != null ) ? tCARET : ( tCARET = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getEQUALSRule ( ) { return ( tEQUALS != null ) ? tEQUALS : ( tEQUALS = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getLESS_THANRule ( ) { return ( tLESS_THAN != null ) ? tLESS_THAN : ( tLESS_THAN = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getMORE_THANRule ( ) { return ( tMORE_THAN != null ) ? tMORE_THAN : ( tMORE_THAN = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getPERCENTRule ( ) { return ( tPERCENT != null ) ? tPERCENT : ( tPERCENT = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } public TerminalRule getRESTRule ( ) { return ( tREST != null ) ? tREST : ( tREST = ( TerminalRule ) GrammarUtil . findRuleForName ( getGrammar ( ) , "<STR_LIT>" ) ) ; } } </s>
<s> package org . sqlproc . dsl . parser . antlr ; import java . io . InputStream ; import org . eclipse . xtext . parser . antlr . IAntlrTokenFileProvider ; public class ProcessorDslAntlrTokenFileProvider implements IAntlrTokenFileProvider { public InputStream getAntlrTokenFile ( ) { ClassLoader classLoader = getClass ( ) . getClassLoader ( ) ; return classLoader . getResourceAsStream ( "<STR_LIT>" ) ; } } </s>
<s> package org . sqlproc . dsl . parser . antlr ; import com . google . inject . Inject ; import org . eclipse . xtext . parser . antlr . XtextTokenStream ; import org . sqlproc . dsl . services . ProcessorDslGrammarAccess ; public class ProcessorDslParser extends org . eclipse . xtext . parser . antlr . AbstractAntlrParser { @ Inject private ProcessorDslGrammarAccess grammarAccess ; @ Override protected void setInitialHiddenTokens ( XtextTokenStream tokenStream ) { tokenStream . setInitialHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" ) ; } @ Override protected org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslParser createParser ( XtextTokenStream stream ) { return new org . sqlproc . dsl . parser . antlr . internal . InternalProcessorDslParser ( stream , getGrammarAccess ( ) ) ; } @ Override protected String getDefaultRuleName ( ) { return "<STR_LIT>" ; } public ProcessorDslGrammarAccess getGrammarAccess ( ) { return this . grammarAccess ; } public void setGrammarAccess ( ProcessorDslGrammarAccess grammarAccess ) { this . grammarAccess = grammarAccess ; } } </s>
<s> package org . sqlproc . dsl . parser . antlr . internal ; import org . eclipse . xtext . parser . antlr . Lexer ; import org . antlr . runtime . * ; import java . util . Stack ; import java . util . List ; import java . util . ArrayList ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class InternalProcessorDslLexer extends Lexer { public static final int RULE_SEMICOLON = <NUM_LIT:6> ; public static final int RULE_OR = <NUM_LIT:32> ; public static final int RULE_PERCENT = <NUM_LIT:30> ; public static final int RULE_OPTION_TYPE = <NUM_LIT> ; public static final int RULE_AND = <NUM_LIT:31> ; public static final int EOF = - <NUM_LIT:1> ; public static final int RULE_NOT = <NUM_LIT> ; public static final int RULE_REST = <NUM_LIT:7> ; public static final int T__51 = <NUM_LIT> ; public static final int T__52 = <NUM_LIT> ; public static final int T__53 = <NUM_LIT> ; public static final int RULE_NUMBER = <NUM_LIT:10> ; public static final int RULE_LPAREN = <NUM_LIT:16> ; public static final int RULE_LBRACE = <NUM_LIT> ; public static final int RULE_BOR = <NUM_LIT> ; public static final int RULE_IDENT_DOT = <NUM_LIT:8> ; public static final int T__50 = <NUM_LIT> ; public static final int T__42 = <NUM_LIT> ; public static final int T__43 = <NUM_LIT> ; public static final int RULE_BAND = <NUM_LIT> ; public static final int T__40 = <NUM_LIT> ; public static final int T__41 = <NUM_LIT> ; public static final int T__46 = <NUM_LIT> ; public static final int T__47 = <NUM_LIT> ; public static final int RULE_RBRACE = <NUM_LIT> ; public static final int T__44 = <NUM_LIT> ; public static final int T__45 = <NUM_LIT> ; public static final int RULE_CARET = <NUM_LIT> ; public static final int T__48 = <NUM_LIT> ; public static final int RULE_MORE_THAN = <NUM_LIT> ; public static final int T__49 = <NUM_LIT> ; public static final int RULE_STATEMEN_TYPE = <NUM_LIT> ; public static final int RULE_PLUS = <NUM_LIT:15> ; public static final int RULE_COMMA = <NUM_LIT> ; public static final int RULE_HASH = <NUM_LIT:24> ; public static final int RULE_SL_COMMENT = <NUM_LIT> ; public static final int RULE_QUESTI = <NUM_LIT:20> ; public static final int RULE_ML_COMMENT = <NUM_LIT> ; public static final int RULE_ON_OFF = <NUM_LIT:5> ; public static final int RULE_COLON = <NUM_LIT:11> ; public static final int RULE_MINUS = <NUM_LIT> ; public static final int RULE_STRING = <NUM_LIT:12> ; public static final int RULE_ESC_CHAR = <NUM_LIT> ; public static final int RULE_IDENT = <NUM_LIT:9> ; public static final int T__39 = <NUM_LIT> ; public static final int RULE_EQUALS = <NUM_LIT> ; public static final int RULE_RPAREN = <NUM_LIT> ; public static final int RULE_LESS_THAN = <NUM_LIT> ; public static final int RULE_WS = <NUM_LIT:4> ; public static final int RULE_MAPPING_TYPE = <NUM_LIT> ; public static final int RULE_AT = <NUM_LIT> ; public InternalProcessorDslLexer ( ) { ; } public InternalProcessorDslLexer ( CharStream input ) { this ( input , new RecognizerSharedState ( ) ) ; } public InternalProcessorDslLexer ( CharStream input , RecognizerSharedState state ) { super ( input , state ) ; } public String getGrammarFileName ( ) { return "<STR_LIT>" ; } public final void mT__39 ( ) throws RecognitionException { try { int _type = T__39 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__40 ( ) throws RecognitionException { try { int _type = T__40 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__41 ( ) throws RecognitionException { try { int _type = T__41 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__42 ( ) throws RecognitionException { try { int _type = T__42 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__43 ( ) throws RecognitionException { try { int _type = T__43 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__44 ( ) throws RecognitionException { try { int _type = T__44 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__45 ( ) throws RecognitionException { try { int _type = T__45 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__46 ( ) throws RecognitionException { try { int _type = T__46 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__47 ( ) throws RecognitionException { try { int _type = T__47 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__48 ( ) throws RecognitionException { try { int _type = T__48 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__49 ( ) throws RecognitionException { try { int _type = T__49 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__50 ( ) throws RecognitionException { try { int _type = T__50 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__51 ( ) throws RecognitionException { try { int _type = T__51 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__52 ( ) throws RecognitionException { try { int _type = T__52 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mT__53 ( ) throws RecognitionException { try { int _type = T__53 ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_ON_OFF ( ) throws RecognitionException { try { int _type = RULE_ON_OFF ; int _channel = DEFAULT_TOKEN_CHANNEL ; { int alt1 = <NUM_LIT:2> ; int LA1_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA1_0 == '<CHAR_LIT>' ) ) { int LA1_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA1_1 == '<CHAR_LIT>' ) ) { alt1 = <NUM_LIT:1> ; } else if ( ( LA1_1 == '<CHAR_LIT>' ) ) { alt1 = <NUM_LIT:2> ; } else { NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:1> , <NUM_LIT:1> , input ) ; throw nvae ; } } else { NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:1> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt1 ) { case <NUM_LIT:1> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:2> : { match ( "<STR_LIT>" ) ; } break ; } } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_STATEMEN_TYPE ( ) throws RecognitionException { try { int _type = RULE_STATEMEN_TYPE ; int _channel = DEFAULT_TOKEN_CHANNEL ; { int alt2 = <NUM_LIT:3> ; int LA2_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA2_0 == '<CHAR_LIT>' ) ) { alt2 = <NUM_LIT:1> ; } else if ( ( LA2_0 == '<CHAR_LIT>' ) ) { int LA2_2 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA2_2 == '<CHAR_LIT>' ) ) { alt2 = <NUM_LIT:2> ; } else if ( ( LA2_2 == '<CHAR_LIT:A>' ) ) { alt2 = <NUM_LIT:3> ; } else { NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:2> , <NUM_LIT:2> , input ) ; throw nvae ; } } else { NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:2> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt2 ) { case <NUM_LIT:1> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:2> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:3> : { match ( "<STR_LIT>" ) ; } break ; } } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_MAPPING_TYPE ( ) throws RecognitionException { try { int _type = RULE_MAPPING_TYPE ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_OPTION_TYPE ( ) throws RecognitionException { try { int _type = RULE_OPTION_TYPE ; int _channel = DEFAULT_TOKEN_CHANNEL ; { int alt3 = <NUM_LIT:5> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case '<CHAR_LIT>' : { alt3 = <NUM_LIT:1> ; } break ; case '<CHAR_LIT>' : { alt3 = <NUM_LIT:2> ; } break ; case '<CHAR_LIT>' : { alt3 = <NUM_LIT:3> ; } break ; case '<CHAR_LIT>' : { alt3 = <NUM_LIT:4> ; } break ; case '<CHAR_LIT>' : { alt3 = <NUM_LIT:5> ; } break ; default : NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:3> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt3 ) { case <NUM_LIT:1> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:2> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:3> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:4> : { match ( "<STR_LIT>" ) ; } break ; case <NUM_LIT:5> : { match ( "<STR_LIT>" ) ; } break ; } } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_IDENT_DOT ( ) throws RecognitionException { try { int _type = RULE_IDENT_DOT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { mRULE_IDENT ( ) ; int cnt4 = <NUM_LIT:0> ; loop4 : do { int alt4 = <NUM_LIT:2> ; int LA4_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA4_0 == '<CHAR_LIT:.>' ) ) { alt4 = <NUM_LIT:1> ; } switch ( alt4 ) { case <NUM_LIT:1> : { match ( '<CHAR_LIT:.>' ) ; mRULE_IDENT ( ) ; } break ; default : if ( cnt4 >= <NUM_LIT:1> ) break loop4 ; EarlyExitException eee = new EarlyExitException ( <NUM_LIT:4> , input ) ; throw eee ; } cnt4 ++ ; } while ( true ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_IDENT ( ) throws RecognitionException { try { int _type = RULE_IDENT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { if ( ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:A>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:Z>' ) \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:a>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } loop5 : do { int alt5 = <NUM_LIT:2> ; int LA5_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA5_0 >= '<CHAR_LIT:0>' && LA5_0 <= '<CHAR_LIT:9>' ) \|\| LA5_0 == '<CHAR_LIT:=>' \|\| ( LA5_0 >= '<CHAR_LIT:A>' && LA5_0 <= '<CHAR_LIT:Z>' ) \|\| LA5_0 == '<CHAR_LIT:_>' \|\| ( LA5_0 >= '<CHAR_LIT:a>' && LA5_0 <= '<CHAR_LIT>' ) ) ) { alt5 = <NUM_LIT:1> ; } switch ( alt5 ) { case <NUM_LIT:1> : { if ( ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:0>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:9>' ) \|\| input . LA ( <NUM_LIT:1> ) == '<CHAR_LIT:=>' \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:A>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:Z>' ) \|\| input . LA ( <NUM_LIT:1> ) == '<CHAR_LIT:_>' \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT:a>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } } break ; default : break loop5 ; } } while ( true ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_NUMBER ( ) throws RecognitionException { try { int _type = RULE_NUMBER ; int _channel = DEFAULT_TOKEN_CHANNEL ; { int cnt6 = <NUM_LIT:0> ; loop6 : do { int alt6 = <NUM_LIT:2> ; int LA6_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA6_0 >= '<CHAR_LIT:0>' && LA6_0 <= '<CHAR_LIT:9>' ) ) ) { alt6 = <NUM_LIT:1> ; } switch ( alt6 ) { case <NUM_LIT:1> : { matchRange ( '<CHAR_LIT:0>' , '<CHAR_LIT:9>' ) ; } break ; default : if ( cnt6 >= <NUM_LIT:1> ) break loop6 ; EarlyExitException eee = new EarlyExitException ( <NUM_LIT:6> , input ) ; throw eee ; } cnt6 ++ ; } while ( true ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_ESC_CHAR ( ) throws RecognitionException { try { int _type = RULE_ESC_CHAR ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<STR_LIT:\\>' ) ; if ( ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT>' ) \|\| input . LA ( <NUM_LIT:1> ) == '<CHAR_LIT:/>' \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT::>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:;>' ) \|\| input . LA ( <NUM_LIT:1> ) == '<CHAR_LIT>' \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT:}>' ) ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_ML_COMMENT ( ) throws RecognitionException { try { int _type = RULE_ML_COMMENT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; loop7 : do { int alt7 = <NUM_LIT:2> ; int LA7_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA7_0 == '<CHAR_LIT>' ) ) { int LA7_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA7_1 == '<CHAR_LIT:/>' ) ) { alt7 = <NUM_LIT:2> ; } else if ( ( ( LA7_1 >= '<CHAR_LIT>' && LA7_1 <= '<CHAR_LIT:.>' ) \|\| ( LA7_1 >= '<CHAR_LIT:0>' && LA7_1 <= '<STR_LIT>' ) ) ) { alt7 = <NUM_LIT:1> ; } } else if ( ( ( LA7_0 >= '<CHAR_LIT>' && LA7_0 <= '<CHAR_LIT:)>' ) \|\| ( LA7_0 >= '<CHAR_LIT>' && LA7_0 <= '<STR_LIT>' ) ) ) { alt7 = <NUM_LIT:1> ; } switch ( alt7 ) { case <NUM_LIT:1> : { matchAny ( ) ; } break ; default : break loop7 ; } } while ( true ) ; match ( "<STR_LIT>" ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_SL_COMMENT ( ) throws RecognitionException { try { int _type = RULE_SL_COMMENT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( "<STR_LIT>" ) ; loop8 : do { int alt8 = <NUM_LIT:2> ; int LA8_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA8_0 >= '<CHAR_LIT>' && LA8_0 <= '<STR_LIT:\t>' ) \|\| ( LA8_0 >= '<CHAR_LIT>' && LA8_0 <= '<STR_LIT>' ) \|\| ( LA8_0 >= '<CHAR_LIT>' && LA8_0 <= '<STR_LIT>' ) ) ) { alt8 = <NUM_LIT:1> ; } switch ( alt8 ) { case <NUM_LIT:1> : { if ( ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<STR_LIT:\t>' ) \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } } break ; default : break loop8 ; } } while ( true ) ; int alt10 = <NUM_LIT:2> ; int LA10_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA10_0 == '<STR_LIT:\n>' \|\| LA10_0 == '<STR_LIT>' ) ) { alt10 = <NUM_LIT:1> ; } switch ( alt10 ) { case <NUM_LIT:1> : { int alt9 = <NUM_LIT:2> ; int LA9_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA9_0 == '<STR_LIT>' ) ) { alt9 = <NUM_LIT:1> ; } switch ( alt9 ) { case <NUM_LIT:1> : { match ( '<STR_LIT>' ) ; } break ; } match ( '<STR_LIT:\n>' ) ; } break ; } } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_WS ( ) throws RecognitionException { try { int _type = RULE_WS ; int _channel = DEFAULT_TOKEN_CHANNEL ; { int cnt11 = <NUM_LIT:0> ; loop11 : do { int alt11 = <NUM_LIT:2> ; int LA11_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA11_0 >= '<STR_LIT:\t>' && LA11_0 <= '<STR_LIT:\n>' ) \|\| LA11_0 == '<STR_LIT>' \|\| LA11_0 == '<CHAR_LIT:U+0020>' ) ) { alt11 = <NUM_LIT:1> ; } switch ( alt11 ) { case <NUM_LIT:1> : { if ( ( input . LA ( <NUM_LIT:1> ) >= '<STR_LIT:\t>' && input . LA ( <NUM_LIT:1> ) <= '<STR_LIT:\n>' ) \|\| input . LA ( <NUM_LIT:1> ) == '<STR_LIT>' \|\| input . LA ( <NUM_LIT:1> ) == '<CHAR_LIT:U+0020>' ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } } break ; default : if ( cnt11 >= <NUM_LIT:1> ) break loop11 ; EarlyExitException eee = new EarlyExitException ( <NUM_LIT:11> , input ) ; throw eee ; } cnt11 ++ ; } while ( true ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_AND ( ) throws RecognitionException { try { int _type = RULE_AND ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_OR ( ) throws RecognitionException { try { int _type = RULE_OR ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_COLON ( ) throws RecognitionException { try { int _type = RULE_COLON ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT::>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_SEMICOLON ( ) throws RecognitionException { try { int _type = RULE_SEMICOLON ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:;>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_STRING ( ) throws RecognitionException { try { int _type = RULE_STRING ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_COMMA ( ) throws RecognitionException { try { int _type = RULE_COMMA ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:U+002C>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_MINUS ( ) throws RecognitionException { try { int _type = RULE_MINUS ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:->' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_PLUS ( ) throws RecognitionException { try { int _type = RULE_PLUS ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_LPAREN ( ) throws RecognitionException { try { int _type = RULE_LPAREN ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:(>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_RPAREN ( ) throws RecognitionException { try { int _type = RULE_RPAREN ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:)>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_LBRACE ( ) throws RecognitionException { try { int _type = RULE_LBRACE ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_RBRACE ( ) throws RecognitionException { try { int _type = RULE_RBRACE ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:}>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_QUESTI ( ) throws RecognitionException { try { int _type = RULE_QUESTI ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_NOT ( ) throws RecognitionException { try { int _type = RULE_NOT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_BAND ( ) throws RecognitionException { try { int _type = RULE_BAND ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_BOR ( ) throws RecognitionException { try { int _type = RULE_BOR ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_HASH ( ) throws RecognitionException { try { int _type = RULE_HASH ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_AT ( ) throws RecognitionException { try { int _type = RULE_AT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_CARET ( ) throws RecognitionException { try { int _type = RULE_CARET ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_EQUALS ( ) throws RecognitionException { try { int _type = RULE_EQUALS ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:=>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_LESS_THAN ( ) throws RecognitionException { try { int _type = RULE_LESS_THAN ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_MORE_THAN ( ) throws RecognitionException { try { int _type = RULE_MORE_THAN ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT:>>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_PERCENT ( ) throws RecognitionException { try { int _type = RULE_PERCENT ; int _channel = DEFAULT_TOKEN_CHANNEL ; { match ( '<CHAR_LIT>' ) ; } state . type = _type ; state . channel = _channel ; } finally { } } public final void mRULE_REST ( ) throws RecognitionException { try { int _type = RULE_REST ; int _channel = DEFAULT_TOKEN_CHANNEL ; { if ( ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<CHAR_LIT::>' ) \|\| ( input . LA ( <NUM_LIT:1> ) >= '<CHAR_LIT>' && input . LA ( <NUM_LIT:1> ) <= '<STR_LIT>' ) ) { input . consume ( ) ; } else { MismatchedSetException mse = new MismatchedSetException ( null , input ) ; recover ( mse ) ; throw mse ; } } state . type = _type ; state . channel = _channel ; } finally { } } public void mTokens ( ) throws RecognitionException { int alt12 = <NUM_LIT> ; alt12 = dfa12 . predict ( input ) ; switch ( alt12 ) { case <NUM_LIT:1> : { mT__39 ( ) ; } break ; case <NUM_LIT:2> : { mT__40 ( ) ; } break ; case <NUM_LIT:3> : { mT__41 ( ) ; } break ; case <NUM_LIT:4> : { mT__42 ( ) ; } break ; case <NUM_LIT:5> : { mT__43 ( ) ; } break ; case <NUM_LIT:6> : { mT__44 ( ) ; } break ; case <NUM_LIT:7> : { mT__45 ( ) ; } break ; case <NUM_LIT:8> : { mT__46 ( ) ; } break ; case <NUM_LIT:9> : { mT__47 ( ) ; } break ; case <NUM_LIT:10> : { mT__48 ( ) ; } break ; case <NUM_LIT:11> : { mT__49 ( ) ; } break ; case <NUM_LIT:12> : { mT__50 ( ) ; } break ; case <NUM_LIT> : { mT__51 ( ) ; } break ; case <NUM_LIT> : { mT__52 ( ) ; } break ; case <NUM_LIT:15> : { mT__53 ( ) ; } break ; case <NUM_LIT:16> : { mRULE_ON_OFF ( ) ; } break ; case <NUM_LIT> : { mRULE_STATEMEN_TYPE ( ) ; } break ; case <NUM_LIT> : { mRULE_MAPPING_TYPE ( ) ; } break ; case <NUM_LIT> : { mRULE_OPTION_TYPE ( ) ; } break ; case <NUM_LIT:20> : { mRULE_IDENT_DOT ( ) ; } break ; case <NUM_LIT> : { mRULE_IDENT ( ) ; } break ; case <NUM_LIT> : { mRULE_NUMBER ( ) ; } break ; case <NUM_LIT> : { mRULE_ESC_CHAR ( ) ; } break ; case <NUM_LIT:24> : { mRULE_ML_COMMENT ( ) ; } break ; case <NUM_LIT> : { mRULE_SL_COMMENT ( ) ; } break ; case <NUM_LIT> : { mRULE_WS ( ) ; } break ; case <NUM_LIT> : { mRULE_AND ( ) ; } break ; case <NUM_LIT> : { mRULE_OR ( ) ; } break ; case <NUM_LIT> : { mRULE_COLON ( ) ; } break ; case <NUM_LIT:30> : { mRULE_SEMICOLON ( ) ; } break ; case <NUM_LIT:31> : { mRULE_STRING ( ) ; } break ; case <NUM_LIT:32> : { mRULE_COMMA ( ) ; } break ; case <NUM_LIT> : { mRULE_MINUS ( ) ; } break ; case <NUM_LIT> : { mRULE_PLUS ( ) ; } break ; case <NUM_LIT> : { mRULE_LPAREN ( ) ; } break ; case <NUM_LIT> : { mRULE_RPAREN ( ) ; } break ; case <NUM_LIT> : { mRULE_LBRACE ( ) ; } break ; case <NUM_LIT> : { mRULE_RBRACE ( ) ; } break ; case <NUM_LIT> : { mRULE_QUESTI ( ) ; } break ; case <NUM_LIT> : { mRULE_NOT ( ) ; } break ; case <NUM_LIT> : { mRULE_BAND ( ) ; } break ; case <NUM_LIT> : { mRULE_BOR ( ) ; } break ; case <NUM_LIT> : { mRULE_HASH ( ) ; } break ; case <NUM_LIT> : { mRULE_AT ( ) ; } break ; case <NUM_LIT> : { mRULE_CARET ( ) ; } break ; case <NUM_LIT> : { mRULE_EQUALS ( ) ; } break ; case <NUM_LIT> : { mRULE_LESS_THAN ( ) ; } break ; case <NUM_LIT> : { mRULE_MORE_THAN ( ) ; } break ; case <NUM_LIT> : { mRULE_PERCENT ( ) ; } break ; case <NUM_LIT> : { mRULE_REST ( ) ; } break ; } } protected DFA12 dfa12 = new DFA12 ( this ) ; static final String DFA12_eotS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String DFA12_eofS = "<STR_LIT>" ; static final String DFA12_minS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String DFA12_maxS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String DFA12_acceptS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String DFA12_specialS = "<STR_LIT>" ; static final String [ ] DFA12_transitionS = { "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA12_eot = DFA . unpackEncodedString ( DFA12_eotS ) ; static final short [ ] DFA12_eof = DFA . unpackEncodedString ( DFA12_eofS ) ; static final char [ ] DFA12_min = DFA . unpackEncodedStringToUnsignedChars ( DFA12_minS ) ; static final char [ ] DFA12_max = DFA . unpackEncodedStringToUnsignedChars ( DFA12_maxS ) ; static final short [ ] DFA12_accept = DFA . unpackEncodedString ( DFA12_acceptS ) ; static final short [ ] DFA12_special = DFA . unpackEncodedString ( DFA12_specialS ) ; static final short [ ] [ ] DFA12_transition ; static { int numStates = DFA12_transitionS . length ; DFA12_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA12_transition [ i ] = DFA . unpackEncodedString ( DFA12_transitionS [ i ] ) ; } } class DFA12 extends DFA { public DFA12 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT:12> ; this . eot = DFA12_eot ; this . eof = DFA12_eof ; this . min = DFA12_min ; this . max = DFA12_max ; this . accept = DFA12_accept ; this . special = DFA12_special ; this . transition = DFA12_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } public int specialStateTransition ( int s , IntStream _input ) throws NoViableAltException { IntStream input = _input ; int _s = s ; switch ( s ) { case <NUM_LIT:0> : int LA12_0 = input . LA ( <NUM_LIT:1> ) ; s = - <NUM_LIT:1> ; if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:1> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:2> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:3> ; } else if ( ( LA12_0 == '<CHAR_LIT:c>' ) ) { s = <NUM_LIT:4> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:5> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:6> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:7> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:8> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:9> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:10> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:11> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:12> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:A>' \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) \|\| LA12_0 == '<CHAR_LIT>' \|\| LA12_0 == '<CHAR_LIT>' \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT:Z>' ) \|\| ( LA12_0 >= '<CHAR_LIT:a>' && LA12_0 <= '<CHAR_LIT:b>' ) \|\| ( LA12_0 >= '<CHAR_LIT:e>' && LA12_0 <= '<CHAR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) \|\| LA12_0 == '<CHAR_LIT>' \|\| LA12_0 == '<CHAR_LIT>' \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) ) ) { s = <NUM_LIT:15> ; } else if ( ( ( LA12_0 >= '<CHAR_LIT:0>' && LA12_0 <= '<CHAR_LIT:9>' ) ) ) { s = <NUM_LIT:16> ; } else if ( ( LA12_0 == '<STR_LIT:\\>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:/>' ) ) { s = <NUM_LIT> ; } else if ( ( ( LA12_0 >= '<STR_LIT:\t>' && LA12_0 <= '<STR_LIT:\n>' ) \|\| LA12_0 == '<STR_LIT>' \|\| LA12_0 == '<CHAR_LIT:U+0020>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:20> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT::>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:;>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:24> ; } else if ( ( LA12_0 == '<CHAR_LIT:U+002C>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:->' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:(>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:)>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:30> ; } else if ( ( LA12_0 == '<CHAR_LIT:}>' ) ) { s = <NUM_LIT:31> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT:32> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:=>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT:>>' ) ) { s = <NUM_LIT> ; } else if ( ( LA12_0 == '<CHAR_LIT>' ) ) { s = <NUM_LIT> ; } else if ( ( ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<STR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<STR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<CHAR_LIT>' ) \|\| LA12_0 == '<STR_LIT:\">' \|\| LA12_0 == '<STR_LIT>' \|\| LA12_0 == '<CHAR_LIT>' \|\| LA12_0 == '<CHAR_LIT:.>' \|\| LA12_0 == '<CHAR_LIT:[>' \|\| LA12_0 == '<CHAR_LIT:]>' \|\| ( LA12_0 >= '<CHAR_LIT:_>' && LA12_0 <= '<CHAR_LIT>' ) \|\| ( LA12_0 >= '<CHAR_LIT>' && LA12_0 <= '<STR_LIT>' ) ) ) { s = <NUM_LIT> ; } if ( s >= <NUM_LIT:0> ) return s ; break ; } NoViableAltException nvae = new NoViableAltException ( getDescription ( ) , <NUM_LIT:12> , _s , input ) ; error ( nvae ) ; throw nvae ; } } } </s>
<s> package org . sqlproc . dsl . parser . antlr . internal ; import org . eclipse . xtext . * ; import org . eclipse . xtext . parser . * ; import org . eclipse . xtext . parser . impl . * ; import org . eclipse . emf . ecore . util . EcoreUtil ; import org . eclipse . emf . ecore . EObject ; import org . eclipse . xtext . parser . antlr . AbstractInternalAntlrParser ; import org . eclipse . xtext . parser . antlr . XtextTokenStream ; import org . eclipse . xtext . parser . antlr . XtextTokenStream . HiddenTokens ; import org . eclipse . xtext . parser . antlr . AntlrDatatypeRuleToken ; import org . sqlproc . dsl . services . ProcessorDslGrammarAccess ; import org . antlr . runtime . * ; import java . util . Stack ; import java . util . List ; import java . util . ArrayList ; import java . util . Map ; import java . util . HashMap ; @ SuppressWarnings ( "<STR_LIT:all>" ) public class InternalProcessorDslParser extends AbstractInternalAntlrParser { public static final String [ ] tokenNames = new String [ ] { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; public static final int RULE_SEMICOLON = <NUM_LIT:6> ; public static final int RULE_OR = <NUM_LIT:32> ; public static final int RULE_PERCENT = <NUM_LIT:30> ; public static final int RULE_OPTION_TYPE = <NUM_LIT> ; public static final int RULE_AND = <NUM_LIT:31> ; public static final int EOF = - <NUM_LIT:1> ; public static final int RULE_NOT = <NUM_LIT> ; public static final int T__51 = <NUM_LIT> ; public static final int RULE_REST = <NUM_LIT:7> ; public static final int T__52 = <NUM_LIT> ; public static final int T__53 = <NUM_LIT> ; public static final int RULE_NUMBER = <NUM_LIT:10> ; public static final int RULE_LPAREN = <NUM_LIT:16> ; public static final int RULE_LBRACE = <NUM_LIT> ; public static final int RULE_BOR = <NUM_LIT> ; public static final int RULE_IDENT_DOT = <NUM_LIT:8> ; public static final int T__50 = <NUM_LIT> ; public static final int T__42 = <NUM_LIT> ; public static final int T__43 = <NUM_LIT> ; public static final int RULE_BAND = <NUM_LIT> ; public static final int T__40 = <NUM_LIT> ; public static final int T__41 = <NUM_LIT> ; public static final int T__46 = <NUM_LIT> ; public static final int T__47 = <NUM_LIT> ; public static final int RULE_RBRACE = <NUM_LIT> ; public static final int T__44 = <NUM_LIT> ; public static final int T__45 = <NUM_LIT> ; public static final int RULE_CARET = <NUM_LIT> ; public static final int T__48 = <NUM_LIT> ; public static final int RULE_MORE_THAN = <NUM_LIT> ; public static final int T__49 = <NUM_LIT> ; public static final int RULE_STATEMEN_TYPE = <NUM_LIT> ; public static final int RULE_PLUS = <NUM_LIT:15> ; public static final int RULE_COMMA = <NUM_LIT> ; public static final int RULE_HASH = <NUM_LIT:24> ; public static final int RULE_SL_COMMENT = <NUM_LIT> ; public static final int RULE_QUESTI = <NUM_LIT:20> ; public static final int RULE_ML_COMMENT = <NUM_LIT> ; public static final int RULE_ON_OFF = <NUM_LIT:5> ; public static final int RULE_COLON = <NUM_LIT:11> ; public static final int RULE_MINUS = <NUM_LIT> ; public static final int RULE_STRING = <NUM_LIT:12> ; public static final int RULE_ESC_CHAR = <NUM_LIT> ; public static final int RULE_IDENT = <NUM_LIT:9> ; public static final int T__39 = <NUM_LIT> ; public static final int RULE_EQUALS = <NUM_LIT> ; public static final int RULE_RPAREN = <NUM_LIT> ; public static final int RULE_WS = <NUM_LIT:4> ; public static final int RULE_LESS_THAN = <NUM_LIT> ; public static final int RULE_MAPPING_TYPE = <NUM_LIT> ; public static final int RULE_AT = <NUM_LIT> ; public InternalProcessorDslParser ( TokenStream input ) { this ( input , new RecognizerSharedState ( ) ) ; } public InternalProcessorDslParser ( TokenStream input , RecognizerSharedState state ) { super ( input , state ) ; } public String [ ] getTokenNames ( ) { return InternalProcessorDslParser . tokenNames ; } public String getGrammarFileName ( ) { return "<STR_LIT>" ; } private ProcessorDslGrammarAccess grammarAccess ; public InternalProcessorDslParser ( TokenStream input , ProcessorDslGrammarAccess grammarAccess ) { this ( input ) ; this . grammarAccess = grammarAccess ; registerRules ( grammarAccess . getGrammar ( ) ) ; } @ Override protected String getFirstRuleName ( ) { return "<STR_LIT>" ; } @ Override protected ProcessorDslGrammarAccess getGrammarAccess ( ) { return grammarAccess ; } public final EObject entryRuleArtifacts ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleArtifacts = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsRule ( ) ) ; } pushFollow ( FOLLOW_ruleArtifacts_in_entryRuleArtifacts75 ) ; iv_ruleArtifacts = ruleArtifacts ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleArtifacts ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleArtifacts85 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleArtifacts ( ) throws RecognitionException { EObject current = null ; Token this_WS_0 = null ; Token this_WS_2 = null ; Token this_WS_4 = null ; Token this_WS_6 = null ; Token this_WS_8 = null ; Token this_WS_10 = null ; Token this_WS_12 = null ; Token this_WS_14 = null ; Token this_WS_16 = null ; EObject lv_features_1_0 = null ; EObject lv_statements_3_0 = null ; EObject lv_mappings_5_0 = null ; EObject lv_pojos_7_0 = null ; EObject lv_usages_9_0 = null ; EObject lv_properties_11_0 = null ; EObject lv_tables_13_0 = null ; EObject lv_tableUsages_15_0 = null ; enterRule ( ) ; try { { { loop1 : do { int alt1 = <NUM_LIT:2> ; int LA1_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA1_0 == RULE_WS ) ) { alt1 = <NUM_LIT:1> ; } switch ( alt1 ) { case <NUM_LIT:1> : { this_WS_0 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts122 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_0 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; } } break ; default : break loop1 ; } } while ( true ) ; int cnt10 = <NUM_LIT:0> ; loop10 : do { int alt10 = <NUM_LIT:9> ; alt10 = dfa10 . predict ( input ) ; switch ( alt10 ) { case <NUM_LIT:1> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getFeaturesOptionalFeatureParserRuleCall_1_0_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleOptionalFeature_in_ruleArtifacts146 ) ; lv_features_1_0 = ruleOptionalFeature ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_features_1_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop2 : do { int alt2 = <NUM_LIT:2> ; int LA2_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA2_0 == RULE_WS ) ) { alt2 = <NUM_LIT:1> ; } switch ( alt2 ) { case <NUM_LIT:1> : { this_WS_2 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts158 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_2 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_0_1 ( ) ) ; } } break ; default : break loop2 ; } } while ( true ) ; } } break ; case <NUM_LIT:2> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getStatementsMetaStatementParserRuleCall_1_1_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMetaStatement_in_ruleArtifacts188 ) ; lv_statements_3_0 = ruleMetaStatement ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_statements_3_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop3 : do { int alt3 = <NUM_LIT:2> ; int LA3_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA3_0 == RULE_WS ) ) { alt3 = <NUM_LIT:1> ; } switch ( alt3 ) { case <NUM_LIT:1> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts200 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_1_1 ( ) ) ; } } break ; default : break loop3 ; } } while ( true ) ; } } break ; case <NUM_LIT:3> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getMappingsMappingRuleParserRuleCall_1_2_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMappingRule_in_ruleArtifacts230 ) ; lv_mappings_5_0 = ruleMappingRule ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_mappings_5_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop4 : do { int alt4 = <NUM_LIT:2> ; int LA4_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA4_0 == RULE_WS ) ) { alt4 = <NUM_LIT:1> ; } switch ( alt4 ) { case <NUM_LIT:1> : { this_WS_6 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts242 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_6 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_2_1 ( ) ) ; } } break ; default : break loop4 ; } } while ( true ) ; } } break ; case <NUM_LIT:4> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getPojosPojoDefinitionParserRuleCall_1_3_0_0 ( ) ) ; } pushFollow ( FOLLOW_rulePojoDefinition_in_ruleArtifacts272 ) ; lv_pojos_7_0 = rulePojoDefinition ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_pojos_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop5 : do { int alt5 = <NUM_LIT:2> ; int LA5_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA5_0 == RULE_WS ) ) { alt5 = <NUM_LIT:1> ; } switch ( alt5 ) { case <NUM_LIT:1> : { this_WS_8 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts284 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_8 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_3_1 ( ) ) ; } } break ; default : break loop5 ; } } while ( true ) ; } } break ; case <NUM_LIT:5> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getUsagesPojoUsageParserRuleCall_1_4_0_0 ( ) ) ; } pushFollow ( FOLLOW_rulePojoUsage_in_ruleArtifacts314 ) ; lv_usages_9_0 = rulePojoUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_usages_9_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop6 : do { int alt6 = <NUM_LIT:2> ; int LA6_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA6_0 == RULE_WS ) ) { alt6 = <NUM_LIT:1> ; } switch ( alt6 ) { case <NUM_LIT:1> : { this_WS_10 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts326 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_10 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_4_1 ( ) ) ; } } break ; default : break loop6 ; } } while ( true ) ; } } break ; case <NUM_LIT:6> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getPropertiesPropertyParserRuleCall_1_5_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleProperty_in_ruleArtifacts356 ) ; lv_properties_11_0 = ruleProperty ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_properties_11_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop7 : do { int alt7 = <NUM_LIT:2> ; int LA7_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA7_0 == RULE_WS ) ) { alt7 = <NUM_LIT:1> ; } switch ( alt7 ) { case <NUM_LIT:1> : { this_WS_12 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts368 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_12 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_5_1 ( ) ) ; } } break ; default : break loop7 ; } } while ( true ) ; } } break ; case <NUM_LIT:7> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getTablesTableDefinitionParserRuleCall_1_6_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleTableDefinition_in_ruleArtifacts398 ) ; lv_tables_13_0 = ruleTableDefinition ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_tables_13_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop8 : do { int alt8 = <NUM_LIT:2> ; int LA8_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA8_0 == RULE_WS ) ) { alt8 = <NUM_LIT:1> ; } switch ( alt8 ) { case <NUM_LIT:1> : { this_WS_14 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts410 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_14 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_6_1 ( ) ) ; } } break ; default : break loop8 ; } } while ( true ) ; } } break ; case <NUM_LIT:8> : { { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getArtifactsAccess ( ) . getTableUsagesTableUsageParserRuleCall_1_7_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleTableUsage_in_ruleArtifacts440 ) ; lv_tableUsages_15_0 = ruleTableUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getArtifactsRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_tableUsages_15_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop9 : do { int alt9 = <NUM_LIT:2> ; int LA9_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA9_0 == RULE_WS ) ) { alt9 = <NUM_LIT:1> ; } switch ( alt9 ) { case <NUM_LIT:1> : { this_WS_16 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleArtifacts452 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_16 , grammarAccess . getArtifactsAccess ( ) . getWSTerminalRuleCall_1_7_1 ( ) ) ; } } break ; default : break loop9 ; } } while ( true ) ; } } break ; default : if ( cnt10 >= <NUM_LIT:1> ) break loop10 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:10> , input ) ; throw eee ; } cnt10 ++ ; } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleProperty ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleProperty = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyRule ( ) ) ; } pushFollow ( FOLLOW_ruleProperty_in_entryRuleProperty492 ) ; iv_ruleProperty = ruleProperty ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleProperty ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleProperty502 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleProperty ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_0 = null ; Token this_WS_1 = null ; Token lv_doResolvePojo_2_0 = null ; Token lv_name_3_0 = null ; Token this_WS_4 = null ; Token lv_doResolveDb_5_0 = null ; Token lv_name_6_0 = null ; Token this_WS_7 = null ; Token lv_name_9_0 = null ; Token this_WS_10 = null ; Token lv_name_12_0 = null ; Token this_WS_13 = null ; Token lv_name_15_0 = null ; Token this_WS_16 = null ; Token lv_name_18_0 = null ; Token this_WS_19 = null ; Token this_SEMICOLON_21 = null ; AntlrDatatypeRuleToken lv_dbUrl_8_0 = null ; AntlrDatatypeRuleToken lv_dbUsername_11_0 = null ; AntlrDatatypeRuleToken lv_dbPassword_14_0 = null ; AntlrDatatypeRuleToken lv_dbSchema_17_0 = null ; AntlrDatatypeRuleToken lv_dbDriver_20_0 = null ; enterRule ( ) ; try { { { int alt18 = <NUM_LIT:7> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case <NUM_LIT> : { alt18 = <NUM_LIT:1> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:2> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:3> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:4> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:5> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:6> ; } break ; case <NUM_LIT> : { alt18 = <NUM_LIT:7> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt18 ) { case <NUM_LIT:1> : { { { { lv_name_0_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_39_in_ruleProperty547 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_0 , grammarAccess . getPropertyAccess ( ) . getNameResolveReferencesKeyword_0_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_0 , "<STR_LIT>" ) ; } } } int cnt11 = <NUM_LIT:0> ; loop11 : do { int alt11 = <NUM_LIT:2> ; int LA11_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA11_0 == RULE_WS ) ) { alt11 = <NUM_LIT:1> ; } switch ( alt11 ) { case <NUM_LIT:1> : { this_WS_1 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty572 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_1 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_0_1 ( ) ) ; } } break ; default : if ( cnt11 >= <NUM_LIT:1> ) break loop11 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:11> , input ) ; throw eee ; } cnt11 ++ ; } while ( true ) ; { { lv_doResolvePojo_2_0 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleProperty590 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_doResolvePojo_2_0 , grammarAccess . getPropertyAccess ( ) . getDoResolvePojoON_OFFTerminalRuleCall_0_0_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_doResolvePojo_2_0 , "<STR_LIT>" ) ; } } } } } break ; case <NUM_LIT:2> : { { { { lv_name_3_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_40_in_ruleProperty621 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_3_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabaseOnlineKeyword_0_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_3_0 , "<STR_LIT>" ) ; } } } int cnt12 = <NUM_LIT:0> ; loop12 : do { int alt12 = <NUM_LIT:2> ; int LA12_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA12_0 == RULE_WS ) ) { alt12 = <NUM_LIT:1> ; } switch ( alt12 ) { case <NUM_LIT:1> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty646 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_1_1 ( ) ) ; } } break ; default : if ( cnt12 >= <NUM_LIT:1> ) break loop12 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:12> , input ) ; throw eee ; } cnt12 ++ ; } while ( true ) ; { { lv_doResolveDb_5_0 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleProperty664 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_doResolveDb_5_0 , grammarAccess . getPropertyAccess ( ) . getDoResolveDbON_OFFTerminalRuleCall_0_1_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_doResolveDb_5_0 , "<STR_LIT>" ) ; } } } } } break ; case <NUM_LIT:3> : { { { { lv_name_6_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_41_in_ruleProperty695 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_6_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabaseUrlKeyword_0_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_6_0 , "<STR_LIT>" ) ; } } } int cnt13 = <NUM_LIT:0> ; loop13 : do { int alt13 = <NUM_LIT:2> ; int LA13_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA13_0 == RULE_WS ) ) { alt13 = <NUM_LIT:1> ; } switch ( alt13 ) { case <NUM_LIT:1> : { this_WS_7 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty720 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_7 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_2_1 ( ) ) ; } } break ; default : if ( cnt13 >= <NUM_LIT:1> ) break loop13 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt13 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyAccess ( ) . getDbUrlPropertyValueParserRuleCall_0_2_2_0 ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_ruleProperty742 ) ; lv_dbUrl_8_0 = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getPropertyRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbUrl_8_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:4> : { { { { lv_name_9_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_42_in_ruleProperty768 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_9_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabaseUsernameKeyword_0_3_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_9_0 , "<STR_LIT>" ) ; } } } int cnt14 = <NUM_LIT:0> ; loop14 : do { int alt14 = <NUM_LIT:2> ; int LA14_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA14_0 == RULE_WS ) ) { alt14 = <NUM_LIT:1> ; } switch ( alt14 ) { case <NUM_LIT:1> : { this_WS_10 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty793 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_10 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_3_1 ( ) ) ; } } break ; default : if ( cnt14 >= <NUM_LIT:1> ) break loop14 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt14 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyAccess ( ) . getDbUsernamePropertyValueParserRuleCall_0_3_2_0 ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_ruleProperty815 ) ; lv_dbUsername_11_0 = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getPropertyRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbUsername_11_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:5> : { { { { lv_name_12_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_43_in_ruleProperty841 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_12_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabasePasswordKeyword_0_4_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_12_0 , "<STR_LIT>" ) ; } } } int cnt15 = <NUM_LIT:0> ; loop15 : do { int alt15 = <NUM_LIT:2> ; int LA15_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA15_0 == RULE_WS ) ) { alt15 = <NUM_LIT:1> ; } switch ( alt15 ) { case <NUM_LIT:1> : { this_WS_13 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty866 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_13 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_4_1 ( ) ) ; } } break ; default : if ( cnt15 >= <NUM_LIT:1> ) break loop15 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:15> , input ) ; throw eee ; } cnt15 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyAccess ( ) . getDbPasswordPropertyValueParserRuleCall_0_4_2_0 ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_ruleProperty888 ) ; lv_dbPassword_14_0 = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getPropertyRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbPassword_14_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:6> : { { { { lv_name_15_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_44_in_ruleProperty914 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_15_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabaseSchemaKeyword_0_5_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_15_0 , "<STR_LIT>" ) ; } } } int cnt16 = <NUM_LIT:0> ; loop16 : do { int alt16 = <NUM_LIT:2> ; int LA16_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA16_0 == RULE_WS ) ) { alt16 = <NUM_LIT:1> ; } switch ( alt16 ) { case <NUM_LIT:1> : { this_WS_16 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty939 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_16 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_5_1 ( ) ) ; } } break ; default : if ( cnt16 >= <NUM_LIT:1> ) break loop16 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:16> , input ) ; throw eee ; } cnt16 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyAccess ( ) . getDbSchemaPropertyValueParserRuleCall_0_5_2_0 ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_ruleProperty961 ) ; lv_dbSchema_17_0 = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getPropertyRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbSchema_17_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:7> : { { { { lv_name_18_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_45_in_ruleProperty987 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_18_0 , grammarAccess . getPropertyAccess ( ) . getNameDatabaseDriverKeyword_0_6_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPropertyRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_18_0 , "<STR_LIT>" ) ; } } } int cnt17 = <NUM_LIT:0> ; loop17 : do { int alt17 = <NUM_LIT:2> ; int LA17_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA17_0 == RULE_WS ) ) { alt17 = <NUM_LIT:1> ; } switch ( alt17 ) { case <NUM_LIT:1> : { this_WS_19 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleProperty1012 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_19 , grammarAccess . getPropertyAccess ( ) . getWSTerminalRuleCall_0_6_1 ( ) ) ; } } break ; default : if ( cnt17 >= <NUM_LIT:1> ) break loop17 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt17 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyAccess ( ) . getDbDriverPropertyValueParserRuleCall_0_6_2_0 ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_ruleProperty1034 ) ; lv_dbDriver_20_0 = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getPropertyRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbDriver_20_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; } this_SEMICOLON_21 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleProperty1047 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_21 , grammarAccess . getPropertyAccess ( ) . getSEMICOLONTerminalRuleCall_1 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final String entryRulePropertyValue ( ) throws RecognitionException { String current = null ; AntlrDatatypeRuleToken iv_rulePropertyValue = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPropertyValueRule ( ) ) ; } pushFollow ( FOLLOW_rulePropertyValue_in_entryRulePropertyValue1083 ) ; iv_rulePropertyValue = rulePropertyValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_rulePropertyValue . getText ( ) ; } match ( input , EOF , FOLLOW_EOF_in_entryRulePropertyValue1094 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final AntlrDatatypeRuleToken rulePropertyValue ( ) throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken ( ) ; Token this_REST_0 = null ; Token this_IDENT_DOT_1 = null ; Token this_IDENT_2 = null ; Token this_NUMBER_3 = null ; Token this_COLON_4 = null ; Token this_STRING_5 = null ; Token this_COMMA_6 = null ; Token this_MINUS_7 = null ; Token this_PLUS_8 = null ; Token this_LPAREN_9 = null ; Token this_RPAREN_10 = null ; Token this_LBRACE_11 = null ; Token this_RBRACE_12 = null ; Token this_QUESTI_13 = null ; Token this_NOT_14 = null ; Token this_BAND_15 = null ; Token this_BOR_16 = null ; Token this_HASH_17 = null ; Token this_AT_18 = null ; Token this_CARET_19 = null ; Token this_EQUALS_20 = null ; Token this_LESS_THAN_21 = null ; Token this_MORE_THAN_22 = null ; Token this_PERCENT_23 = null ; Token this_AND_24 = null ; Token this_OR_25 = null ; Token this_ESC_CHAR_26 = null ; Token this_ON_OFF_27 = null ; Token this_STATEMEN_TYPE_28 = null ; Token this_MAPPING_TYPE_29 = null ; Token this_OPTION_TYPE_30 = null ; Token this_REST_31 = null ; Token this_IDENT_DOT_32 = null ; Token this_IDENT_33 = null ; Token this_NUMBER_34 = null ; Token this_WS_35 = null ; Token this_COLON_36 = null ; Token this_STRING_37 = null ; Token this_COMMA_38 = null ; Token this_MINUS_39 = null ; Token this_PLUS_40 = null ; Token this_LPAREN_41 = null ; Token this_RPAREN_42 = null ; Token this_LBRACE_43 = null ; Token this_RBRACE_44 = null ; Token this_QUESTI_45 = null ; Token this_NOT_46 = null ; Token this_BAND_47 = null ; Token this_BOR_48 = null ; Token this_HASH_49 = null ; Token this_AT_50 = null ; Token this_CARET_51 = null ; Token this_EQUALS_52 = null ; Token this_LESS_THAN_53 = null ; Token this_MORE_THAN_54 = null ; Token this_PERCENT_55 = null ; Token this_AND_56 = null ; Token this_OR_57 = null ; Token this_ESC_CHAR_58 = null ; Token this_ON_OFF_59 = null ; Token this_STATEMEN_TYPE_60 = null ; Token this_MAPPING_TYPE_61 = null ; Token this_OPTION_TYPE_62 = null ; enterRule ( ) ; try { { { int alt19 = <NUM_LIT:31> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt19 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt19 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt19 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt19 = <NUM_LIT:4> ; } break ; case RULE_COLON : { alt19 = <NUM_LIT:5> ; } break ; case RULE_STRING : { alt19 = <NUM_LIT:6> ; } break ; case RULE_COMMA : { alt19 = <NUM_LIT:7> ; } break ; case RULE_MINUS : { alt19 = <NUM_LIT:8> ; } break ; case RULE_PLUS : { alt19 = <NUM_LIT:9> ; } break ; case RULE_LPAREN : { alt19 = <NUM_LIT:10> ; } break ; case RULE_RPAREN : { alt19 = <NUM_LIT:11> ; } break ; case RULE_LBRACE : { alt19 = <NUM_LIT:12> ; } break ; case RULE_RBRACE : { alt19 = <NUM_LIT> ; } break ; case RULE_QUESTI : { alt19 = <NUM_LIT> ; } break ; case RULE_NOT : { alt19 = <NUM_LIT:15> ; } break ; case RULE_BAND : { alt19 = <NUM_LIT:16> ; } break ; case RULE_BOR : { alt19 = <NUM_LIT> ; } break ; case RULE_HASH : { alt19 = <NUM_LIT> ; } break ; case RULE_AT : { alt19 = <NUM_LIT> ; } break ; case RULE_CARET : { alt19 = <NUM_LIT:20> ; } break ; case RULE_EQUALS : { alt19 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt19 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt19 = <NUM_LIT> ; } break ; case RULE_PERCENT : { alt19 = <NUM_LIT:24> ; } break ; case RULE_AND : { alt19 = <NUM_LIT> ; } break ; case RULE_OR : { alt19 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt19 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt19 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt19 = <NUM_LIT> ; } break ; case RULE_MAPPING_TYPE : { alt19 = <NUM_LIT:30> ; } break ; case RULE_OPTION_TYPE : { alt19 = <NUM_LIT:31> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt19 ) { case <NUM_LIT:1> : { this_REST_0 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_rulePropertyValue1135 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_0 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_0 , grammarAccess . getPropertyValueAccess ( ) . getRESTTerminalRuleCall_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_1 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_rulePropertyValue1161 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_1 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_1 , grammarAccess . getPropertyValueAccess ( ) . getIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_rulePropertyValue1187 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_2 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_2 , grammarAccess . getPropertyValueAccess ( ) . getIDENTTerminalRuleCall_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_rulePropertyValue1213 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_3 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_3 , grammarAccess . getPropertyValueAccess ( ) . getNUMBERTerminalRuleCall_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_COLON_4 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_rulePropertyValue1239 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COLON_4 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_4 , grammarAccess . getPropertyValueAccess ( ) . getCOLONTerminalRuleCall_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_STRING_5 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_rulePropertyValue1265 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STRING_5 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_5 , grammarAccess . getPropertyValueAccess ( ) . getSTRINGTerminalRuleCall_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_COMMA_6 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_rulePropertyValue1291 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_6 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_6 , grammarAccess . getPropertyValueAccess ( ) . getCOMMATerminalRuleCall_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_MINUS_7 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_rulePropertyValue1317 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_7 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_7 , grammarAccess . getPropertyValueAccess ( ) . getMINUSTerminalRuleCall_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_PLUS_8 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_rulePropertyValue1343 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_8 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_8 , grammarAccess . getPropertyValueAccess ( ) . getPLUSTerminalRuleCall_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_LPAREN_9 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_rulePropertyValue1369 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_9 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_9 , grammarAccess . getPropertyValueAccess ( ) . getLPARENTerminalRuleCall_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RPAREN_10 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_rulePropertyValue1395 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_10 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_10 , grammarAccess . getPropertyValueAccess ( ) . getRPARENTerminalRuleCall_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_LBRACE_11 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_rulePropertyValue1421 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LBRACE_11 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_11 , grammarAccess . getPropertyValueAccess ( ) . getLBRACETerminalRuleCall_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_RBRACE_12 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_rulePropertyValue1447 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RBRACE_12 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_12 , grammarAccess . getPropertyValueAccess ( ) . getRBRACETerminalRuleCall_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_QUESTI_13 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_rulePropertyValue1473 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_13 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_13 , grammarAccess . getPropertyValueAccess ( ) . getQUESTITerminalRuleCall_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_NOT_14 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_rulePropertyValue1499 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_14 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_14 , grammarAccess . getPropertyValueAccess ( ) . getNOTTerminalRuleCall_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_BAND_15 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_rulePropertyValue1525 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_15 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_15 , grammarAccess . getPropertyValueAccess ( ) . getBANDTerminalRuleCall_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_BOR_16 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_rulePropertyValue1551 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_16 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_16 , grammarAccess . getPropertyValueAccess ( ) . getBORTerminalRuleCall_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_HASH_17 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_rulePropertyValue1577 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_17 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_17 , grammarAccess . getPropertyValueAccess ( ) . getHASHTerminalRuleCall_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_AT_18 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_rulePropertyValue1603 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AT_18 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_18 , grammarAccess . getPropertyValueAccess ( ) . getATTerminalRuleCall_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_CARET_19 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_rulePropertyValue1629 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_19 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_19 , grammarAccess . getPropertyValueAccess ( ) . getCARETTerminalRuleCall_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_20 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_rulePropertyValue1655 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_20 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_20 , grammarAccess . getPropertyValueAccess ( ) . getEQUALSTerminalRuleCall_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_21 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_rulePropertyValue1681 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_21 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_21 , grammarAccess . getPropertyValueAccess ( ) . getLESS_THANTerminalRuleCall_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_MORE_THAN_22 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_rulePropertyValue1707 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_22 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_22 , grammarAccess . getPropertyValueAccess ( ) . getMORE_THANTerminalRuleCall_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_PERCENT_23 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_rulePropertyValue1733 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PERCENT_23 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_23 , grammarAccess . getPropertyValueAccess ( ) . getPERCENTTerminalRuleCall_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_24 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_rulePropertyValue1759 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_24 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_24 , grammarAccess . getPropertyValueAccess ( ) . getANDTerminalRuleCall_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_25 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_rulePropertyValue1785 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_25 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_25 , grammarAccess . getPropertyValueAccess ( ) . getORTerminalRuleCall_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_26 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_rulePropertyValue1811 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_26 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_26 , grammarAccess . getPropertyValueAccess ( ) . getESC_CHARTerminalRuleCall_0_26 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_27 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_rulePropertyValue1837 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_27 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_27 , grammarAccess . getPropertyValueAccess ( ) . getON_OFFTerminalRuleCall_0_27 ( ) ) ; } } break ; case <NUM_LIT> : { this_STATEMEN_TYPE_28 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_rulePropertyValue1863 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_28 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_28 , grammarAccess . getPropertyValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_0_28 ( ) ) ; } } break ; case <NUM_LIT:30> : { this_MAPPING_TYPE_29 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_rulePropertyValue1889 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_29 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_29 , grammarAccess . getPropertyValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_0_29 ( ) ) ; } } break ; case <NUM_LIT:31> : { this_OPTION_TYPE_30 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_rulePropertyValue1915 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_30 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_30 , grammarAccess . getPropertyValueAccess ( ) . getOPTION_TYPETerminalRuleCall_0_30 ( ) ) ; } } break ; } loop21 : do { int alt21 = <NUM_LIT:2> ; alt21 = dfa21 . predict ( input ) ; switch ( alt21 ) { case <NUM_LIT:1> : { int alt20 = <NUM_LIT:32> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt20 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt20 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt20 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt20 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt20 = <NUM_LIT:5> ; } break ; case RULE_COLON : { alt20 = <NUM_LIT:6> ; } break ; case RULE_STRING : { alt20 = <NUM_LIT:7> ; } break ; case RULE_COMMA : { alt20 = <NUM_LIT:8> ; } break ; case RULE_MINUS : { alt20 = <NUM_LIT:9> ; } break ; case RULE_PLUS : { alt20 = <NUM_LIT:10> ; } break ; case RULE_LPAREN : { alt20 = <NUM_LIT:11> ; } break ; case RULE_RPAREN : { alt20 = <NUM_LIT:12> ; } break ; case RULE_LBRACE : { alt20 = <NUM_LIT> ; } break ; case RULE_RBRACE : { alt20 = <NUM_LIT> ; } break ; case RULE_QUESTI : { alt20 = <NUM_LIT:15> ; } break ; case RULE_NOT : { alt20 = <NUM_LIT:16> ; } break ; case RULE_BAND : { alt20 = <NUM_LIT> ; } break ; case RULE_BOR : { alt20 = <NUM_LIT> ; } break ; case RULE_HASH : { alt20 = <NUM_LIT> ; } break ; case RULE_AT : { alt20 = <NUM_LIT:20> ; } break ; case RULE_CARET : { alt20 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt20 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt20 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt20 = <NUM_LIT:24> ; } break ; case RULE_PERCENT : { alt20 = <NUM_LIT> ; } break ; case RULE_AND : { alt20 = <NUM_LIT> ; } break ; case RULE_OR : { alt20 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt20 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt20 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt20 = <NUM_LIT:30> ; } break ; case RULE_MAPPING_TYPE : { alt20 = <NUM_LIT:31> ; } break ; case RULE_OPTION_TYPE : { alt20 = <NUM_LIT:32> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:20> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt20 ) { case <NUM_LIT:1> : { this_REST_31 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_rulePropertyValue2193 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_31 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_31 , grammarAccess . getPropertyValueAccess ( ) . getRESTTerminalRuleCall_1_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_32 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_rulePropertyValue2219 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_32 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_32 , grammarAccess . getPropertyValueAccess ( ) . getIDENT_DOTTerminalRuleCall_1_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_33 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_rulePropertyValue2245 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_33 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_33 , grammarAccess . getPropertyValueAccess ( ) . getIDENTTerminalRuleCall_1_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_34 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_rulePropertyValue2271 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_34 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_34 , grammarAccess . getPropertyValueAccess ( ) . getNUMBERTerminalRuleCall_1_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_35 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_rulePropertyValue2297 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_35 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_35 , grammarAccess . getPropertyValueAccess ( ) . getWSTerminalRuleCall_1_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_COLON_36 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_rulePropertyValue2323 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COLON_36 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_36 , grammarAccess . getPropertyValueAccess ( ) . getCOLONTerminalRuleCall_1_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_STRING_37 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_rulePropertyValue2349 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STRING_37 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_37 , grammarAccess . getPropertyValueAccess ( ) . getSTRINGTerminalRuleCall_1_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_COMMA_38 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_rulePropertyValue2375 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_38 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_38 , grammarAccess . getPropertyValueAccess ( ) . getCOMMATerminalRuleCall_1_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_MINUS_39 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_rulePropertyValue2401 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_39 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_39 , grammarAccess . getPropertyValueAccess ( ) . getMINUSTerminalRuleCall_1_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_PLUS_40 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_rulePropertyValue2427 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_40 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_40 , grammarAccess . getPropertyValueAccess ( ) . getPLUSTerminalRuleCall_1_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_LPAREN_41 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_rulePropertyValue2453 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_41 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_41 , grammarAccess . getPropertyValueAccess ( ) . getLPARENTerminalRuleCall_1_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_RPAREN_42 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_rulePropertyValue2479 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_42 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_42 , grammarAccess . getPropertyValueAccess ( ) . getRPARENTerminalRuleCall_1_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_LBRACE_43 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_rulePropertyValue2505 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LBRACE_43 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_43 , grammarAccess . getPropertyValueAccess ( ) . getLBRACETerminalRuleCall_1_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_RBRACE_44 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_rulePropertyValue2531 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RBRACE_44 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_44 , grammarAccess . getPropertyValueAccess ( ) . getRBRACETerminalRuleCall_1_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_QUESTI_45 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_rulePropertyValue2557 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_45 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_45 , grammarAccess . getPropertyValueAccess ( ) . getQUESTITerminalRuleCall_1_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_NOT_46 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_rulePropertyValue2583 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_46 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_46 , grammarAccess . getPropertyValueAccess ( ) . getNOTTerminalRuleCall_1_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_47 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_rulePropertyValue2609 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_47 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_47 , grammarAccess . getPropertyValueAccess ( ) . getBANDTerminalRuleCall_1_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_BOR_48 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_rulePropertyValue2635 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_48 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_48 , grammarAccess . getPropertyValueAccess ( ) . getBORTerminalRuleCall_1_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_HASH_49 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_rulePropertyValue2661 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_49 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_49 , grammarAccess . getPropertyValueAccess ( ) . getHASHTerminalRuleCall_1_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_AT_50 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_rulePropertyValue2687 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AT_50 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_50 , grammarAccess . getPropertyValueAccess ( ) . getATTerminalRuleCall_1_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_51 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_rulePropertyValue2713 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_51 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_51 , grammarAccess . getPropertyValueAccess ( ) . getCARETTerminalRuleCall_1_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_52 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_rulePropertyValue2739 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_52 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_52 , grammarAccess . getPropertyValueAccess ( ) . getEQUALSTerminalRuleCall_1_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_53 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_rulePropertyValue2765 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_53 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_53 , grammarAccess . getPropertyValueAccess ( ) . getLESS_THANTerminalRuleCall_1_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_MORE_THAN_54 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_rulePropertyValue2791 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_54 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_54 , grammarAccess . getPropertyValueAccess ( ) . getMORE_THANTerminalRuleCall_1_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_PERCENT_55 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_rulePropertyValue2817 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PERCENT_55 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_55 , grammarAccess . getPropertyValueAccess ( ) . getPERCENTTerminalRuleCall_1_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_56 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_rulePropertyValue2843 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_56 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_56 , grammarAccess . getPropertyValueAccess ( ) . getANDTerminalRuleCall_1_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_57 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_rulePropertyValue2869 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_57 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_57 , grammarAccess . getPropertyValueAccess ( ) . getORTerminalRuleCall_1_0_26 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_58 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_rulePropertyValue2895 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_58 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_58 , grammarAccess . getPropertyValueAccess ( ) . getESC_CHARTerminalRuleCall_1_0_27 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_59 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_rulePropertyValue2921 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_59 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_59 , grammarAccess . getPropertyValueAccess ( ) . getON_OFFTerminalRuleCall_1_0_28 ( ) ) ; } } break ; case <NUM_LIT:30> : { this_STATEMEN_TYPE_60 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_rulePropertyValue2947 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_60 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_60 , grammarAccess . getPropertyValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_1_0_29 ( ) ) ; } } break ; case <NUM_LIT:31> : { this_MAPPING_TYPE_61 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_rulePropertyValue2973 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_61 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_61 , grammarAccess . getPropertyValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_1_0_30 ( ) ) ; } } break ; case <NUM_LIT:32> : { this_OPTION_TYPE_62 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_rulePropertyValue2999 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_62 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_62 , grammarAccess . getPropertyValueAccess ( ) . getOPTION_TYPETerminalRuleCall_1_0_31 ( ) ) ; } } break ; } } break ; default : break loop21 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRulePojoDefinition ( ) throws RecognitionException { EObject current = null ; EObject iv_rulePojoDefinition = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoDefinitionRule ( ) ) ; } pushFollow ( FOLLOW_rulePojoDefinition_in_entryRulePojoDefinition3053 ) ; iv_rulePojoDefinition = rulePojoDefinition ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_rulePojoDefinition ; } match ( input , EOF , FOLLOW_EOF_in_entryRulePojoDefinition3063 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject rulePojoDefinition ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token lv_name_1_0 = null ; Token lv_class_2_1 = null ; Token lv_class_2_2 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_46_in_rulePojoDefinition3104 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getPojoDefinitionAccess ( ) . getPojoKeyword_0 ( ) ) ; } { { lv_name_1_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_rulePojoDefinition3121 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_1_0 , grammarAccess . getPojoDefinitionAccess ( ) . getNameIDENTTerminalRuleCall_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPojoDefinitionRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_1_0 , "<STR_LIT>" ) ; } } } { { int alt22 = <NUM_LIT:2> ; int LA22_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA22_0 == RULE_IDENT ) ) { alt22 = <NUM_LIT:1> ; } else if ( ( LA22_0 == RULE_IDENT_DOT ) ) { alt22 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt22 ) { case <NUM_LIT:1> : { lv_class_2_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_rulePojoDefinition3145 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_class_2_1 , grammarAccess . getPojoDefinitionAccess ( ) . getClassIDENTTerminalRuleCall_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPojoDefinitionRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:class>" , lv_class_2_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_class_2_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_rulePojoDefinition3165 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_class_2_2 , grammarAccess . getPojoDefinitionAccess ( ) . getClassIDENT_DOTTerminalRuleCall_2_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getPojoDefinitionRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:class>" , lv_class_2_2 , "<STR_LIT>" ) ; } } break ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_rulePojoDefinition3184 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getPojoDefinitionAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRulePojoUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_rulePojoUsage = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoUsageRule ( ) ) ; } pushFollow ( FOLLOW_rulePojoUsage_in_entryRulePojoUsage3223 ) ; iv_rulePojoUsage = rulePojoUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_rulePojoUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRulePojoUsage3233 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject rulePojoUsage ( ) throws RecognitionException { EObject current = null ; EObject this_ColumnUsage_0 = null ; EObject this_IdentifierUsage_1 = null ; EObject this_ConstantUsage_2 = null ; EObject this_MappingUsage_3 = null ; enterRule ( ) ; try { { int alt23 = <NUM_LIT:4> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case <NUM_LIT> : { alt23 = <NUM_LIT:1> ; } break ; case <NUM_LIT> : { alt23 = <NUM_LIT:2> ; } break ; case <NUM_LIT> : { alt23 = <NUM_LIT:3> ; } break ; case <NUM_LIT> : { alt23 = <NUM_LIT:4> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt23 ) { case <NUM_LIT:1> : { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoUsageAccess ( ) . getColumnUsageParserRuleCall_0 ( ) ) ; } pushFollow ( FOLLOW_ruleColumnUsage_in_rulePojoUsage3280 ) ; this_ColumnUsage_0 = ruleColumnUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = this_ColumnUsage_0 ; afterParserOrEnumRuleCall ( ) ; } } break ; case <NUM_LIT:2> : { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoUsageAccess ( ) . getIdentifierUsageParserRuleCall_1 ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifierUsage_in_rulePojoUsage3307 ) ; this_IdentifierUsage_1 = ruleIdentifierUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = this_IdentifierUsage_1 ; afterParserOrEnumRuleCall ( ) ; } } break ; case <NUM_LIT:3> : { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoUsageAccess ( ) . getConstantUsageParserRuleCall_2 ( ) ) ; } pushFollow ( FOLLOW_ruleConstantUsage_in_rulePojoUsage3334 ) ; this_ConstantUsage_2 = ruleConstantUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = this_ConstantUsage_2 ; afterParserOrEnumRuleCall ( ) ; } } break ; case <NUM_LIT:4> : { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getPojoUsageAccess ( ) . getMappingUsageParserRuleCall_3 ( ) ) ; } pushFollow ( FOLLOW_ruleMappingUsage_in_rulePojoUsage3361 ) ; this_MappingUsage_3 = ruleMappingUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = this_MappingUsage_3 ; afterParserOrEnumRuleCall ( ) ; } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleColumnUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleColumnUsage = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getColumnUsageRule ( ) ) ; } pushFollow ( FOLLOW_ruleColumnUsage_in_entryRuleColumnUsage3402 ) ; iv_ruleColumnUsage = ruleColumnUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleColumnUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleColumnUsage3412 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleColumnUsage ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token otherlv_1 = null ; Token otherlv_2 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_47_in_ruleColumnUsage3453 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getColumnUsageAccess ( ) . getColKeyword_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnUsageRule ( ) ) ; } } otherlv_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleColumnUsage3473 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_1 , grammarAccess . getColumnUsageAccess ( ) . getStatementMetaStatementCrossReference_1_0 ( ) ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnUsageRule ( ) ) ; } } otherlv_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleColumnUsage3493 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_2 , grammarAccess . getColumnUsageAccess ( ) . getPojoPojoDefinitionCrossReference_2_0 ( ) ) ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleColumnUsage3504 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getColumnUsageAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleIdentifierUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIdentifierUsage = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIdentifierUsageRule ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifierUsage_in_entryRuleIdentifierUsage3549 ) ; iv_ruleIdentifierUsage = ruleIdentifierUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIdentifierUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIdentifierUsage3559 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleIdentifierUsage ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token otherlv_1 = null ; Token otherlv_2 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_48_in_ruleIdentifierUsage3600 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getIdentifierUsageAccess ( ) . getIdentKeyword_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierUsageRule ( ) ) ; } } otherlv_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIdentifierUsage3620 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_1 , grammarAccess . getIdentifierUsageAccess ( ) . getStatementMetaStatementCrossReference_1_0 ( ) ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierUsageRule ( ) ) ; } } otherlv_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIdentifierUsage3640 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_2 , grammarAccess . getIdentifierUsageAccess ( ) . getPojoPojoDefinitionCrossReference_2_0 ( ) ) ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleIdentifierUsage3651 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getIdentifierUsageAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleConstantUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleConstantUsage = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getConstantUsageRule ( ) ) ; } pushFollow ( FOLLOW_ruleConstantUsage_in_entryRuleConstantUsage3696 ) ; iv_ruleConstantUsage = ruleConstantUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleConstantUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleConstantUsage3706 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleConstantUsage ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token otherlv_1 = null ; Token otherlv_2 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_49_in_ruleConstantUsage3747 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getConstantUsageAccess ( ) . getConstKeyword_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantUsageRule ( ) ) ; } } otherlv_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleConstantUsage3767 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_1 , grammarAccess . getConstantUsageAccess ( ) . getStatementMetaStatementCrossReference_1_0 ( ) ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantUsageRule ( ) ) ; } } otherlv_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleConstantUsage3787 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_2 , grammarAccess . getConstantUsageAccess ( ) . getPojoPojoDefinitionCrossReference_2_0 ( ) ) ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleConstantUsage3798 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getConstantUsageAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleMappingUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMappingUsage = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingUsageRule ( ) ) ; } pushFollow ( FOLLOW_ruleMappingUsage_in_entryRuleMappingUsage3843 ) ; iv_ruleMappingUsage = ruleMappingUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMappingUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMappingUsage3853 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleMappingUsage ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token otherlv_1 = null ; Token otherlv_2 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_50_in_ruleMappingUsage3894 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getMappingUsageAccess ( ) . getOutKeyword_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingUsageRule ( ) ) ; } } otherlv_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingUsage3914 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_1 , grammarAccess . getMappingUsageAccess ( ) . getStatementMappingRuleCrossReference_1_0 ( ) ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingUsageRule ( ) ) ; } } otherlv_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingUsage3934 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_2 , grammarAccess . getMappingUsageAccess ( ) . getPojoPojoDefinitionCrossReference_2_0 ( ) ) ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleMappingUsage3945 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getMappingUsageAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleTableDefinition ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleTableDefinition = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getTableDefinitionRule ( ) ) ; } pushFollow ( FOLLOW_ruleTableDefinition_in_entryRuleTableDefinition3990 ) ; iv_ruleTableDefinition = ruleTableDefinition ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleTableDefinition ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleTableDefinition4000 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleTableDefinition ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token lv_name_1_0 = null ; Token lv_table_2_0 = null ; Token this_SEMICOLON_3 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_51_in_ruleTableDefinition4041 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getTableDefinitionAccess ( ) . getTableKeyword_0 ( ) ) ; } { { lv_name_1_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleTableDefinition4058 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_1_0 , grammarAccess . getTableDefinitionAccess ( ) . getNameIDENTTerminalRuleCall_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getTableDefinitionRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_1_0 , "<STR_LIT>" ) ; } } } { { lv_table_2_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleTableDefinition4080 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_table_2_0 , grammarAccess . getTableDefinitionAccess ( ) . getTableIDENTTerminalRuleCall_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getTableDefinitionRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_table_2_0 , "<STR_LIT>" ) ; } } } this_SEMICOLON_3 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleTableDefinition4096 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_3 , grammarAccess . getTableDefinitionAccess ( ) . getSEMICOLONTerminalRuleCall_3 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleTableUsage ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleTableUsage = null ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getTableUsageRule ( ) ) ; } pushFollow ( FOLLOW_ruleTableUsage_in_entryRuleTableUsage4141 ) ; iv_ruleTableUsage = ruleTableUsage ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleTableUsage ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleTableUsage4151 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject ruleTableUsage ( ) throws RecognitionException { EObject current = null ; Token otherlv_0 = null ; Token otherlv_1 = null ; Token otherlv_2 = null ; Token otherlv_3 = null ; Token lv_prefix_4_0 = null ; Token this_SEMICOLON_5 = null ; enterRule ( ) ; HiddenTokens myHiddenTokenState = ( ( XtextTokenStream ) input ) . setHiddenTokens ( "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" ) ; try { { { otherlv_0 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_52_in_ruleTableUsage4192 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_0 , grammarAccess . getTableUsageAccess ( ) . getDbcolKeyword_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getTableUsageRule ( ) ) ; } } otherlv_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleTableUsage4212 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_1 , grammarAccess . getTableUsageAccess ( ) . getStatementMetaStatementCrossReference_1_0 ( ) ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getTableUsageRule ( ) ) ; } } otherlv_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleTableUsage4232 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_2 , grammarAccess . getTableUsageAccess ( ) . getTableTableDefinitionCrossReference_2_0 ( ) ) ; } } } int alt24 = <NUM_LIT:2> ; int LA24_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA24_0 == <NUM_LIT> ) ) { alt24 = <NUM_LIT:1> ; } switch ( alt24 ) { case <NUM_LIT:1> : { otherlv_3 = ( Token ) match ( input , <NUM_LIT> , FOLLOW_53_in_ruleTableUsage4245 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( otherlv_3 , grammarAccess . getTableUsageAccess ( ) . getPrefixKeyword_3_0 ( ) ) ; } { { lv_prefix_4_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleTableUsage4262 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_prefix_4_0 , grammarAccess . getTableUsageAccess ( ) . getPrefixIDENTTerminalRuleCall_3_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getTableUsageRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_prefix_4_0 , "<STR_LIT>" ) ; } } } } break ; } this_SEMICOLON_5 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleTableUsage4280 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_5 , grammarAccess . getTableUsageAccess ( ) . getSEMICOLONTerminalRuleCall_4 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { myHiddenTokenState . restore ( ) ; } return current ; } public final EObject entryRuleMetaStatement ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMetaStatement = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaStatementRule ( ) ) ; } pushFollow ( FOLLOW_ruleMetaStatement_in_entryRuleMetaStatement4319 ) ; iv_ruleMetaStatement = ruleMetaStatement ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMetaStatement ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMetaStatement4329 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMetaStatement ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_0 = null ; Token this_LPAREN_1 = null ; Token lv_type_2_0 = null ; Token this_COMMA_3 = null ; Token lv_filters_4_0 = null ; Token this_RPAREN_5 = null ; Token this_EQUALS_6 = null ; Token this_SEMICOLON_8 = null ; EObject lv_statement_7_0 = null ; enterRule ( ) ; try { { { { { lv_name_0_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMetaStatement4371 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_0 , grammarAccess . getMetaStatementAccess ( ) . getNameIDENTTerminalRuleCall_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaStatementRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_0 , "<STR_LIT>" ) ; } } } this_LPAREN_1 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleMetaStatement4387 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_1 , grammarAccess . getMetaStatementAccess ( ) . getLPARENTerminalRuleCall_1 ( ) ) ; } { { lv_type_2_0 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleMetaStatement4403 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_2_0 , grammarAccess . getMetaStatementAccess ( ) . getTypeSTATEMEN_TYPETerminalRuleCall_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaStatementRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_2_0 , "<STR_LIT>" ) ; } } } loop25 : do { int alt25 = <NUM_LIT:2> ; int LA25_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA25_0 == RULE_COMMA ) ) { alt25 = <NUM_LIT:1> ; } switch ( alt25 ) { case <NUM_LIT:1> : { this_COMMA_3 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleMetaStatement4420 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_3 , grammarAccess . getMetaStatementAccess ( ) . getCOMMATerminalRuleCall_3_0 ( ) ) ; } { { lv_filters_4_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMetaStatement4436 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_filters_4_0 , grammarAccess . getMetaStatementAccess ( ) . getFiltersIDENTTerminalRuleCall_3_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaStatementRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_filters_4_0 , "<STR_LIT>" ) ; } } } } break ; default : break loop25 ; } } while ( true ) ; this_RPAREN_5 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleMetaStatement4454 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_5 , grammarAccess . getMetaStatementAccess ( ) . getRPARENTerminalRuleCall_4 ( ) ) ; } this_EQUALS_6 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleMetaStatement4464 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_6 , grammarAccess . getMetaStatementAccess ( ) . getEQUALSTerminalRuleCall_5 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaStatementAccess ( ) . getStatementSqlParserRuleCall_6_0 ( ) ) ; } pushFollow ( FOLLOW_ruleSql_in_ruleMetaStatement4484 ) ; lv_statement_7_0 = ruleSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaStatementRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_statement_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_SEMICOLON_8 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleMetaStatement4495 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_8 , grammarAccess . getMetaStatementAccess ( ) . getSEMICOLONTerminalRuleCall_7 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleSql ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleSql = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlRule ( ) ) ; } pushFollow ( FOLLOW_ruleSql_in_entryRuleSql4530 ) ; iv_ruleSql = ruleSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleSql ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleSql4540 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleSql ( ) throws RecognitionException { EObject current = null ; EObject lv_sqls_0_0 = null ; enterRule ( ) ; try { { int cnt26 = <NUM_LIT:0> ; loop26 : do { int alt26 = <NUM_LIT:2> ; int LA26_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA26_0 >= RULE_WS && LA26_0 <= RULE_ON_OFF ) \|\| ( LA26_0 >= RULE_REST && LA26_0 <= RULE_OPTION_TYPE ) ) ) { alt26 = <NUM_LIT:1> ; } switch ( alt26 ) { case <NUM_LIT:1> : { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlAccess ( ) . getSqlsSqlFragmentParserRuleCall_0 ( ) ) ; } pushFollow ( FOLLOW_ruleSqlFragment_in_ruleSql4585 ) ; lv_sqls_0_0 = ruleSqlFragment ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_sqls_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } break ; default : if ( cnt26 >= <NUM_LIT:1> ) break loop26 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt26 ++ ; } while ( true ) ; } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleSqlFragment ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleSqlFragment = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentRule ( ) ) ; } pushFollow ( FOLLOW_ruleSqlFragment_in_entryRuleSqlFragment4621 ) ; iv_ruleSqlFragment = ruleSqlFragment ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleSqlFragment ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleSqlFragment4631 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleSqlFragment ( ) throws RecognitionException { EObject current = null ; Token this_AT_1 = null ; Token this_STRING_3 = null ; Token this_COLON_5 = null ; Token this_LBRACE_7 = null ; Token this_RBRACE_9 = null ; Token this_PERCENT_10 = null ; Token this_PERCENT_11 = null ; AntlrDatatypeRuleToken lv_value_0_0 = null ; EObject lv_col_2_0 = null ; EObject lv_cnst_4_0 = null ; EObject lv_ident_6_0 = null ; EObject lv_meta_8_0 = null ; EObject lv_dbtab_12_0 = null ; EObject lv_dbcol_13_0 = null ; enterRule ( ) ; try { { int alt28 = <NUM_LIT:6> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_WS : case RULE_ON_OFF : case RULE_REST : case RULE_IDENT_DOT : case RULE_IDENT : case RULE_NUMBER : case RULE_COMMA : case RULE_MINUS : case RULE_PLUS : case RULE_LPAREN : case RULE_RPAREN : case RULE_RBRACE : case RULE_QUESTI : case RULE_NOT : case RULE_BAND : case RULE_BOR : case RULE_HASH : case RULE_CARET : case RULE_EQUALS : case RULE_LESS_THAN : case RULE_MORE_THAN : case RULE_AND : case RULE_OR : case RULE_ESC_CHAR : case RULE_STATEMEN_TYPE : case RULE_MAPPING_TYPE : case RULE_OPTION_TYPE : { alt28 = <NUM_LIT:1> ; } break ; case RULE_AT : { alt28 = <NUM_LIT:2> ; } break ; case RULE_STRING : { alt28 = <NUM_LIT:3> ; } break ; case RULE_COLON : { alt28 = <NUM_LIT:4> ; } break ; case RULE_LBRACE : { alt28 = <NUM_LIT:5> ; } break ; case RULE_PERCENT : { alt28 = <NUM_LIT:6> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt28 ) { case <NUM_LIT:1> : { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getValueSqlValueParserRuleCall_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleSqlValue_in_ruleSqlFragment4677 ) ; lv_value_0_0 = ruleSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT:value>" , lv_value_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; case <NUM_LIT:2> : { { this_AT_1 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_ruleSqlFragment4695 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_1 , grammarAccess . getSqlFragmentAccess ( ) . getATTerminalRuleCall_1_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getColColumnParserRuleCall_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleColumn_in_ruleSqlFragment4715 ) ; lv_col_2_0 = ruleColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_col_2_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:3> : { { this_STRING_3 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleSqlFragment4734 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_3 , grammarAccess . getSqlFragmentAccess ( ) . getSTRINGTerminalRuleCall_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getCnstConstantParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleConstant_in_ruleSqlFragment4754 ) ; lv_cnst_4_0 = ruleConstant ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cnst_4_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:4> : { { this_COLON_5 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_ruleSqlFragment4773 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_5 , grammarAccess . getSqlFragmentAccess ( ) . getCOLONTerminalRuleCall_3_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getIdentIdentifierParserRuleCall_3_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifier_in_ruleSqlFragment4793 ) ; lv_ident_6_0 = ruleIdentifier ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_ident_6_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:5> : { { this_LBRACE_7 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_ruleSqlFragment4812 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_7 , grammarAccess . getSqlFragmentAccess ( ) . getLBRACETerminalRuleCall_4_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getMetaMetaSqlParserRuleCall_4_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMetaSql_in_ruleSqlFragment4832 ) ; lv_meta_8_0 = ruleMetaSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_meta_8_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_RBRACE_9 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_ruleSqlFragment4843 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_9 , grammarAccess . getSqlFragmentAccess ( ) . getRBRACETerminalRuleCall_4_2 ( ) ) ; } } } break ; case <NUM_LIT:6> : { { this_PERCENT_10 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleSqlFragment4861 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_10 , grammarAccess . getSqlFragmentAccess ( ) . getPERCENTTerminalRuleCall_5_0 ( ) ) ; } int alt27 = <NUM_LIT:2> ; int LA27_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA27_0 == RULE_PERCENT ) ) { alt27 = <NUM_LIT:1> ; } else if ( ( ( LA27_0 >= RULE_IDENT_DOT && LA27_0 <= RULE_IDENT ) ) ) { alt27 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt27 ) { case <NUM_LIT:1> : { { this_PERCENT_11 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleSqlFragment4873 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_11 , grammarAccess . getSqlFragmentAccess ( ) . getPERCENTTerminalRuleCall_5_1_0_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getDbtabDatabaseTableParserRuleCall_5_1_0_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseTable_in_ruleSqlFragment4893 ) ; lv_dbtab_12_0 = ruleDatabaseTable ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbtab_12_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:2> : { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlFragmentAccess ( ) . getDbcolDatabaseColumnParserRuleCall_5_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseColumn_in_ruleSqlFragment4921 ) ; lv_dbcol_13_0 = ruleDatabaseColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbcol_13_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; } } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final String entryRuleSqlValue ( ) throws RecognitionException { String current = null ; AntlrDatatypeRuleToken iv_ruleSqlValue = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getSqlValueRule ( ) ) ; } pushFollow ( FOLLOW_ruleSqlValue_in_entryRuleSqlValue4960 ) ; iv_ruleSqlValue = ruleSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleSqlValue . getText ( ) ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleSqlValue4971 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final AntlrDatatypeRuleToken ruleSqlValue ( ) throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken ( ) ; Token this_REST_0 = null ; Token this_IDENT_DOT_1 = null ; Token this_IDENT_2 = null ; Token this_NUMBER_3 = null ; Token this_WS_4 = null ; Token this_COMMA_5 = null ; Token this_MINUS_6 = null ; Token this_PLUS_7 = null ; Token this_LPAREN_8 = null ; Token this_RPAREN_9 = null ; Token this_RBRACE_10 = null ; Token this_QUESTI_11 = null ; Token this_NOT_12 = null ; Token this_BAND_13 = null ; Token this_BOR_14 = null ; Token this_HASH_15 = null ; Token this_CARET_16 = null ; Token this_EQUALS_17 = null ; Token this_LESS_THAN_18 = null ; Token this_MORE_THAN_19 = null ; Token this_AND_20 = null ; Token this_OR_21 = null ; Token this_ESC_CHAR_22 = null ; Token this_ON_OFF_23 = null ; Token this_STATEMEN_TYPE_24 = null ; Token this_MAPPING_TYPE_25 = null ; Token this_OPTION_TYPE_26 = null ; Token this_REST_27 = null ; Token this_IDENT_DOT_28 = null ; Token this_IDENT_29 = null ; Token this_NUMBER_30 = null ; Token this_WS_31 = null ; Token this_COMMA_32 = null ; Token this_MINUS_33 = null ; Token this_PLUS_34 = null ; Token this_LPAREN_35 = null ; Token this_RPAREN_36 = null ; Token this_RBRACE_37 = null ; Token this_QUESTI_38 = null ; Token this_NOT_39 = null ; Token this_BAND_40 = null ; Token this_BOR_41 = null ; Token this_HASH_42 = null ; Token this_CARET_43 = null ; Token this_EQUALS_44 = null ; Token this_LESS_THAN_45 = null ; Token this_MORE_THAN_46 = null ; Token this_AND_47 = null ; Token this_OR_48 = null ; Token this_ESC_CHAR_49 = null ; Token this_ON_OFF_50 = null ; Token this_STATEMEN_TYPE_51 = null ; Token this_MAPPING_TYPE_52 = null ; Token this_OPTION_TYPE_53 = null ; enterRule ( ) ; try { { { int alt29 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt29 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt29 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt29 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt29 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt29 = <NUM_LIT:5> ; } break ; case RULE_COMMA : { alt29 = <NUM_LIT:6> ; } break ; case RULE_MINUS : { alt29 = <NUM_LIT:7> ; } break ; case RULE_PLUS : { alt29 = <NUM_LIT:8> ; } break ; case RULE_LPAREN : { alt29 = <NUM_LIT:9> ; } break ; case RULE_RPAREN : { alt29 = <NUM_LIT:10> ; } break ; case RULE_RBRACE : { alt29 = <NUM_LIT:11> ; } break ; case RULE_QUESTI : { alt29 = <NUM_LIT:12> ; } break ; case RULE_NOT : { alt29 = <NUM_LIT> ; } break ; case RULE_BAND : { alt29 = <NUM_LIT> ; } break ; case RULE_BOR : { alt29 = <NUM_LIT:15> ; } break ; case RULE_HASH : { alt29 = <NUM_LIT:16> ; } break ; case RULE_CARET : { alt29 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt29 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt29 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt29 = <NUM_LIT:20> ; } break ; case RULE_AND : { alt29 = <NUM_LIT> ; } break ; case RULE_OR : { alt29 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt29 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt29 = <NUM_LIT:24> ; } break ; case RULE_STATEMEN_TYPE : { alt29 = <NUM_LIT> ; } break ; case RULE_MAPPING_TYPE : { alt29 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt29 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt29 ) { case <NUM_LIT:1> : { this_REST_0 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleSqlValue5012 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_0 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_0 , grammarAccess . getSqlValueAccess ( ) . getRESTTerminalRuleCall_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_1 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleSqlValue5038 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_1 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_1 , grammarAccess . getSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleSqlValue5064 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_2 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_2 , grammarAccess . getSqlValueAccess ( ) . getIDENTTerminalRuleCall_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleSqlValue5090 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_3 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_3 , grammarAccess . getSqlValueAccess ( ) . getNUMBERTerminalRuleCall_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleSqlValue5116 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_4 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getSqlValueAccess ( ) . getWSTerminalRuleCall_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_COMMA_5 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleSqlValue5142 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_5 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_5 , grammarAccess . getSqlValueAccess ( ) . getCOMMATerminalRuleCall_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_MINUS_6 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleSqlValue5168 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_6 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_6 , grammarAccess . getSqlValueAccess ( ) . getMINUSTerminalRuleCall_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_PLUS_7 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleSqlValue5194 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_7 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_7 , grammarAccess . getSqlValueAccess ( ) . getPLUSTerminalRuleCall_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_LPAREN_8 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleSqlValue5220 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_8 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_8 , grammarAccess . getSqlValueAccess ( ) . getLPARENTerminalRuleCall_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_RPAREN_9 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleSqlValue5246 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_9 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_9 , grammarAccess . getSqlValueAccess ( ) . getRPARENTerminalRuleCall_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RBRACE_10 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_ruleSqlValue5272 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RBRACE_10 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_10 , grammarAccess . getSqlValueAccess ( ) . getRBRACETerminalRuleCall_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_QUESTI_11 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleSqlValue5298 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_11 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_11 , grammarAccess . getSqlValueAccess ( ) . getQUESTITerminalRuleCall_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_12 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleSqlValue5324 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_12 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_12 , grammarAccess . getSqlValueAccess ( ) . getNOTTerminalRuleCall_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_13 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleSqlValue5350 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_13 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_13 , grammarAccess . getSqlValueAccess ( ) . getBANDTerminalRuleCall_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_BOR_14 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleSqlValue5376 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_14 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_14 , grammarAccess . getSqlValueAccess ( ) . getBORTerminalRuleCall_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_HASH_15 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleSqlValue5402 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_15 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_15 , grammarAccess . getSqlValueAccess ( ) . getHASHTerminalRuleCall_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_16 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleSqlValue5428 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_16 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_16 , grammarAccess . getSqlValueAccess ( ) . getCARETTerminalRuleCall_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_17 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleSqlValue5454 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_17 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_17 , grammarAccess . getSqlValueAccess ( ) . getEQUALSTerminalRuleCall_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_18 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleSqlValue5480 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_18 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_18 , grammarAccess . getSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_MORE_THAN_19 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleSqlValue5506 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_19 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_19 , grammarAccess . getSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_20 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleSqlValue5532 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_20 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_20 , grammarAccess . getSqlValueAccess ( ) . getANDTerminalRuleCall_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_21 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleSqlValue5558 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_21 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_21 , grammarAccess . getSqlValueAccess ( ) . getORTerminalRuleCall_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_22 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleSqlValue5584 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_22 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_22 , grammarAccess . getSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_ON_OFF_23 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleSqlValue5610 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_23 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_23 , grammarAccess . getSqlValueAccess ( ) . getON_OFFTerminalRuleCall_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_STATEMEN_TYPE_24 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleSqlValue5636 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_24 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_24 , grammarAccess . getSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_25 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleSqlValue5662 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_25 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_25 , grammarAccess . getSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_26 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleSqlValue5688 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_26 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_26 , grammarAccess . getSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_0_26 ( ) ) ; } } break ; } loop31 : do { int alt31 = <NUM_LIT:2> ; alt31 = dfa31 . predict ( input ) ; switch ( alt31 ) { case <NUM_LIT:1> : { int alt30 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt30 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt30 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt30 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt30 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt30 = <NUM_LIT:5> ; } break ; case RULE_COMMA : { alt30 = <NUM_LIT:6> ; } break ; case RULE_MINUS : { alt30 = <NUM_LIT:7> ; } break ; case RULE_PLUS : { alt30 = <NUM_LIT:8> ; } break ; case RULE_LPAREN : { alt30 = <NUM_LIT:9> ; } break ; case RULE_RPAREN : { alt30 = <NUM_LIT:10> ; } break ; case RULE_RBRACE : { alt30 = <NUM_LIT:11> ; } break ; case RULE_QUESTI : { alt30 = <NUM_LIT:12> ; } break ; case RULE_NOT : { alt30 = <NUM_LIT> ; } break ; case RULE_BAND : { alt30 = <NUM_LIT> ; } break ; case RULE_BOR : { alt30 = <NUM_LIT:15> ; } break ; case RULE_HASH : { alt30 = <NUM_LIT:16> ; } break ; case RULE_CARET : { alt30 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt30 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt30 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt30 = <NUM_LIT:20> ; } break ; case RULE_AND : { alt30 = <NUM_LIT> ; } break ; case RULE_OR : { alt30 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt30 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt30 = <NUM_LIT:24> ; } break ; case RULE_STATEMEN_TYPE : { alt30 = <NUM_LIT> ; } break ; case RULE_MAPPING_TYPE : { alt30 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt30 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT:30> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt30 ) { case <NUM_LIT:1> : { this_REST_27 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleSqlValue5926 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_27 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_27 , grammarAccess . getSqlValueAccess ( ) . getRESTTerminalRuleCall_1_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_28 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleSqlValue5952 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_28 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_28 , grammarAccess . getSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_1_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_29 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleSqlValue5978 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_29 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_29 , grammarAccess . getSqlValueAccess ( ) . getIDENTTerminalRuleCall_1_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_30 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleSqlValue6004 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_30 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_30 , grammarAccess . getSqlValueAccess ( ) . getNUMBERTerminalRuleCall_1_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_31 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleSqlValue6030 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_31 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_31 , grammarAccess . getSqlValueAccess ( ) . getWSTerminalRuleCall_1_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_COMMA_32 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleSqlValue6056 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_32 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_32 , grammarAccess . getSqlValueAccess ( ) . getCOMMATerminalRuleCall_1_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_MINUS_33 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleSqlValue6082 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_33 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_33 , grammarAccess . getSqlValueAccess ( ) . getMINUSTerminalRuleCall_1_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_PLUS_34 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleSqlValue6108 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_34 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_34 , grammarAccess . getSqlValueAccess ( ) . getPLUSTerminalRuleCall_1_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_LPAREN_35 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleSqlValue6134 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_35 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_35 , grammarAccess . getSqlValueAccess ( ) . getLPARENTerminalRuleCall_1_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_RPAREN_36 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleSqlValue6160 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_36 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_36 , grammarAccess . getSqlValueAccess ( ) . getRPARENTerminalRuleCall_1_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RBRACE_37 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_ruleSqlValue6186 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RBRACE_37 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_37 , grammarAccess . getSqlValueAccess ( ) . getRBRACETerminalRuleCall_1_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_QUESTI_38 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleSqlValue6212 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_38 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_38 , grammarAccess . getSqlValueAccess ( ) . getQUESTITerminalRuleCall_1_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_39 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleSqlValue6238 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_39 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_39 , grammarAccess . getSqlValueAccess ( ) . getNOTTerminalRuleCall_1_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_40 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleSqlValue6264 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_40 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_40 , grammarAccess . getSqlValueAccess ( ) . getBANDTerminalRuleCall_1_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_BOR_41 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleSqlValue6290 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_41 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_41 , grammarAccess . getSqlValueAccess ( ) . getBORTerminalRuleCall_1_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_HASH_42 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleSqlValue6316 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_42 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_42 , grammarAccess . getSqlValueAccess ( ) . getHASHTerminalRuleCall_1_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_43 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleSqlValue6342 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_43 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_43 , grammarAccess . getSqlValueAccess ( ) . getCARETTerminalRuleCall_1_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_44 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleSqlValue6368 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_44 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_44 , grammarAccess . getSqlValueAccess ( ) . getEQUALSTerminalRuleCall_1_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_45 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleSqlValue6394 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_45 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_45 , grammarAccess . getSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_1_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_MORE_THAN_46 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleSqlValue6420 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_46 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_46 , grammarAccess . getSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_1_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_47 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleSqlValue6446 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_47 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_47 , grammarAccess . getSqlValueAccess ( ) . getANDTerminalRuleCall_1_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_48 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleSqlValue6472 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_48 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_48 , grammarAccess . getSqlValueAccess ( ) . getORTerminalRuleCall_1_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_49 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleSqlValue6498 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_49 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_49 , grammarAccess . getSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_1_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_ON_OFF_50 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleSqlValue6524 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_50 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_50 , grammarAccess . getSqlValueAccess ( ) . getON_OFFTerminalRuleCall_1_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_STATEMEN_TYPE_51 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleSqlValue6550 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_51 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_51 , grammarAccess . getSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_1_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_52 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleSqlValue6576 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_52 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_52 , grammarAccess . getSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_1_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_53 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleSqlValue6602 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_53 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_53 , grammarAccess . getSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_1_0_26 ( ) ) ; } } break ; } } break ; default : break loop31 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleMetaSql ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMetaSql = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlRule ( ) ) ; } pushFollow ( FOLLOW_ruleMetaSql_in_entryRuleMetaSql6650 ) ; iv_ruleMetaSql = ruleMetaSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMetaSql ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMetaSql6660 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMetaSql ( ) throws RecognitionException { EObject current = null ; Token this_WS_0 = null ; Token this_BOR_2 = null ; Token lv_type_4_0 = null ; Token this_BOR_6 = null ; Token this_BOR_8 = null ; Token lv_type_10_0 = null ; Token this_BOR_12 = null ; Token lv_type_14_0 = null ; Token this_BOR_16 = null ; Token lv_type_18_0 = null ; Token this_WS_19 = null ; Token lv_ftype_20_0 = null ; Token lv_type_22_0 = null ; Token this_NUMBER_23 = null ; EObject lv_ifs_1_0 = null ; EObject lv_ifs_3_0 = null ; EObject lv_cond_5_0 = null ; EObject lv_ifs_7_0 = null ; EObject lv_ifs_9_0 = null ; EObject lv_ifs_11_0 = null ; EObject lv_ifs_13_0 = null ; EObject lv_ifs_15_0 = null ; EObject lv_ifs_17_0 = null ; EObject lv_ifs_21_0 = null ; EObject lv_ord_24_0 = null ; enterRule ( ) ; try { { int alt37 = <NUM_LIT:6> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_WS : { alt37 = <NUM_LIT:1> ; } break ; case RULE_QUESTI : { alt37 = <NUM_LIT:2> ; } break ; case RULE_BAND : { alt37 = <NUM_LIT:3> ; } break ; case RULE_BOR : { alt37 = <NUM_LIT:4> ; } break ; case RULE_EQUALS : { alt37 = <NUM_LIT:5> ; } break ; case RULE_HASH : { alt37 = <NUM_LIT:6> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt37 ) { case <NUM_LIT:1> : { { this_WS_0 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleMetaSql6697 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_0 , grammarAccess . getMetaSqlAccess ( ) . getWSTerminalRuleCall_0_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_0_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6717 ) ; lv_ifs_1_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_1_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop32 : do { int alt32 = <NUM_LIT:2> ; int LA32_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA32_0 == RULE_BOR ) ) { alt32 = <NUM_LIT:1> ; } switch ( alt32 ) { case <NUM_LIT:1> : { this_BOR_2 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql6729 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_2 , grammarAccess . getMetaSqlAccess ( ) . getBORTerminalRuleCall_0_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_0_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6749 ) ; lv_ifs_3_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_3_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop32 ; } } while ( true ) ; } } break ; case <NUM_LIT:2> : { { { { lv_type_4_0 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleMetaSql6776 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_4_0 , grammarAccess . getMetaSqlAccess ( ) . getTypeQUESTITerminalRuleCall_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_4_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getCondIfSqlCondParserRuleCall_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlCond_in_ruleMetaSql6802 ) ; lv_cond_5_0 = ruleIfSqlCond ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cond_5_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_BOR_6 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql6813 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_6 , grammarAccess . getMetaSqlAccess ( ) . getBORTerminalRuleCall_1_2 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_1_3_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6833 ) ; lv_ifs_7_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop33 : do { int alt33 = <NUM_LIT:2> ; int LA33_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA33_0 == RULE_BOR ) ) { alt33 = <NUM_LIT:1> ; } switch ( alt33 ) { case <NUM_LIT:1> : { this_BOR_8 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql6845 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_8 , grammarAccess . getMetaSqlAccess ( ) . getBORTerminalRuleCall_1_4_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_1_4_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6865 ) ; lv_ifs_9_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_9_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop33 ; } } while ( true ) ; } } break ; case <NUM_LIT:3> : { { { { lv_type_10_0 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleMetaSql6892 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_10_0 , grammarAccess . getMetaSqlAccess ( ) . getTypeBANDTerminalRuleCall_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_10_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6918 ) ; lv_ifs_11_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_11_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop34 : do { int alt34 = <NUM_LIT:2> ; int LA34_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA34_0 == RULE_BOR ) ) { alt34 = <NUM_LIT:1> ; } switch ( alt34 ) { case <NUM_LIT:1> : { this_BOR_12 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql6930 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_12 , grammarAccess . getMetaSqlAccess ( ) . getBORTerminalRuleCall_2_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_2_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql6950 ) ; lv_ifs_13_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_13_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop34 ; } } while ( true ) ; } } break ; case <NUM_LIT:4> : { { { { lv_type_14_0 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql6977 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_14_0 , grammarAccess . getMetaSqlAccess ( ) . getTypeBORTerminalRuleCall_3_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_14_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_3_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql7003 ) ; lv_ifs_15_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_15_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop35 : do { int alt35 = <NUM_LIT:2> ; int LA35_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA35_0 == RULE_BOR ) ) { alt35 = <NUM_LIT:1> ; } switch ( alt35 ) { case <NUM_LIT:1> : { this_BOR_16 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleMetaSql7015 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_16 , grammarAccess . getMetaSqlAccess ( ) . getBORTerminalRuleCall_3_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_3_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql7035 ) ; lv_ifs_17_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_17_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop35 ; } } while ( true ) ; } } break ; case <NUM_LIT:5> : { { { { lv_type_18_0 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleMetaSql7062 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_18_0 , grammarAccess . getMetaSqlAccess ( ) . getTypeEQUALSTerminalRuleCall_4_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_18_0 , "<STR_LIT>" ) ; } } } loop36 : do { int alt36 = <NUM_LIT:2> ; int LA36_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA36_0 == RULE_WS ) ) { alt36 = <NUM_LIT:1> ; } switch ( alt36 ) { case <NUM_LIT:1> : { this_WS_19 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleMetaSql7079 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_19 , grammarAccess . getMetaSqlAccess ( ) . getWSTerminalRuleCall_4_1 ( ) ) ; } } break ; default : break loop36 ; } } while ( true ) ; { { lv_ftype_20_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMetaSql7097 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_ftype_20_0 , grammarAccess . getMetaSqlAccess ( ) . getFtypeIDENTTerminalRuleCall_4_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_ftype_20_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_4_3_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleMetaSql7123 ) ; lv_ifs_21_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_21_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:6> : { { { { lv_type_22_0 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleMetaSql7148 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_22_0 , grammarAccess . getMetaSqlAccess ( ) . getTypeHASHTerminalRuleCall_5_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_22_0 , "<STR_LIT>" ) ; } } } this_NUMBER_23 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleMetaSql7164 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_23 , grammarAccess . getMetaSqlAccess ( ) . getNUMBERTerminalRuleCall_5_1 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMetaSqlAccess ( ) . getOrdOrdSqlParserRuleCall_5_2_0 ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSql_in_ruleMetaSql7184 ) ; lv_ord_24_0 = ruleOrdSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMetaSqlRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_ord_24_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIfSql ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIfSql = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_entryRuleIfSql7221 ) ; iv_ruleIfSql = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfSql ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfSql7231 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIfSql ( ) throws RecognitionException { EObject current = null ; EObject lv_sqls_0_0 = null ; enterRule ( ) ; try { { int cnt38 = <NUM_LIT:0> ; loop38 : do { int alt38 = <NUM_LIT:2> ; int LA38_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA38_0 >= RULE_WS && LA38_0 <= RULE_LBRACE ) \|\| ( LA38_0 >= RULE_QUESTI && LA38_0 <= RULE_BAND ) \|\| ( LA38_0 >= RULE_HASH && LA38_0 <= RULE_OPTION_TYPE ) ) ) { alt38 = <NUM_LIT:1> ; } switch ( alt38 ) { case <NUM_LIT:1> : { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlAccess ( ) . getSqlsIfSqlFragmentParserRuleCall_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlFragment_in_ruleIfSql7276 ) ; lv_sqls_0_0 = ruleIfSqlFragment ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_sqls_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } break ; default : if ( cnt38 >= <NUM_LIT:1> ) break loop38 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt38 ++ ; } while ( true ) ; } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIfSqlFragment ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIfSqlFragment = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlFragment_in_entryRuleIfSqlFragment7312 ) ; iv_ruleIfSqlFragment = ruleIfSqlFragment ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfSqlFragment ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfSqlFragment7322 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIfSqlFragment ( ) throws RecognitionException { EObject current = null ; Token this_AT_1 = null ; Token this_STRING_3 = null ; Token this_COLON_5 = null ; Token this_PERCENT_7 = null ; Token this_PERCENT_8 = null ; Token this_LBRACE_11 = null ; Token this_RBRACE_13 = null ; AntlrDatatypeRuleToken lv_value_0_0 = null ; EObject lv_col_2_0 = null ; EObject lv_cnst_4_0 = null ; EObject lv_ident_6_0 = null ; EObject lv_dbtab_9_0 = null ; EObject lv_dbcol_10_0 = null ; EObject lv_meta_12_0 = null ; enterRule ( ) ; try { { int alt40 = <NUM_LIT:6> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_WS : case RULE_ON_OFF : case RULE_SEMICOLON : case RULE_REST : case RULE_IDENT_DOT : case RULE_IDENT : case RULE_NUMBER : case RULE_COMMA : case RULE_MINUS : case RULE_PLUS : case RULE_LPAREN : case RULE_RPAREN : case RULE_QUESTI : case RULE_NOT : case RULE_BAND : case RULE_HASH : case RULE_CARET : case RULE_EQUALS : case RULE_LESS_THAN : case RULE_MORE_THAN : case RULE_AND : case RULE_OR : case RULE_ESC_CHAR : case RULE_STATEMEN_TYPE : case RULE_MAPPING_TYPE : case RULE_OPTION_TYPE : { alt40 = <NUM_LIT:1> ; } break ; case RULE_AT : { alt40 = <NUM_LIT:2> ; } break ; case RULE_STRING : { alt40 = <NUM_LIT:3> ; } break ; case RULE_COLON : { alt40 = <NUM_LIT:4> ; } break ; case RULE_PERCENT : { alt40 = <NUM_LIT:5> ; } break ; case RULE_LBRACE : { alt40 = <NUM_LIT:6> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt40 ) { case <NUM_LIT:1> : { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getValueIfSqlValueParserRuleCall_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlValue_in_ruleIfSqlFragment7368 ) ; lv_value_0_0 = ruleIfSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT:value>" , lv_value_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; case <NUM_LIT:2> : { { this_AT_1 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_ruleIfSqlFragment7386 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_1 , grammarAccess . getIfSqlFragmentAccess ( ) . getATTerminalRuleCall_1_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getColColumnParserRuleCall_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleColumn_in_ruleIfSqlFragment7406 ) ; lv_col_2_0 = ruleColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_col_2_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:3> : { { this_STRING_3 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleIfSqlFragment7425 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_3 , grammarAccess . getIfSqlFragmentAccess ( ) . getSTRINGTerminalRuleCall_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getCnstConstantParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleConstant_in_ruleIfSqlFragment7445 ) ; lv_cnst_4_0 = ruleConstant ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cnst_4_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:4> : { { this_COLON_5 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_ruleIfSqlFragment7464 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_5 , grammarAccess . getIfSqlFragmentAccess ( ) . getCOLONTerminalRuleCall_3_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getIdentIdentifierParserRuleCall_3_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifier_in_ruleIfSqlFragment7484 ) ; lv_ident_6_0 = ruleIdentifier ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_ident_6_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:5> : { { this_PERCENT_7 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleIfSqlFragment7503 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_7 , grammarAccess . getIfSqlFragmentAccess ( ) . getPERCENTTerminalRuleCall_4_0 ( ) ) ; } int alt39 = <NUM_LIT:2> ; int LA39_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA39_0 == RULE_PERCENT ) ) { alt39 = <NUM_LIT:1> ; } else if ( ( ( LA39_0 >= RULE_IDENT_DOT && LA39_0 <= RULE_IDENT ) ) ) { alt39 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt39 ) { case <NUM_LIT:1> : { { this_PERCENT_8 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleIfSqlFragment7515 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_8 , grammarAccess . getIfSqlFragmentAccess ( ) . getPERCENTTerminalRuleCall_4_1_0_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getDbtabDatabaseTableParserRuleCall_4_1_0_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseTable_in_ruleIfSqlFragment7535 ) ; lv_dbtab_9_0 = ruleDatabaseTable ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbtab_9_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:2> : { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getDbcolDatabaseColumnParserRuleCall_4_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseColumn_in_ruleIfSqlFragment7563 ) ; lv_dbcol_10_0 = ruleDatabaseColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbcol_10_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; } } } break ; case <NUM_LIT:6> : { { this_LBRACE_11 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_ruleIfSqlFragment7583 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_11 , grammarAccess . getIfSqlFragmentAccess ( ) . getLBRACETerminalRuleCall_5_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlFragmentAccess ( ) . getMetaIfMetaSqlParserRuleCall_5_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfMetaSql_in_ruleIfSqlFragment7603 ) ; lv_meta_12_0 = ruleIfMetaSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlFragmentRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_meta_12_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_RBRACE_13 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_ruleIfSqlFragment7614 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_13 , grammarAccess . getIfSqlFragmentAccess ( ) . getRBRACETerminalRuleCall_5_2 ( ) ) ; } } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final String entryRuleIfSqlValue ( ) throws RecognitionException { String current = null ; AntlrDatatypeRuleToken iv_ruleIfSqlValue = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlValueRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlValue_in_entryRuleIfSqlValue7651 ) ; iv_ruleIfSqlValue = ruleIfSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfSqlValue . getText ( ) ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfSqlValue7662 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final AntlrDatatypeRuleToken ruleIfSqlValue ( ) throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken ( ) ; Token this_REST_0 = null ; Token this_IDENT_DOT_1 = null ; Token this_IDENT_2 = null ; Token this_NUMBER_3 = null ; Token this_WS_4 = null ; Token this_SEMICOLON_5 = null ; Token this_COMMA_6 = null ; Token this_MINUS_7 = null ; Token this_PLUS_8 = null ; Token this_LPAREN_9 = null ; Token this_RPAREN_10 = null ; Token this_QUESTI_11 = null ; Token this_NOT_12 = null ; Token this_BAND_13 = null ; Token this_HASH_14 = null ; Token this_CARET_15 = null ; Token this_EQUALS_16 = null ; Token this_LESS_THAN_17 = null ; Token this_MORE_THAN_18 = null ; Token this_AND_19 = null ; Token this_OR_20 = null ; Token this_ESC_CHAR_21 = null ; Token this_ON_OFF_22 = null ; Token this_STATEMEN_TYPE_23 = null ; Token this_MAPPING_TYPE_24 = null ; Token this_OPTION_TYPE_25 = null ; Token this_REST_26 = null ; Token this_IDENT_DOT_27 = null ; Token this_IDENT_28 = null ; Token this_NUMBER_29 = null ; Token this_WS_30 = null ; Token this_SEMICOLON_31 = null ; Token this_COMMA_32 = null ; Token this_MINUS_33 = null ; Token this_PLUS_34 = null ; Token this_LPAREN_35 = null ; Token this_RPAREN_36 = null ; Token this_QUESTI_37 = null ; Token this_NOT_38 = null ; Token this_BAND_39 = null ; Token this_HASH_40 = null ; Token this_CARET_41 = null ; Token this_EQUALS_42 = null ; Token this_LESS_THAN_43 = null ; Token this_MORE_THAN_44 = null ; Token this_AND_45 = null ; Token this_OR_46 = null ; Token this_ESC_CHAR_47 = null ; Token this_ON_OFF_48 = null ; Token this_STATEMEN_TYPE_49 = null ; Token this_MAPPING_TYPE_50 = null ; Token this_OPTION_TYPE_51 = null ; enterRule ( ) ; try { { { int alt41 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt41 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt41 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt41 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt41 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt41 = <NUM_LIT:5> ; } break ; case RULE_SEMICOLON : { alt41 = <NUM_LIT:6> ; } break ; case RULE_COMMA : { alt41 = <NUM_LIT:7> ; } break ; case RULE_MINUS : { alt41 = <NUM_LIT:8> ; } break ; case RULE_PLUS : { alt41 = <NUM_LIT:9> ; } break ; case RULE_LPAREN : { alt41 = <NUM_LIT:10> ; } break ; case RULE_RPAREN : { alt41 = <NUM_LIT:11> ; } break ; case RULE_QUESTI : { alt41 = <NUM_LIT:12> ; } break ; case RULE_NOT : { alt41 = <NUM_LIT> ; } break ; case RULE_BAND : { alt41 = <NUM_LIT> ; } break ; case RULE_HASH : { alt41 = <NUM_LIT:15> ; } break ; case RULE_CARET : { alt41 = <NUM_LIT:16> ; } break ; case RULE_EQUALS : { alt41 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt41 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt41 = <NUM_LIT> ; } break ; case RULE_AND : { alt41 = <NUM_LIT:20> ; } break ; case RULE_OR : { alt41 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt41 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt41 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt41 = <NUM_LIT:24> ; } break ; case RULE_MAPPING_TYPE : { alt41 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt41 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt41 ) { case <NUM_LIT:1> : { this_REST_0 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleIfSqlValue7703 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_0 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_0 , grammarAccess . getIfSqlValueAccess ( ) . getRESTTerminalRuleCall_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_1 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleIfSqlValue7729 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_1 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_1 , grammarAccess . getIfSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIfSqlValue7755 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_2 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_2 , grammarAccess . getIfSqlValueAccess ( ) . getIDENTTerminalRuleCall_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleIfSqlValue7781 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_3 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_3 , grammarAccess . getIfSqlValueAccess ( ) . getNUMBERTerminalRuleCall_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlValue7807 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_4 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getIfSqlValueAccess ( ) . getWSTerminalRuleCall_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_SEMICOLON_5 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleIfSqlValue7833 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_SEMICOLON_5 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_5 , grammarAccess . getIfSqlValueAccess ( ) . getSEMICOLONTerminalRuleCall_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_COMMA_6 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleIfSqlValue7859 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_6 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_6 , grammarAccess . getIfSqlValueAccess ( ) . getCOMMATerminalRuleCall_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_MINUS_7 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleIfSqlValue7885 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_7 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_7 , grammarAccess . getIfSqlValueAccess ( ) . getMINUSTerminalRuleCall_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_PLUS_8 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleIfSqlValue7911 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_8 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_8 , grammarAccess . getIfSqlValueAccess ( ) . getPLUSTerminalRuleCall_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_LPAREN_9 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleIfSqlValue7937 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_9 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_9 , grammarAccess . getIfSqlValueAccess ( ) . getLPARENTerminalRuleCall_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RPAREN_10 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleIfSqlValue7963 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_10 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_10 , grammarAccess . getIfSqlValueAccess ( ) . getRPARENTerminalRuleCall_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_QUESTI_11 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleIfSqlValue7989 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_11 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_11 , grammarAccess . getIfSqlValueAccess ( ) . getQUESTITerminalRuleCall_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_12 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleIfSqlValue8015 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_12 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_12 , grammarAccess . getIfSqlValueAccess ( ) . getNOTTerminalRuleCall_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_13 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleIfSqlValue8041 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_13 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_13 , grammarAccess . getIfSqlValueAccess ( ) . getBANDTerminalRuleCall_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_HASH_14 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleIfSqlValue8067 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_14 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_14 , grammarAccess . getIfSqlValueAccess ( ) . getHASHTerminalRuleCall_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_CARET_15 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleIfSqlValue8093 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_15 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_15 , grammarAccess . getIfSqlValueAccess ( ) . getCARETTerminalRuleCall_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_16 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleIfSqlValue8119 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_16 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_16 , grammarAccess . getIfSqlValueAccess ( ) . getEQUALSTerminalRuleCall_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_17 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleIfSqlValue8145 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_17 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_17 , grammarAccess . getIfSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_MORE_THAN_18 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleIfSqlValue8171 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_18 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_18 , grammarAccess . getIfSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_AND_19 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleIfSqlValue8197 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_19 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_19 , grammarAccess . getIfSqlValueAccess ( ) . getANDTerminalRuleCall_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_20 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleIfSqlValue8223 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_20 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_20 , grammarAccess . getIfSqlValueAccess ( ) . getORTerminalRuleCall_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_21 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleIfSqlValue8249 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_21 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_21 , grammarAccess . getIfSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_22 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleIfSqlValue8275 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_22 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_22 , grammarAccess . getIfSqlValueAccess ( ) . getON_OFFTerminalRuleCall_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_STATEMEN_TYPE_23 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleIfSqlValue8301 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_23 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_23 , grammarAccess . getIfSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_24 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleIfSqlValue8327 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_24 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_24 , grammarAccess . getIfSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_25 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleIfSqlValue8353 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_25 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_25 , grammarAccess . getIfSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_0_25 ( ) ) ; } } break ; } loop43 : do { int alt43 = <NUM_LIT:2> ; alt43 = dfa43 . predict ( input ) ; switch ( alt43 ) { case <NUM_LIT:1> : { int alt42 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt42 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt42 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt42 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt42 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt42 = <NUM_LIT:5> ; } break ; case RULE_SEMICOLON : { alt42 = <NUM_LIT:6> ; } break ; case RULE_COMMA : { alt42 = <NUM_LIT:7> ; } break ; case RULE_MINUS : { alt42 = <NUM_LIT:8> ; } break ; case RULE_PLUS : { alt42 = <NUM_LIT:9> ; } break ; case RULE_LPAREN : { alt42 = <NUM_LIT:10> ; } break ; case RULE_RPAREN : { alt42 = <NUM_LIT:11> ; } break ; case RULE_QUESTI : { alt42 = <NUM_LIT:12> ; } break ; case RULE_NOT : { alt42 = <NUM_LIT> ; } break ; case RULE_BAND : { alt42 = <NUM_LIT> ; } break ; case RULE_HASH : { alt42 = <NUM_LIT:15> ; } break ; case RULE_CARET : { alt42 = <NUM_LIT:16> ; } break ; case RULE_EQUALS : { alt42 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt42 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt42 = <NUM_LIT> ; } break ; case RULE_AND : { alt42 = <NUM_LIT:20> ; } break ; case RULE_OR : { alt42 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt42 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt42 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt42 = <NUM_LIT:24> ; } break ; case RULE_MAPPING_TYPE : { alt42 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt42 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt42 ) { case <NUM_LIT:1> : { this_REST_26 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleIfSqlValue8583 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_26 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_26 , grammarAccess . getIfSqlValueAccess ( ) . getRESTTerminalRuleCall_1_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_27 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleIfSqlValue8609 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_27 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_27 , grammarAccess . getIfSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_1_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_28 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIfSqlValue8635 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_28 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_28 , grammarAccess . getIfSqlValueAccess ( ) . getIDENTTerminalRuleCall_1_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_29 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleIfSqlValue8661 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_29 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_29 , grammarAccess . getIfSqlValueAccess ( ) . getNUMBERTerminalRuleCall_1_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_30 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlValue8687 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_30 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_30 , grammarAccess . getIfSqlValueAccess ( ) . getWSTerminalRuleCall_1_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_SEMICOLON_31 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleIfSqlValue8713 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_SEMICOLON_31 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_31 , grammarAccess . getIfSqlValueAccess ( ) . getSEMICOLONTerminalRuleCall_1_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_COMMA_32 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleIfSqlValue8739 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_32 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_32 , grammarAccess . getIfSqlValueAccess ( ) . getCOMMATerminalRuleCall_1_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_MINUS_33 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleIfSqlValue8765 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_33 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_33 , grammarAccess . getIfSqlValueAccess ( ) . getMINUSTerminalRuleCall_1_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_PLUS_34 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleIfSqlValue8791 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_34 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_34 , grammarAccess . getIfSqlValueAccess ( ) . getPLUSTerminalRuleCall_1_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_LPAREN_35 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleIfSqlValue8817 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_35 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_35 , grammarAccess . getIfSqlValueAccess ( ) . getLPARENTerminalRuleCall_1_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RPAREN_36 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleIfSqlValue8843 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_36 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_36 , grammarAccess . getIfSqlValueAccess ( ) . getRPARENTerminalRuleCall_1_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_QUESTI_37 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleIfSqlValue8869 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_37 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_37 , grammarAccess . getIfSqlValueAccess ( ) . getQUESTITerminalRuleCall_1_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_38 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleIfSqlValue8895 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_38 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_38 , grammarAccess . getIfSqlValueAccess ( ) . getNOTTerminalRuleCall_1_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_39 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleIfSqlValue8921 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_39 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_39 , grammarAccess . getIfSqlValueAccess ( ) . getBANDTerminalRuleCall_1_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_HASH_40 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleIfSqlValue8947 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_40 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_40 , grammarAccess . getIfSqlValueAccess ( ) . getHASHTerminalRuleCall_1_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_CARET_41 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleIfSqlValue8973 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_41 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_41 , grammarAccess . getIfSqlValueAccess ( ) . getCARETTerminalRuleCall_1_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_42 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleIfSqlValue8999 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_42 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_42 , grammarAccess . getIfSqlValueAccess ( ) . getEQUALSTerminalRuleCall_1_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_43 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleIfSqlValue9025 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_43 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_43 , grammarAccess . getIfSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_1_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_MORE_THAN_44 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleIfSqlValue9051 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_44 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_44 , grammarAccess . getIfSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_1_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_AND_45 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleIfSqlValue9077 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_45 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_45 , grammarAccess . getIfSqlValueAccess ( ) . getANDTerminalRuleCall_1_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_46 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleIfSqlValue9103 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_46 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_46 , grammarAccess . getIfSqlValueAccess ( ) . getORTerminalRuleCall_1_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_47 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleIfSqlValue9129 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_47 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_47 , grammarAccess . getIfSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_1_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_48 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleIfSqlValue9155 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_48 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_48 , grammarAccess . getIfSqlValueAccess ( ) . getON_OFFTerminalRuleCall_1_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_STATEMEN_TYPE_49 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleIfSqlValue9181 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_49 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_49 , grammarAccess . getIfSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_1_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_50 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleIfSqlValue9207 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_50 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_50 , grammarAccess . getIfSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_1_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_51 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleIfSqlValue9233 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_51 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_51 , grammarAccess . getIfSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_1_0_25 ( ) ) ; } } break ; } } break ; default : break loop43 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIfMetaSql ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIfMetaSql = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfMetaSql_in_entryRuleIfMetaSql9281 ) ; iv_ruleIfMetaSql = ruleIfMetaSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfMetaSql ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfMetaSql9291 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIfMetaSql ( ) throws RecognitionException { EObject current = null ; Token this_WS_0 = null ; Token this_BOR_2 = null ; Token lv_type_4_0 = null ; Token this_BOR_6 = null ; Token this_BOR_8 = null ; Token lv_type_10_0 = null ; Token this_BOR_12 = null ; Token lv_type_14_0 = null ; Token this_BOR_16 = null ; EObject lv_ifs_1_0 = null ; EObject lv_ifs_3_0 = null ; EObject lv_cond_5_0 = null ; EObject lv_ifs_7_0 = null ; EObject lv_ifs_9_0 = null ; EObject lv_ifs_11_0 = null ; EObject lv_ifs_13_0 = null ; EObject lv_ifs_15_0 = null ; EObject lv_ifs_17_0 = null ; enterRule ( ) ; try { { int alt48 = <NUM_LIT:4> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_WS : { alt48 = <NUM_LIT:1> ; } break ; case RULE_QUESTI : { alt48 = <NUM_LIT:2> ; } break ; case RULE_BAND : { alt48 = <NUM_LIT:3> ; } break ; case RULE_BOR : { alt48 = <NUM_LIT:4> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt48 ) { case <NUM_LIT:1> : { { this_WS_0 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfMetaSql9328 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_0 , grammarAccess . getIfMetaSqlAccess ( ) . getWSTerminalRuleCall_0_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_0_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9348 ) ; lv_ifs_1_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_1_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop44 : do { int alt44 = <NUM_LIT:2> ; int LA44_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA44_0 == RULE_BOR ) ) { alt44 = <NUM_LIT:1> ; } switch ( alt44 ) { case <NUM_LIT:1> : { this_BOR_2 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9360 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_2 , grammarAccess . getIfMetaSqlAccess ( ) . getBORTerminalRuleCall_0_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_0_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9380 ) ; lv_ifs_3_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_3_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop44 ; } } while ( true ) ; } } break ; case <NUM_LIT:2> : { { { { lv_type_4_0 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleIfMetaSql9407 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_4_0 , grammarAccess . getIfMetaSqlAccess ( ) . getTypeQUESTITerminalRuleCall_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_4_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getCondIfSqlCondParserRuleCall_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlCond_in_ruleIfMetaSql9433 ) ; lv_cond_5_0 = ruleIfSqlCond ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cond_5_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_BOR_6 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9444 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_6 , grammarAccess . getIfMetaSqlAccess ( ) . getBORTerminalRuleCall_1_2 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_1_3_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9464 ) ; lv_ifs_7_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop45 : do { int alt45 = <NUM_LIT:2> ; int LA45_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA45_0 == RULE_BOR ) ) { alt45 = <NUM_LIT:1> ; } switch ( alt45 ) { case <NUM_LIT:1> : { this_BOR_8 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9476 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_8 , grammarAccess . getIfMetaSqlAccess ( ) . getBORTerminalRuleCall_1_4_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_1_4_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9496 ) ; lv_ifs_9_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_9_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop45 ; } } while ( true ) ; } } break ; case <NUM_LIT:3> : { { { { lv_type_10_0 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleIfMetaSql9523 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_10_0 , grammarAccess . getIfMetaSqlAccess ( ) . getTypeBANDTerminalRuleCall_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_10_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9549 ) ; lv_ifs_11_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_11_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop46 : do { int alt46 = <NUM_LIT:2> ; int LA46_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA46_0 == RULE_BOR ) ) { alt46 = <NUM_LIT:1> ; } switch ( alt46 ) { case <NUM_LIT:1> : { this_BOR_12 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9561 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_12 , grammarAccess . getIfMetaSqlAccess ( ) . getBORTerminalRuleCall_2_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_2_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9581 ) ; lv_ifs_13_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_13_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop46 ; } } while ( true ) ; } } break ; case <NUM_LIT:4> : { { { { lv_type_14_0 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9608 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_14_0 , grammarAccess . getIfMetaSqlAccess ( ) . getTypeBORTerminalRuleCall_3_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfMetaSqlRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_14_0 , "<STR_LIT>" ) ; } } } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_3_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9634 ) ; lv_ifs_15_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_15_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop47 : do { int alt47 = <NUM_LIT:2> ; int LA47_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA47_0 == RULE_BOR ) ) { alt47 = <NUM_LIT:1> ; } switch ( alt47 ) { case <NUM_LIT:1> : { this_BOR_16 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleIfMetaSql9646 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_16 , grammarAccess . getIfMetaSqlAccess ( ) . getBORTerminalRuleCall_3_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfMetaSqlAccess ( ) . getIfsIfSqlParserRuleCall_3_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSql_in_ruleIfMetaSql9666 ) ; lv_ifs_17_0 = ruleIfSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfMetaSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_ifs_17_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop47 ; } } while ( true ) ; } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIfSqlCond ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIfSqlCond = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlCondRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlCond_in_entryRuleIfSqlCond9705 ) ; iv_ruleIfSqlCond = ruleIfSqlCond ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfSqlCond ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfSqlCond9715 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIfSqlCond ( ) throws RecognitionException { EObject current = null ; Token this_WS_0 = null ; Token this_WS_2 = null ; Token lv_oper_3_1 = null ; Token lv_oper_3_2 = null ; Token this_WS_4 = null ; Token this_WS_6 = null ; EObject lv_bool1_1_0 = null ; EObject lv_bool2_5_0 = null ; enterRule ( ) ; try { { { loop49 : do { int alt49 = <NUM_LIT:2> ; int LA49_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA49_0 == RULE_WS ) ) { alt49 = <NUM_LIT:1> ; } switch ( alt49 ) { case <NUM_LIT:1> : { this_WS_0 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlCond9752 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_0 , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; } } break ; default : break loop49 ; } } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlCondAccess ( ) . getBool1IfSqlBoolParserRuleCall_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlBool_in_ruleIfSqlCond9774 ) ; lv_bool1_1_0 = ruleIfSqlBool ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlCondRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_bool1_1_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop50 : do { int alt50 = <NUM_LIT:2> ; int LA50_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA50_0 == RULE_WS ) ) { alt50 = <NUM_LIT:1> ; } switch ( alt50 ) { case <NUM_LIT:1> : { this_WS_2 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlCond9786 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_2 , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_2 ( ) ) ; } } break ; default : break loop50 ; } } while ( true ) ; loop54 : do { int alt54 = <NUM_LIT:2> ; int LA54_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA54_0 >= RULE_AND && LA54_0 <= RULE_OR ) ) ) { alt54 = <NUM_LIT:1> ; } switch ( alt54 ) { case <NUM_LIT:1> : { { { int alt51 = <NUM_LIT:2> ; int LA51_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA51_0 == RULE_AND ) ) { alt51 = <NUM_LIT:1> ; } else if ( ( LA51_0 == RULE_OR ) ) { alt51 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt51 ) { case <NUM_LIT:1> : { lv_oper_3_1 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleIfSqlCond9807 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_oper_3_1 , grammarAccess . getIfSqlCondAccess ( ) . getOperANDTerminalRuleCall_3_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfSqlCondRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_oper_3_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_oper_3_2 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleIfSqlCond9827 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_oper_3_2 , grammarAccess . getIfSqlCondAccess ( ) . getOperORTerminalRuleCall_3_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfSqlCondRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_oper_3_2 , "<STR_LIT>" ) ; } } break ; } } } loop52 : do { int alt52 = <NUM_LIT:2> ; int LA52_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA52_0 == RULE_WS ) ) { alt52 = <NUM_LIT:1> ; } switch ( alt52 ) { case <NUM_LIT:1> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlCond9847 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_1 ( ) ) ; } } break ; default : break loop52 ; } } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlCondAccess ( ) . getBool2IfSqlBoolParserRuleCall_3_2_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlBool_in_ruleIfSqlCond9869 ) ; lv_bool2_5_0 = ruleIfSqlBool ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlCondRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_bool2_5_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop53 : do { int alt53 = <NUM_LIT:2> ; int LA53_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA53_0 == RULE_WS ) ) { alt53 = <NUM_LIT:1> ; } switch ( alt53 ) { case <NUM_LIT:1> : { this_WS_6 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleIfSqlCond9881 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_6 , grammarAccess . getIfSqlCondAccess ( ) . getWSTerminalRuleCall_3_3 ( ) ) ; } } break ; default : break loop53 ; } } while ( true ) ; } break ; default : break loop54 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIfSqlBool ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIfSqlBool = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlBoolRule ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlBool_in_entryRuleIfSqlBool9920 ) ; iv_ruleIfSqlBool = ruleIfSqlBool ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIfSqlBool ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIfSqlBool9930 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIfSqlBool ( ) throws RecognitionException { EObject current = null ; Token lv_not_0_0 = null ; Token this_STRING_1 = null ; Token lv_not_3_0 = null ; Token this_COLON_4 = null ; Token lv_not_6_0 = null ; Token this_LPAREN_7 = null ; Token this_RPAREN_9 = null ; EObject lv_cnst_2_0 = null ; EObject lv_ident_5_0 = null ; EObject lv_cond_8_0 = null ; enterRule ( ) ; try { { int alt58 = <NUM_LIT:3> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_NOT : { switch ( input . LA ( <NUM_LIT:2> ) ) { case RULE_LPAREN : { alt58 = <NUM_LIT:3> ; } break ; case RULE_COLON : { alt58 = <NUM_LIT:2> ; } break ; case RULE_STRING : { alt58 = <NUM_LIT:1> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:1> , input ) ; throw nvae ; } } break ; case RULE_STRING : { alt58 = <NUM_LIT:1> ; } break ; case RULE_COLON : { alt58 = <NUM_LIT:2> ; } break ; case RULE_LPAREN : { alt58 = <NUM_LIT:3> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt58 ) { case <NUM_LIT:1> : { { int alt55 = <NUM_LIT:2> ; int LA55_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA55_0 == RULE_NOT ) ) { alt55 = <NUM_LIT:1> ; } switch ( alt55 ) { case <NUM_LIT:1> : { { lv_not_0_0 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleIfSqlBool9973 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_not_0_0 , grammarAccess . getIfSqlBoolAccess ( ) . getNotNOTTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfSqlBoolRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , true , "<STR_LIT>" ) ; } } } break ; } this_STRING_1 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleIfSqlBool9990 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_1 , grammarAccess . getIfSqlBoolAccess ( ) . getSTRINGTerminalRuleCall_0_1 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlBoolAccess ( ) . getCnstConstantParserRuleCall_0_2_0 ( ) ) ; } pushFollow ( FOLLOW_ruleConstant_in_ruleIfSqlBool10010 ) ; lv_cnst_2_0 = ruleConstant ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlBoolRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cnst_2_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:2> : { { int alt56 = <NUM_LIT:2> ; int LA56_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA56_0 == RULE_NOT ) ) { alt56 = <NUM_LIT:1> ; } switch ( alt56 ) { case <NUM_LIT:1> : { { lv_not_3_0 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleIfSqlBool10035 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_not_3_0 , grammarAccess . getIfSqlBoolAccess ( ) . getNotNOTTerminalRuleCall_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfSqlBoolRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , true , "<STR_LIT>" ) ; } } } break ; } this_COLON_4 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_ruleIfSqlBool10052 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_4 , grammarAccess . getIfSqlBoolAccess ( ) . getCOLONTerminalRuleCall_1_1 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlBoolAccess ( ) . getIdentIdentifierParserRuleCall_1_2_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifier_in_ruleIfSqlBool10072 ) ; lv_ident_5_0 = ruleIdentifier ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlBoolRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_ident_5_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:3> : { { int alt57 = <NUM_LIT:2> ; int LA57_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA57_0 == RULE_NOT ) ) { alt57 = <NUM_LIT:1> ; } switch ( alt57 ) { case <NUM_LIT:1> : { { lv_not_6_0 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleIfSqlBool10097 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_not_6_0 , grammarAccess . getIfSqlBoolAccess ( ) . getNotNOTTerminalRuleCall_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIfSqlBoolRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , true , "<STR_LIT>" ) ; } } } break ; } this_LPAREN_7 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleIfSqlBool10114 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_7 , grammarAccess . getIfSqlBoolAccess ( ) . getLPARENTerminalRuleCall_2_1 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIfSqlBoolAccess ( ) . getCondIfSqlCondParserRuleCall_2_2_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIfSqlCond_in_ruleIfSqlBool10134 ) ; lv_cond_8_0 = ruleIfSqlCond ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getIfSqlBoolRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cond_8_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_RPAREN_9 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleIfSqlBool10145 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_9 , grammarAccess . getIfSqlBoolAccess ( ) . getRPARENTerminalRuleCall_2_3 ( ) ) ; } } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleOrdSql ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleOrdSql = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSqlRule ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSql_in_entryRuleOrdSql10181 ) ; iv_ruleOrdSql = ruleOrdSql ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleOrdSql ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleOrdSql10191 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleOrdSql ( ) throws RecognitionException { EObject current = null ; EObject lv_sqls_0_0 = null ; enterRule ( ) ; try { { int cnt59 = <NUM_LIT:0> ; loop59 : do { int alt59 = <NUM_LIT:2> ; int LA59_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA59_0 >= RULE_WS && LA59_0 <= RULE_LBRACE ) \|\| ( LA59_0 >= RULE_QUESTI && LA59_0 <= RULE_OPTION_TYPE ) ) ) { alt59 = <NUM_LIT:1> ; } switch ( alt59 ) { case <NUM_LIT:1> : { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSqlAccess ( ) . getSqlsOrdSql2ParserRuleCall_0 ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSql2_in_ruleOrdSql10236 ) ; lv_sqls_0_0 = ruleOrdSql2 ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOrdSqlRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_sqls_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } break ; default : if ( cnt59 >= <NUM_LIT:1> ) break loop59 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt59 ++ ; } while ( true ) ; } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleOrdSql2 ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleOrdSql2 = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSql2Rule ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSql2_in_entryRuleOrdSql210272 ) ; iv_ruleOrdSql2 = ruleOrdSql2 ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleOrdSql2 ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleOrdSql210282 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleOrdSql2 ( ) throws RecognitionException { EObject current = null ; Token this_STRING_1 = null ; Token this_COLON_3 = null ; Token this_PERCENT_5 = null ; AntlrDatatypeRuleToken lv_value_0_0 = null ; EObject lv_cnst_2_0 = null ; EObject lv_ident_4_0 = null ; EObject lv_dbcol_6_0 = null ; enterRule ( ) ; try { { int alt60 = <NUM_LIT:4> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_WS : case RULE_ON_OFF : case RULE_SEMICOLON : case RULE_REST : case RULE_IDENT_DOT : case RULE_IDENT : case RULE_NUMBER : case RULE_COMMA : case RULE_MINUS : case RULE_PLUS : case RULE_LPAREN : case RULE_RPAREN : case RULE_LBRACE : case RULE_QUESTI : case RULE_NOT : case RULE_BAND : case RULE_BOR : case RULE_HASH : case RULE_AT : case RULE_CARET : case RULE_EQUALS : case RULE_LESS_THAN : case RULE_MORE_THAN : case RULE_AND : case RULE_OR : case RULE_ESC_CHAR : case RULE_STATEMEN_TYPE : case RULE_MAPPING_TYPE : case RULE_OPTION_TYPE : { alt60 = <NUM_LIT:1> ; } break ; case RULE_STRING : { alt60 = <NUM_LIT:2> ; } break ; case RULE_COLON : { alt60 = <NUM_LIT:3> ; } break ; case RULE_PERCENT : { alt60 = <NUM_LIT:4> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt60 ) { case <NUM_LIT:1> : { { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSql2Access ( ) . getValueOrdSqlValueParserRuleCall_0_0 ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSqlValue_in_ruleOrdSql210328 ) ; lv_value_0_0 = ruleOrdSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOrdSql2Rule ( ) ) ; } set ( current , "<STR_LIT:value>" , lv_value_0_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; case <NUM_LIT:2> : { { this_STRING_1 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleOrdSql210346 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_1 , grammarAccess . getOrdSql2Access ( ) . getSTRINGTerminalRuleCall_1_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSql2Access ( ) . getCnstConstantParserRuleCall_1_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleConstant_in_ruleOrdSql210366 ) ; lv_cnst_2_0 = ruleConstant ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOrdSql2Rule ( ) ) ; } set ( current , "<STR_LIT>" , lv_cnst_2_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:3> : { { this_COLON_3 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_ruleOrdSql210385 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_3 , grammarAccess . getOrdSql2Access ( ) . getCOLONTerminalRuleCall_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSql2Access ( ) . getIdentIdentifierParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifier_in_ruleOrdSql210405 ) ; lv_ident_4_0 = ruleIdentifier ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOrdSql2Rule ( ) ) ; } set ( current , "<STR_LIT>" , lv_ident_4_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; case <NUM_LIT:4> : { { this_PERCENT_5 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleOrdSql210424 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_5 , grammarAccess . getOrdSql2Access ( ) . getPERCENTTerminalRuleCall_3_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSql2Access ( ) . getDbcolDatabaseColumnParserRuleCall_3_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseColumn_in_ruleOrdSql210444 ) ; lv_dbcol_6_0 = ruleDatabaseColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOrdSql2Rule ( ) ) ; } set ( current , "<STR_LIT>" , lv_dbcol_6_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } } break ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final String entryRuleOrdSqlValue ( ) throws RecognitionException { String current = null ; AntlrDatatypeRuleToken iv_ruleOrdSqlValue = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOrdSqlValueRule ( ) ) ; } pushFollow ( FOLLOW_ruleOrdSqlValue_in_entryRuleOrdSqlValue10482 ) ; iv_ruleOrdSqlValue = ruleOrdSqlValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleOrdSqlValue . getText ( ) ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleOrdSqlValue10493 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final AntlrDatatypeRuleToken ruleOrdSqlValue ( ) throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken ( ) ; Token this_REST_0 = null ; Token this_IDENT_DOT_1 = null ; Token this_IDENT_2 = null ; Token this_NUMBER_3 = null ; Token this_WS_4 = null ; Token this_SEMICOLON_5 = null ; Token this_COMMA_6 = null ; Token this_MINUS_7 = null ; Token this_PLUS_8 = null ; Token this_LPAREN_9 = null ; Token this_RPAREN_10 = null ; Token this_LBRACE_11 = null ; Token this_QUESTI_12 = null ; Token this_NOT_13 = null ; Token this_BAND_14 = null ; Token this_BOR_15 = null ; Token this_HASH_16 = null ; Token this_AT_17 = null ; Token this_CARET_18 = null ; Token this_EQUALS_19 = null ; Token this_LESS_THAN_20 = null ; Token this_MORE_THAN_21 = null ; Token this_AND_22 = null ; Token this_OR_23 = null ; Token this_ESC_CHAR_24 = null ; Token this_ON_OFF_25 = null ; Token this_STATEMEN_TYPE_26 = null ; Token this_MAPPING_TYPE_27 = null ; Token this_OPTION_TYPE_28 = null ; Token this_REST_29 = null ; Token this_IDENT_DOT_30 = null ; Token this_IDENT_31 = null ; Token this_NUMBER_32 = null ; Token this_WS_33 = null ; Token this_SEMICOLON_34 = null ; Token this_COMMA_35 = null ; Token this_MINUS_36 = null ; Token this_PLUS_37 = null ; Token this_LPAREN_38 = null ; Token this_RPAREN_39 = null ; Token this_LBRACE_40 = null ; Token this_QUESTI_41 = null ; Token this_NOT_42 = null ; Token this_BAND_43 = null ; Token this_BOR_44 = null ; Token this_HASH_45 = null ; Token this_AT_46 = null ; Token this_CARET_47 = null ; Token this_EQUALS_48 = null ; Token this_LESS_THAN_49 = null ; Token this_MORE_THAN_50 = null ; Token this_AND_51 = null ; Token this_OR_52 = null ; Token this_ESC_CHAR_53 = null ; Token this_ON_OFF_54 = null ; Token this_STATEMEN_TYPE_55 = null ; Token this_MAPPING_TYPE_56 = null ; Token this_OPTION_TYPE_57 = null ; enterRule ( ) ; try { { { int alt61 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt61 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt61 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt61 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt61 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt61 = <NUM_LIT:5> ; } break ; case RULE_SEMICOLON : { alt61 = <NUM_LIT:6> ; } break ; case RULE_COMMA : { alt61 = <NUM_LIT:7> ; } break ; case RULE_MINUS : { alt61 = <NUM_LIT:8> ; } break ; case RULE_PLUS : { alt61 = <NUM_LIT:9> ; } break ; case RULE_LPAREN : { alt61 = <NUM_LIT:10> ; } break ; case RULE_RPAREN : { alt61 = <NUM_LIT:11> ; } break ; case RULE_LBRACE : { alt61 = <NUM_LIT:12> ; } break ; case RULE_QUESTI : { alt61 = <NUM_LIT> ; } break ; case RULE_NOT : { alt61 = <NUM_LIT> ; } break ; case RULE_BAND : { alt61 = <NUM_LIT:15> ; } break ; case RULE_BOR : { alt61 = <NUM_LIT:16> ; } break ; case RULE_HASH : { alt61 = <NUM_LIT> ; } break ; case RULE_AT : { alt61 = <NUM_LIT> ; } break ; case RULE_CARET : { alt61 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt61 = <NUM_LIT:20> ; } break ; case RULE_LESS_THAN : { alt61 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt61 = <NUM_LIT> ; } break ; case RULE_AND : { alt61 = <NUM_LIT> ; } break ; case RULE_OR : { alt61 = <NUM_LIT:24> ; } break ; case RULE_ESC_CHAR : { alt61 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt61 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt61 = <NUM_LIT> ; } break ; case RULE_MAPPING_TYPE : { alt61 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt61 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt61 ) { case <NUM_LIT:1> : { this_REST_0 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleOrdSqlValue10534 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_0 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_0 , grammarAccess . getOrdSqlValueAccess ( ) . getRESTTerminalRuleCall_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_1 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleOrdSqlValue10560 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_1 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_1 , grammarAccess . getOrdSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleOrdSqlValue10586 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_2 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_2 , grammarAccess . getOrdSqlValueAccess ( ) . getIDENTTerminalRuleCall_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleOrdSqlValue10612 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_3 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_3 , grammarAccess . getOrdSqlValueAccess ( ) . getNUMBERTerminalRuleCall_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleOrdSqlValue10638 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_4 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getOrdSqlValueAccess ( ) . getWSTerminalRuleCall_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_SEMICOLON_5 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleOrdSqlValue10664 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_SEMICOLON_5 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_5 , grammarAccess . getOrdSqlValueAccess ( ) . getSEMICOLONTerminalRuleCall_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_COMMA_6 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleOrdSqlValue10690 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_6 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_6 , grammarAccess . getOrdSqlValueAccess ( ) . getCOMMATerminalRuleCall_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_MINUS_7 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleOrdSqlValue10716 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_7 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_7 , grammarAccess . getOrdSqlValueAccess ( ) . getMINUSTerminalRuleCall_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_PLUS_8 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleOrdSqlValue10742 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_8 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_8 , grammarAccess . getOrdSqlValueAccess ( ) . getPLUSTerminalRuleCall_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_LPAREN_9 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleOrdSqlValue10768 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_9 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_9 , grammarAccess . getOrdSqlValueAccess ( ) . getLPARENTerminalRuleCall_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RPAREN_10 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleOrdSqlValue10794 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_10 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_10 , grammarAccess . getOrdSqlValueAccess ( ) . getRPARENTerminalRuleCall_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_LBRACE_11 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_ruleOrdSqlValue10820 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LBRACE_11 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_11 , grammarAccess . getOrdSqlValueAccess ( ) . getLBRACETerminalRuleCall_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_QUESTI_12 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleOrdSqlValue10846 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_12 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_12 , grammarAccess . getOrdSqlValueAccess ( ) . getQUESTITerminalRuleCall_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_13 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleOrdSqlValue10872 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_13 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_13 , grammarAccess . getOrdSqlValueAccess ( ) . getNOTTerminalRuleCall_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_BAND_14 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleOrdSqlValue10898 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_14 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_14 , grammarAccess . getOrdSqlValueAccess ( ) . getBANDTerminalRuleCall_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_BOR_15 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleOrdSqlValue10924 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_15 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_15 , grammarAccess . getOrdSqlValueAccess ( ) . getBORTerminalRuleCall_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_HASH_16 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleOrdSqlValue10950 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_16 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_16 , grammarAccess . getOrdSqlValueAccess ( ) . getHASHTerminalRuleCall_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_AT_17 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_ruleOrdSqlValue10976 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AT_17 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_17 , grammarAccess . getOrdSqlValueAccess ( ) . getATTerminalRuleCall_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_18 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleOrdSqlValue11002 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_18 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_18 , grammarAccess . getOrdSqlValueAccess ( ) . getCARETTerminalRuleCall_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_EQUALS_19 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleOrdSqlValue11028 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_19 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_19 , grammarAccess . getOrdSqlValueAccess ( ) . getEQUALSTerminalRuleCall_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_20 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleOrdSqlValue11054 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_20 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_20 , grammarAccess . getOrdSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_MORE_THAN_21 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleOrdSqlValue11080 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_21 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_21 , grammarAccess . getOrdSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_22 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleOrdSqlValue11106 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_22 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_22 , grammarAccess . getOrdSqlValueAccess ( ) . getANDTerminalRuleCall_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_OR_23 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleOrdSqlValue11132 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_23 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_23 , grammarAccess . getOrdSqlValueAccess ( ) . getORTerminalRuleCall_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_24 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleOrdSqlValue11158 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_24 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_24 , grammarAccess . getOrdSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_25 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleOrdSqlValue11184 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_25 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_25 , grammarAccess . getOrdSqlValueAccess ( ) . getON_OFFTerminalRuleCall_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_STATEMEN_TYPE_26 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleOrdSqlValue11210 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_26 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_26 , grammarAccess . getOrdSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_0_26 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_27 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleOrdSqlValue11236 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_27 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_27 , grammarAccess . getOrdSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_0_27 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_28 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleOrdSqlValue11262 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_28 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_28 , grammarAccess . getOrdSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_0_28 ( ) ) ; } } break ; } loop63 : do { int alt63 = <NUM_LIT:2> ; alt63 = dfa63 . predict ( input ) ; switch ( alt63 ) { case <NUM_LIT:1> : { int alt62 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt62 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt62 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt62 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt62 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt62 = <NUM_LIT:5> ; } break ; case RULE_SEMICOLON : { alt62 = <NUM_LIT:6> ; } break ; case RULE_COMMA : { alt62 = <NUM_LIT:7> ; } break ; case RULE_MINUS : { alt62 = <NUM_LIT:8> ; } break ; case RULE_PLUS : { alt62 = <NUM_LIT:9> ; } break ; case RULE_LPAREN : { alt62 = <NUM_LIT:10> ; } break ; case RULE_RPAREN : { alt62 = <NUM_LIT:11> ; } break ; case RULE_LBRACE : { alt62 = <NUM_LIT:12> ; } break ; case RULE_QUESTI : { alt62 = <NUM_LIT> ; } break ; case RULE_NOT : { alt62 = <NUM_LIT> ; } break ; case RULE_BAND : { alt62 = <NUM_LIT:15> ; } break ; case RULE_BOR : { alt62 = <NUM_LIT:16> ; } break ; case RULE_HASH : { alt62 = <NUM_LIT> ; } break ; case RULE_AT : { alt62 = <NUM_LIT> ; } break ; case RULE_CARET : { alt62 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt62 = <NUM_LIT:20> ; } break ; case RULE_LESS_THAN : { alt62 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt62 = <NUM_LIT> ; } break ; case RULE_AND : { alt62 = <NUM_LIT> ; } break ; case RULE_OR : { alt62 = <NUM_LIT:24> ; } break ; case RULE_ESC_CHAR : { alt62 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt62 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt62 = <NUM_LIT> ; } break ; case RULE_MAPPING_TYPE : { alt62 = <NUM_LIT> ; } break ; case RULE_OPTION_TYPE : { alt62 = <NUM_LIT> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt62 ) { case <NUM_LIT:1> : { this_REST_29 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleOrdSqlValue11516 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_29 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_29 , grammarAccess . getOrdSqlValueAccess ( ) . getRESTTerminalRuleCall_1_0_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_30 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleOrdSqlValue11542 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_30 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_30 , grammarAccess . getOrdSqlValueAccess ( ) . getIDENT_DOTTerminalRuleCall_1_0_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_31 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleOrdSqlValue11568 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_31 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_31 , grammarAccess . getOrdSqlValueAccess ( ) . getIDENTTerminalRuleCall_1_0_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_32 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleOrdSqlValue11594 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_32 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_32 , grammarAccess . getOrdSqlValueAccess ( ) . getNUMBERTerminalRuleCall_1_0_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_33 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleOrdSqlValue11620 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_33 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_33 , grammarAccess . getOrdSqlValueAccess ( ) . getWSTerminalRuleCall_1_0_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_SEMICOLON_34 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleOrdSqlValue11646 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_SEMICOLON_34 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_34 , grammarAccess . getOrdSqlValueAccess ( ) . getSEMICOLONTerminalRuleCall_1_0_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_COMMA_35 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleOrdSqlValue11672 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_35 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_35 , grammarAccess . getOrdSqlValueAccess ( ) . getCOMMATerminalRuleCall_1_0_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_MINUS_36 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleOrdSqlValue11698 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_36 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_36 , grammarAccess . getOrdSqlValueAccess ( ) . getMINUSTerminalRuleCall_1_0_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_PLUS_37 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleOrdSqlValue11724 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_37 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_37 , grammarAccess . getOrdSqlValueAccess ( ) . getPLUSTerminalRuleCall_1_0_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_LPAREN_38 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleOrdSqlValue11750 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_38 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_38 , grammarAccess . getOrdSqlValueAccess ( ) . getLPARENTerminalRuleCall_1_0_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_RPAREN_39 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleOrdSqlValue11776 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_39 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_39 , grammarAccess . getOrdSqlValueAccess ( ) . getRPARENTerminalRuleCall_1_0_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_LBRACE_40 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_ruleOrdSqlValue11802 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LBRACE_40 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_40 , grammarAccess . getOrdSqlValueAccess ( ) . getLBRACETerminalRuleCall_1_0_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_QUESTI_41 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleOrdSqlValue11828 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_41 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_41 , grammarAccess . getOrdSqlValueAccess ( ) . getQUESTITerminalRuleCall_1_0_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_NOT_42 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleOrdSqlValue11854 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_42 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_42 , grammarAccess . getOrdSqlValueAccess ( ) . getNOTTerminalRuleCall_1_0_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_BAND_43 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleOrdSqlValue11880 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_43 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_43 , grammarAccess . getOrdSqlValueAccess ( ) . getBANDTerminalRuleCall_1_0_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_BOR_44 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleOrdSqlValue11906 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_44 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_44 , grammarAccess . getOrdSqlValueAccess ( ) . getBORTerminalRuleCall_1_0_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_HASH_45 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleOrdSqlValue11932 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_45 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_45 , grammarAccess . getOrdSqlValueAccess ( ) . getHASHTerminalRuleCall_1_0_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_AT_46 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_ruleOrdSqlValue11958 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AT_46 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_46 , grammarAccess . getOrdSqlValueAccess ( ) . getATTerminalRuleCall_1_0_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_47 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleOrdSqlValue11984 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_47 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_47 , grammarAccess . getOrdSqlValueAccess ( ) . getCARETTerminalRuleCall_1_0_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_EQUALS_48 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleOrdSqlValue12010 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_48 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_48 , grammarAccess . getOrdSqlValueAccess ( ) . getEQUALSTerminalRuleCall_1_0_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_49 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleOrdSqlValue12036 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_49 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_49 , grammarAccess . getOrdSqlValueAccess ( ) . getLESS_THANTerminalRuleCall_1_0_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_MORE_THAN_50 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleOrdSqlValue12062 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_50 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_50 , grammarAccess . getOrdSqlValueAccess ( ) . getMORE_THANTerminalRuleCall_1_0_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_51 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleOrdSqlValue12088 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_51 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_51 , grammarAccess . getOrdSqlValueAccess ( ) . getANDTerminalRuleCall_1_0_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_OR_52 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleOrdSqlValue12114 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_52 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_52 , grammarAccess . getOrdSqlValueAccess ( ) . getORTerminalRuleCall_1_0_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_53 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleOrdSqlValue12140 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_53 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_53 , grammarAccess . getOrdSqlValueAccess ( ) . getESC_CHARTerminalRuleCall_1_0_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_54 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleOrdSqlValue12166 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_54 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_54 , grammarAccess . getOrdSqlValueAccess ( ) . getON_OFFTerminalRuleCall_1_0_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_STATEMEN_TYPE_55 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleOrdSqlValue12192 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_55 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_55 , grammarAccess . getOrdSqlValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_1_0_26 ( ) ) ; } } break ; case <NUM_LIT> : { this_MAPPING_TYPE_56 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleOrdSqlValue12218 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_56 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_56 , grammarAccess . getOrdSqlValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_1_0_27 ( ) ) ; } } break ; case <NUM_LIT> : { this_OPTION_TYPE_57 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleOrdSqlValue12244 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_57 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_57 , grammarAccess . getOrdSqlValueAccess ( ) . getOPTION_TYPETerminalRuleCall_1_0_28 ( ) ) ; } } break ; } } break ; default : break loop63 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleColumn ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleColumn = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getColumnRule ( ) ) ; } pushFollow ( FOLLOW_ruleColumn_in_entryRuleColumn12292 ) ; iv_ruleColumn = ruleColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleColumn ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleColumn12302 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleColumn ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_1 = null ; Token lv_name_0_2 = null ; Token lv_name_0_3 = null ; Token this_CARET_1 = null ; Token lv_type_2_0 = null ; Token this_CARET_3 = null ; Token lv_vals_4_1 = null ; Token lv_vals_4_2 = null ; enterRule ( ) ; try { { { { { int alt64 = <NUM_LIT:3> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_IDENT : { alt64 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt64 = <NUM_LIT:2> ; } break ; case RULE_NUMBER : { alt64 = <NUM_LIT:3> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt64 ) { case <NUM_LIT:1> : { lv_name_0_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleColumn12346 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_1 , grammarAccess . getColumnAccess ( ) . getNameIDENTTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_0_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleColumn12366 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_2 , grammarAccess . getColumnAccess ( ) . getNameIDENT_DOTTerminalRuleCall_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_2 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:3> : { lv_name_0_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleColumn12386 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_3 , grammarAccess . getColumnAccess ( ) . getNameNUMBERTerminalRuleCall_0_0_2 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_3 , "<STR_LIT>" ) ; } } break ; } } } int alt68 = <NUM_LIT:2> ; int LA68_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA68_0 == RULE_CARET ) ) { int LA68_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred5_InternalProcessorDsl ( ) ) ) { alt68 = <NUM_LIT:1> ; } } switch ( alt68 ) { case <NUM_LIT:1> : { { this_CARET_1 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleColumn12412 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_1 , grammarAccess . getColumnAccess ( ) . getCARETTerminalRuleCall_1_0 ( ) ) ; } } int alt65 = <NUM_LIT:2> ; int LA65_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA65_0 == RULE_IDENT ) ) { int LA65_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred6_InternalProcessorDsl ( ) ) ) { alt65 = <NUM_LIT:1> ; } } switch ( alt65 ) { case <NUM_LIT:1> : { { lv_type_2_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleColumn12440 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_2_0 , grammarAccess . getColumnAccess ( ) . getTypeIDENTTerminalRuleCall_1_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_2_0 , "<STR_LIT>" ) ; } } } break ; } loop67 : do { int alt67 = <NUM_LIT:2> ; int LA67_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA67_0 == RULE_CARET ) ) { int LA67_2 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA67_2 == RULE_IDENT ) ) { int LA67_3 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred7_InternalProcessorDsl ( ) ) ) { alt67 = <NUM_LIT:1> ; } } else if ( ( LA67_2 == RULE_NUMBER ) ) { int LA67_4 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred7_InternalProcessorDsl ( ) ) ) { alt67 = <NUM_LIT:1> ; } } } switch ( alt67 ) { case <NUM_LIT:1> : { { this_CARET_3 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleColumn12464 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_3 , grammarAccess . getColumnAccess ( ) . getCARETTerminalRuleCall_1_2_0 ( ) ) ; } } { { int alt66 = <NUM_LIT:2> ; int LA66_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA66_0 == RULE_IDENT ) ) { alt66 = <NUM_LIT:1> ; } else if ( ( LA66_0 == RULE_NUMBER ) ) { alt66 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt66 ) { case <NUM_LIT:1> : { lv_vals_4_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleColumn12483 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_4_1 , grammarAccess . getColumnAccess ( ) . getValsIDENTTerminalRuleCall_1_2_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_4_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_vals_4_2 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleColumn12503 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_4_2 , grammarAccess . getColumnAccess ( ) . getValsNUMBERTerminalRuleCall_1_2_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getColumnRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_4_2 , "<STR_LIT>" ) ; } } break ; } } } } break ; default : break loop67 ; } } while ( true ) ; } break ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleConstant ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleConstant = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getConstantRule ( ) ) ; } pushFollow ( FOLLOW_ruleConstant_in_entryRuleConstant12551 ) ; iv_ruleConstant = ruleConstant ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleConstant ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleConstant12561 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleConstant ( ) throws RecognitionException { EObject current = null ; Token lv_case_0_1 = null ; Token lv_case_0_2 = null ; Token lv_name_1_1 = null ; Token lv_name_1_2 = null ; Token this_CARET_2 = null ; Token lv_type_3_0 = null ; Token this_CARET_4 = null ; Token lv_vals_5_1 = null ; Token lv_vals_5_2 = null ; enterRule ( ) ; try { { { int alt70 = <NUM_LIT:2> ; int LA70_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA70_0 >= RULE_MINUS && LA70_0 <= RULE_PLUS ) ) ) { alt70 = <NUM_LIT:1> ; } switch ( alt70 ) { case <NUM_LIT:1> : { { int alt69 = <NUM_LIT:2> ; int LA69_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA69_0 == RULE_PLUS ) ) { alt69 = <NUM_LIT:1> ; } else if ( ( LA69_0 == RULE_MINUS ) ) { alt69 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt69 ) { case <NUM_LIT:1> : { lv_case_0_1 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleConstant12605 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_case_0_1 , grammarAccess . getConstantAccess ( ) . getCasePLUSTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_case_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_case_0_2 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleConstant12625 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_case_0_2 , grammarAccess . getConstantAccess ( ) . getCaseMINUSTerminalRuleCall_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_case_0_2 , "<STR_LIT>" ) ; } } break ; } } } break ; } { { int alt71 = <NUM_LIT:2> ; int LA71_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA71_0 == RULE_IDENT ) ) { alt71 = <NUM_LIT:1> ; } else if ( ( LA71_0 == RULE_IDENT_DOT ) ) { alt71 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt71 ) { case <NUM_LIT:1> : { lv_name_1_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleConstant12653 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_1_1 , grammarAccess . getConstantAccess ( ) . getNameIDENTTerminalRuleCall_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_1_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_1_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleConstant12673 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_1_2 , grammarAccess . getConstantAccess ( ) . getNameIDENT_DOTTerminalRuleCall_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_1_2 , "<STR_LIT>" ) ; } } break ; } } } int alt75 = <NUM_LIT:2> ; int LA75_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA75_0 == RULE_CARET ) ) { int LA75_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred8_InternalProcessorDsl ( ) ) ) { alt75 = <NUM_LIT:1> ; } } switch ( alt75 ) { case <NUM_LIT:1> : { { this_CARET_2 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleConstant12699 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_2 , grammarAccess . getConstantAccess ( ) . getCARETTerminalRuleCall_2_0 ( ) ) ; } } int alt72 = <NUM_LIT:2> ; int LA72_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA72_0 == RULE_IDENT ) ) { int LA72_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred9_InternalProcessorDsl ( ) ) ) { alt72 = <NUM_LIT:1> ; } } switch ( alt72 ) { case <NUM_LIT:1> : { { lv_type_3_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleConstant12727 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_3_0 , grammarAccess . getConstantAccess ( ) . getTypeIDENTTerminalRuleCall_2_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_3_0 , "<STR_LIT>" ) ; } } } break ; } loop74 : do { int alt74 = <NUM_LIT:2> ; int LA74_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA74_0 == RULE_CARET ) ) { int LA74_2 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA74_2 == RULE_IDENT ) ) { int LA74_3 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred10_InternalProcessorDsl ( ) ) ) { alt74 = <NUM_LIT:1> ; } } else if ( ( LA74_2 == RULE_NUMBER ) ) { int LA74_4 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred10_InternalProcessorDsl ( ) ) ) { alt74 = <NUM_LIT:1> ; } } } switch ( alt74 ) { case <NUM_LIT:1> : { { this_CARET_4 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleConstant12751 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_4 , grammarAccess . getConstantAccess ( ) . getCARETTerminalRuleCall_2_2_0 ( ) ) ; } } { { int alt73 = <NUM_LIT:2> ; int LA73_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA73_0 == RULE_IDENT ) ) { alt73 = <NUM_LIT:1> ; } else if ( ( LA73_0 == RULE_NUMBER ) ) { alt73 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt73 ) { case <NUM_LIT:1> : { lv_vals_5_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleConstant12770 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_5_1 , grammarAccess . getConstantAccess ( ) . getValsIDENTTerminalRuleCall_2_2_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_5_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_vals_5_2 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleConstant12790 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_5_2 , grammarAccess . getConstantAccess ( ) . getValsNUMBERTerminalRuleCall_2_2_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getConstantRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_5_2 , "<STR_LIT>" ) ; } } break ; } } } } break ; default : break loop74 ; } } while ( true ) ; } break ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleIdentifier ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleIdentifier = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getIdentifierRule ( ) ) ; } pushFollow ( FOLLOW_ruleIdentifier_in_entryRuleIdentifier12838 ) ; iv_ruleIdentifier = ruleIdentifier ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleIdentifier ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleIdentifier12848 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleIdentifier ( ) throws RecognitionException { EObject current = null ; Token lv_mode_0_1 = null ; Token lv_mode_0_2 = null ; Token lv_mode_0_3 = null ; Token lv_case_1_1 = null ; Token lv_case_1_2 = null ; Token lv_name_2_1 = null ; Token lv_name_2_2 = null ; Token lv_name_2_3 = null ; Token this_CARET_3 = null ; Token lv_type_4_0 = null ; Token this_CARET_5 = null ; Token lv_vals_6_1 = null ; Token lv_vals_6_2 = null ; enterRule ( ) ; try { { { int alt77 = <NUM_LIT:2> ; int LA77_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA77_0 >= RULE_EQUALS && LA77_0 <= RULE_MORE_THAN ) ) ) { alt77 = <NUM_LIT:1> ; } switch ( alt77 ) { case <NUM_LIT:1> : { { int alt76 = <NUM_LIT:3> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_EQUALS : { alt76 = <NUM_LIT:1> ; } break ; case RULE_LESS_THAN : { alt76 = <NUM_LIT:2> ; } break ; case RULE_MORE_THAN : { alt76 = <NUM_LIT:3> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt76 ) { case <NUM_LIT:1> : { lv_mode_0_1 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleIdentifier12892 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_mode_0_1 , grammarAccess . getIdentifierAccess ( ) . getModeEQUALSTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_mode_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_mode_0_2 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleIdentifier12912 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_mode_0_2 , grammarAccess . getIdentifierAccess ( ) . getModeLESS_THANTerminalRuleCall_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_mode_0_2 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:3> : { lv_mode_0_3 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleIdentifier12932 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_mode_0_3 , grammarAccess . getIdentifierAccess ( ) . getModeMORE_THANTerminalRuleCall_0_0_2 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_mode_0_3 , "<STR_LIT>" ) ; } } break ; } } } break ; } int alt79 = <NUM_LIT:2> ; int LA79_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( ( LA79_0 >= RULE_MINUS && LA79_0 <= RULE_PLUS ) ) ) { alt79 = <NUM_LIT:1> ; } switch ( alt79 ) { case <NUM_LIT:1> : { { int alt78 = <NUM_LIT:2> ; int LA78_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA78_0 == RULE_PLUS ) ) { alt78 = <NUM_LIT:1> ; } else if ( ( LA78_0 == RULE_MINUS ) ) { alt78 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt78 ) { case <NUM_LIT:1> : { lv_case_1_1 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleIdentifier12960 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_case_1_1 , grammarAccess . getIdentifierAccess ( ) . getCasePLUSTerminalRuleCall_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_case_1_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_case_1_2 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleIdentifier12980 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_case_1_2 , grammarAccess . getIdentifierAccess ( ) . getCaseMINUSTerminalRuleCall_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_case_1_2 , "<STR_LIT>" ) ; } } break ; } } } break ; } { { int alt80 = <NUM_LIT:3> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_IDENT : { alt80 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt80 = <NUM_LIT:2> ; } break ; case RULE_NUMBER : { alt80 = <NUM_LIT:3> ; } break ; default : if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt80 ) { case <NUM_LIT:1> : { lv_name_2_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIdentifier13008 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_2_1 , grammarAccess . getIdentifierAccess ( ) . getNameIDENTTerminalRuleCall_2_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_2_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_2_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleIdentifier13028 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_2_2 , grammarAccess . getIdentifierAccess ( ) . getNameIDENT_DOTTerminalRuleCall_2_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_2_2 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:3> : { lv_name_2_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleIdentifier13048 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_2_3 , grammarAccess . getIdentifierAccess ( ) . getNameNUMBERTerminalRuleCall_2_0_2 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_2_3 , "<STR_LIT>" ) ; } } break ; } } } int alt84 = <NUM_LIT:2> ; int LA84_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA84_0 == RULE_CARET ) ) { int LA84_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred11_InternalProcessorDsl ( ) ) ) { alt84 = <NUM_LIT:1> ; } } switch ( alt84 ) { case <NUM_LIT:1> : { { this_CARET_3 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleIdentifier13074 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_3 , grammarAccess . getIdentifierAccess ( ) . getCARETTerminalRuleCall_3_0 ( ) ) ; } } int alt81 = <NUM_LIT:2> ; int LA81_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA81_0 == RULE_IDENT ) ) { int LA81_1 = input . LA ( <NUM_LIT:2> ) ; if ( ( synpred12_InternalProcessorDsl ( ) ) ) { alt81 = <NUM_LIT:1> ; } } switch ( alt81 ) { case <NUM_LIT:1> : { { lv_type_4_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIdentifier13102 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_4_0 , grammarAccess . getIdentifierAccess ( ) . getTypeIDENTTerminalRuleCall_3_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_4_0 , "<STR_LIT>" ) ; } } } break ; } loop83 : do { int alt83 = <NUM_LIT:2> ; int LA83_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA83_0 == RULE_CARET ) ) { int LA83_2 = input . LA ( <NUM_LIT:2> ) ; if ( ( LA83_2 == RULE_IDENT ) ) { int LA83_3 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred13_InternalProcessorDsl ( ) ) ) { alt83 = <NUM_LIT:1> ; } } else if ( ( LA83_2 == RULE_NUMBER ) ) { int LA83_4 = input . LA ( <NUM_LIT:3> ) ; if ( ( synpred13_InternalProcessorDsl ( ) ) ) { alt83 = <NUM_LIT:1> ; } } } switch ( alt83 ) { case <NUM_LIT:1> : { { this_CARET_5 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleIdentifier13126 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_5 , grammarAccess . getIdentifierAccess ( ) . getCARETTerminalRuleCall_3_2_0 ( ) ) ; } } { { int alt82 = <NUM_LIT:2> ; int LA82_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA82_0 == RULE_IDENT ) ) { alt82 = <NUM_LIT:1> ; } else if ( ( LA82_0 == RULE_NUMBER ) ) { alt82 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt82 ) { case <NUM_LIT:1> : { lv_vals_6_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleIdentifier13145 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_6_1 , grammarAccess . getIdentifierAccess ( ) . getValsIDENTTerminalRuleCall_3_2_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_6_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_vals_6_2 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleIdentifier13165 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_6_2 , grammarAccess . getIdentifierAccess ( ) . getValsNUMBERTerminalRuleCall_3_2_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getIdentifierRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_6_2 , "<STR_LIT>" ) ; } } break ; } } } } break ; default : break loop83 ; } } while ( true ) ; } break ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleDatabaseColumn ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleDatabaseColumn = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getDatabaseColumnRule ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseColumn_in_entryRuleDatabaseColumn13213 ) ; iv_ruleDatabaseColumn = ruleDatabaseColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleDatabaseColumn ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleDatabaseColumn13223 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleDatabaseColumn ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_1 = null ; Token lv_name_0_2 = null ; enterRule ( ) ; try { { { { int alt85 = <NUM_LIT:2> ; int LA85_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA85_0 == RULE_IDENT ) ) { alt85 = <NUM_LIT:1> ; } else if ( ( LA85_0 == RULE_IDENT_DOT ) ) { alt85 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt85 ) { case <NUM_LIT:1> : { lv_name_0_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleDatabaseColumn13266 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_1 , grammarAccess . getDatabaseColumnAccess ( ) . getNameIDENTTerminalRuleCall_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getDatabaseColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_0_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleDatabaseColumn13286 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_2 , grammarAccess . getDatabaseColumnAccess ( ) . getNameIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getDatabaseColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_2 , "<STR_LIT>" ) ; } } break ; } } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleDatabaseTable ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleDatabaseTable = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getDatabaseTableRule ( ) ) ; } pushFollow ( FOLLOW_ruleDatabaseTable_in_entryRuleDatabaseTable13329 ) ; iv_ruleDatabaseTable = ruleDatabaseTable ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleDatabaseTable ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleDatabaseTable13339 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleDatabaseTable ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_1 = null ; Token lv_name_0_2 = null ; enterRule ( ) ; try { { { { int alt86 = <NUM_LIT:2> ; int LA86_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA86_0 == RULE_IDENT ) ) { alt86 = <NUM_LIT:1> ; } else if ( ( LA86_0 == RULE_IDENT_DOT ) ) { alt86 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt86 ) { case <NUM_LIT:1> : { lv_name_0_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleDatabaseTable13382 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_1 , grammarAccess . getDatabaseTableAccess ( ) . getNameIDENTTerminalRuleCall_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getDatabaseTableRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_0_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleDatabaseTable13402 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_2 , grammarAccess . getDatabaseTableAccess ( ) . getNameIDENT_DOTTerminalRuleCall_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getDatabaseTableRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_2 , "<STR_LIT>" ) ; } } break ; } } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleMappingRule ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMappingRule = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingRuleRule ( ) ) ; } pushFollow ( FOLLOW_ruleMappingRule_in_entryRuleMappingRule13445 ) ; iv_ruleMappingRule = ruleMappingRule ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMappingRule ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMappingRule13455 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMappingRule ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_0 = null ; Token this_LPAREN_1 = null ; Token lv_type_2_0 = null ; Token this_COMMA_3 = null ; Token lv_filters_4_0 = null ; Token this_RPAREN_5 = null ; Token this_EQUALS_6 = null ; Token this_SEMICOLON_8 = null ; EObject lv_mapping_7_0 = null ; enterRule ( ) ; try { { { { { lv_name_0_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingRule13497 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_0 , grammarAccess . getMappingRuleAccess ( ) . getNameIDENTTerminalRuleCall_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingRuleRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_0 , "<STR_LIT>" ) ; } } } this_LPAREN_1 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleMappingRule13513 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_1 , grammarAccess . getMappingRuleAccess ( ) . getLPARENTerminalRuleCall_1 ( ) ) ; } { { lv_type_2_0 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleMappingRule13529 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_2_0 , grammarAccess . getMappingRuleAccess ( ) . getTypeMAPPING_TYPETerminalRuleCall_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingRuleRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_2_0 , "<STR_LIT>" ) ; } } } loop87 : do { int alt87 = <NUM_LIT:2> ; int LA87_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA87_0 == RULE_COMMA ) ) { alt87 = <NUM_LIT:1> ; } switch ( alt87 ) { case <NUM_LIT:1> : { this_COMMA_3 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleMappingRule13546 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_3 , grammarAccess . getMappingRuleAccess ( ) . getCOMMATerminalRuleCall_3_0 ( ) ) ; } { { lv_filters_4_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingRule13562 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_filters_4_0 , grammarAccess . getMappingRuleAccess ( ) . getFiltersIDENTTerminalRuleCall_3_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingRuleRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_filters_4_0 , "<STR_LIT>" ) ; } } } } break ; default : break loop87 ; } } while ( true ) ; this_RPAREN_5 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleMappingRule13580 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_5 , grammarAccess . getMappingRuleAccess ( ) . getRPARENTerminalRuleCall_4 ( ) ) ; } this_EQUALS_6 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleMappingRule13590 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_6 , grammarAccess . getMappingRuleAccess ( ) . getEQUALSTerminalRuleCall_5 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingRuleAccess ( ) . getMappingMappingParserRuleCall_6_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMapping_in_ruleMappingRule13610 ) ; lv_mapping_7_0 = ruleMapping ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMappingRuleRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_mapping_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_SEMICOLON_8 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleMappingRule13621 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_8 , grammarAccess . getMappingRuleAccess ( ) . getSEMICOLONTerminalRuleCall_7 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleMapping ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMapping = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingRule ( ) ) ; } pushFollow ( FOLLOW_ruleMapping_in_entryRuleMapping13656 ) ; iv_ruleMapping = ruleMapping ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMapping ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMapping13666 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMapping ( ) throws RecognitionException { EObject current = null ; Token this_WS_0 = null ; Token this_WS_2 = null ; Token this_WS_4 = null ; EObject lv_mappingItems_1_0 = null ; EObject lv_mappingItems_3_0 = null ; enterRule ( ) ; try { { { loop88 : do { int alt88 = <NUM_LIT:2> ; int LA88_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA88_0 == RULE_WS ) ) { alt88 = <NUM_LIT:1> ; } switch ( alt88 ) { case <NUM_LIT:1> : { this_WS_0 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleMapping13703 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_0 , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_0 ( ) ) ; } } break ; default : break loop88 ; } } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingAccess ( ) . getMappingItemsMappingItemParserRuleCall_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMappingItem_in_ruleMapping13725 ) ; lv_mappingItems_1_0 = ruleMappingItem ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMappingRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_mappingItems_1_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } loop90 : do { int alt90 = <NUM_LIT:2> ; alt90 = dfa90 . predict ( input ) ; switch ( alt90 ) { case <NUM_LIT:1> : { int cnt89 = <NUM_LIT:0> ; loop89 : do { int alt89 = <NUM_LIT:2> ; int LA89_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA89_0 == RULE_WS ) ) { alt89 = <NUM_LIT:1> ; } switch ( alt89 ) { case <NUM_LIT:1> : { this_WS_2 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleMapping13738 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_2 , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_2_0 ( ) ) ; } } break ; default : if ( cnt89 >= <NUM_LIT:1> ) break loop89 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT> , input ) ; throw eee ; } cnt89 ++ ; } while ( true ) ; { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingAccess ( ) . getMappingItemsMappingItemParserRuleCall_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMappingItem_in_ruleMapping13760 ) ; lv_mappingItems_3_0 = ruleMappingItem ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMappingRule ( ) ) ; } add ( current , "<STR_LIT>" , lv_mappingItems_3_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; default : break loop90 ; } } while ( true ) ; loop91 : do { int alt91 = <NUM_LIT:2> ; int LA91_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA91_0 == RULE_WS ) ) { alt91 = <NUM_LIT:1> ; } switch ( alt91 ) { case <NUM_LIT:1> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleMapping13774 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getMappingAccess ( ) . getWSTerminalRuleCall_3 ( ) ) ; } } break ; default : break loop91 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleMappingItem ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMappingItem = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingItemRule ( ) ) ; } pushFollow ( FOLLOW_ruleMappingItem_in_entryRuleMappingItem13811 ) ; iv_ruleMappingItem = ruleMappingItem ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMappingItem ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMappingItem13821 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMappingItem ( ) throws RecognitionException { EObject current = null ; Token lv_col_0_1 = null ; Token lv_col_0_2 = null ; Token this_STRING_1 = null ; Token lv_type_2_0 = null ; Token this_STRING_3 = null ; EObject lv_attr_4_0 = null ; enterRule ( ) ; try { { { { { int alt92 = <NUM_LIT:2> ; int LA92_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA92_0 == RULE_IDENT ) ) { alt92 = <NUM_LIT:1> ; } else if ( ( LA92_0 == RULE_NUMBER ) ) { alt92 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt92 ) { case <NUM_LIT:1> : { lv_col_0_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingItem13865 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_col_0_1 , grammarAccess . getMappingItemAccess ( ) . getColIDENTTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingItemRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_col_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_col_0_2 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleMappingItem13885 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_col_0_2 , grammarAccess . getMappingItemAccess ( ) . getColNUMBERTerminalRuleCall_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingItemRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT>" , lv_col_0_2 , "<STR_LIT>" ) ; } } break ; } } } int alt95 = <NUM_LIT:2> ; int LA95_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA95_0 == RULE_STRING ) ) { alt95 = <NUM_LIT:1> ; } switch ( alt95 ) { case <NUM_LIT:1> : { this_STRING_1 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleMappingItem13905 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_1 , grammarAccess . getMappingItemAccess ( ) . getSTRINGTerminalRuleCall_1_0 ( ) ) ; } int alt93 = <NUM_LIT:2> ; int LA93_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA93_0 == RULE_IDENT ) ) { alt93 = <NUM_LIT:1> ; } switch ( alt93 ) { case <NUM_LIT:1> : { { lv_type_2_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingItem13921 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_2_0 , grammarAccess . getMappingItemAccess ( ) . getTypeIDENTTerminalRuleCall_1_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingItemRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_2_0 , "<STR_LIT>" ) ; } } } break ; } int alt94 = <NUM_LIT:2> ; int LA94_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA94_0 == RULE_STRING ) ) { alt94 = <NUM_LIT:1> ; } switch ( alt94 ) { case <NUM_LIT:1> : { this_STRING_3 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleMappingItem13939 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_3 , grammarAccess . getMappingItemAccess ( ) . getSTRINGTerminalRuleCall_1_2_0 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingItemAccess ( ) . getAttrMappingColumnParserRuleCall_1_2_1_0 ( ) ) ; } pushFollow ( FOLLOW_ruleMappingColumn_in_ruleMappingItem13959 ) ; lv_attr_4_0 = ruleMappingColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getMappingItemRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_attr_4_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } } break ; } } break ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleMappingColumn ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleMappingColumn = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getMappingColumnRule ( ) ) ; } pushFollow ( FOLLOW_ruleMappingColumn_in_entryRuleMappingColumn13999 ) ; iv_ruleMappingColumn = ruleMappingColumn ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleMappingColumn ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleMappingColumn14009 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleMappingColumn ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_1 = null ; Token lv_name_0_2 = null ; Token this_CARET_1 = null ; Token lv_vals_2_1 = null ; Token lv_vals_2_2 = null ; enterRule ( ) ; try { { { { { int alt96 = <NUM_LIT:2> ; int LA96_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA96_0 == RULE_IDENT ) ) { alt96 = <NUM_LIT:1> ; } else if ( ( LA96_0 == RULE_IDENT_DOT ) ) { alt96 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt96 ) { case <NUM_LIT:1> : { lv_name_0_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingColumn14053 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_1 , grammarAccess . getMappingColumnAccess ( ) . getNameIDENTTerminalRuleCall_0_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_name_0_2 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleMappingColumn14073 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_2 , grammarAccess . getMappingColumnAccess ( ) . getNameIDENT_DOTTerminalRuleCall_0_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingColumnRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_2 , "<STR_LIT>" ) ; } } break ; } } } loop98 : do { int alt98 = <NUM_LIT:2> ; int LA98_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA98_0 == RULE_CARET ) ) { alt98 = <NUM_LIT:1> ; } switch ( alt98 ) { case <NUM_LIT:1> : { this_CARET_1 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleMappingColumn14093 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_1 , grammarAccess . getMappingColumnAccess ( ) . getCARETTerminalRuleCall_1_0 ( ) ) ; } { { int alt97 = <NUM_LIT:2> ; int LA97_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA97_0 == RULE_IDENT ) ) { alt97 = <NUM_LIT:1> ; } else if ( ( LA97_0 == RULE_NUMBER ) ) { alt97 = <NUM_LIT:2> ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } NoViableAltException nvae = new NoViableAltException ( "<STR_LIT>" , <NUM_LIT> , <NUM_LIT:0> , input ) ; throw nvae ; } switch ( alt97 ) { case <NUM_LIT:1> : { lv_vals_2_1 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleMappingColumn14111 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_2_1 , grammarAccess . getMappingColumnAccess ( ) . getValsIDENTTerminalRuleCall_1_1_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingColumnRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_2_1 , "<STR_LIT>" ) ; } } break ; case <NUM_LIT:2> : { lv_vals_2_2 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleMappingColumn14131 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_vals_2_2 , grammarAccess . getMappingColumnAccess ( ) . getValsNUMBERTerminalRuleCall_1_1_0_1 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getMappingColumnRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_vals_2_2 , "<STR_LIT>" ) ; } } break ; } } } } break ; default : break loop98 ; } } while ( true ) ; } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject entryRuleOptionalFeature ( ) throws RecognitionException { EObject current = null ; EObject iv_ruleOptionalFeature = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOptionalFeatureRule ( ) ) ; } pushFollow ( FOLLOW_ruleOptionalFeature_in_entryRuleOptionalFeature14177 ) ; iv_ruleOptionalFeature = ruleOptionalFeature ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleOptionalFeature ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleOptionalFeature14187 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final EObject ruleOptionalFeature ( ) throws RecognitionException { EObject current = null ; Token lv_name_0_0 = null ; Token this_LPAREN_1 = null ; Token lv_type_2_0 = null ; Token this_COMMA_3 = null ; Token lv_filters_4_0 = null ; Token this_RPAREN_5 = null ; Token this_EQUALS_6 = null ; Token this_SEMICOLON_8 = null ; AntlrDatatypeRuleToken lv_option_7_0 = null ; enterRule ( ) ; try { { { { { lv_name_0_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleOptionalFeature14229 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_name_0_0 , grammarAccess . getOptionalFeatureAccess ( ) . getNameIDENTTerminalRuleCall_0_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getOptionalFeatureRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:name>" , lv_name_0_0 , "<STR_LIT>" ) ; } } } this_LPAREN_1 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleOptionalFeature14245 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_1 , grammarAccess . getOptionalFeatureAccess ( ) . getLPARENTerminalRuleCall_1 ( ) ) ; } { { lv_type_2_0 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleOptionalFeature14261 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_type_2_0 , grammarAccess . getOptionalFeatureAccess ( ) . getTypeOPTION_TYPETerminalRuleCall_2_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getOptionalFeatureRule ( ) ) ; } setWithLastConsumed ( current , "<STR_LIT:type>" , lv_type_2_0 , "<STR_LIT>" ) ; } } } loop99 : do { int alt99 = <NUM_LIT:2> ; int LA99_0 = input . LA ( <NUM_LIT:1> ) ; if ( ( LA99_0 == RULE_COMMA ) ) { alt99 = <NUM_LIT:1> ; } switch ( alt99 ) { case <NUM_LIT:1> : { this_COMMA_3 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleOptionalFeature14278 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_3 , grammarAccess . getOptionalFeatureAccess ( ) . getCOMMATerminalRuleCall_3_0 ( ) ) ; } { { lv_filters_4_0 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleOptionalFeature14294 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( lv_filters_4_0 , grammarAccess . getOptionalFeatureAccess ( ) . getFiltersIDENTTerminalRuleCall_3_1_0 ( ) ) ; } if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElement ( grammarAccess . getOptionalFeatureRule ( ) ) ; } addWithLastConsumed ( current , "<STR_LIT>" , lv_filters_4_0 , "<STR_LIT>" ) ; } } } } break ; default : break loop99 ; } } while ( true ) ; this_RPAREN_5 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleOptionalFeature14312 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_5 , grammarAccess . getOptionalFeatureAccess ( ) . getRPARENTerminalRuleCall_4 ( ) ) ; } this_EQUALS_6 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleOptionalFeature14322 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_6 , grammarAccess . getOptionalFeatureAccess ( ) . getEQUALSTerminalRuleCall_5 ( ) ) ; } { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getOptionalFeatureAccess ( ) . getOptionFeatureValueParserRuleCall_6_0 ( ) ) ; } pushFollow ( FOLLOW_ruleFeatureValue_in_ruleOptionalFeature14342 ) ; lv_option_7_0 = ruleFeatureValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { if ( current == null ) { current = createModelElementForParent ( grammarAccess . getOptionalFeatureRule ( ) ) ; } set ( current , "<STR_LIT>" , lv_option_7_0 , "<STR_LIT>" ) ; afterParserOrEnumRuleCall ( ) ; } } } this_SEMICOLON_8 = ( Token ) match ( input , RULE_SEMICOLON , FOLLOW_RULE_SEMICOLON_in_ruleOptionalFeature14353 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_SEMICOLON_8 , grammarAccess . getOptionalFeatureAccess ( ) . getSEMICOLONTerminalRuleCall_7 ( ) ) ; } } } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final String entryRuleFeatureValue ( ) throws RecognitionException { String current = null ; AntlrDatatypeRuleToken iv_ruleFeatureValue = null ; try { { if ( state . backtracking == <NUM_LIT:0> ) { newCompositeNode ( grammarAccess . getFeatureValueRule ( ) ) ; } pushFollow ( FOLLOW_ruleFeatureValue_in_entryRuleFeatureValue14389 ) ; iv_ruleFeatureValue = ruleFeatureValue ( ) ; state . _fsp -- ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current = iv_ruleFeatureValue . getText ( ) ; } match ( input , EOF , FOLLOW_EOF_in_entryRuleFeatureValue14400 ) ; if ( state . failed ) return current ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final AntlrDatatypeRuleToken ruleFeatureValue ( ) throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken ( ) ; Token this_REST_0 = null ; Token this_IDENT_DOT_1 = null ; Token this_IDENT_2 = null ; Token this_NUMBER_3 = null ; Token this_WS_4 = null ; Token this_COLON_5 = null ; Token this_STRING_6 = null ; Token this_COMMA_7 = null ; Token this_MINUS_8 = null ; Token this_PLUS_9 = null ; Token this_LPAREN_10 = null ; Token this_RPAREN_11 = null ; Token this_LBRACE_12 = null ; Token this_RBRACE_13 = null ; Token this_QUESTI_14 = null ; Token this_NOT_15 = null ; Token this_BAND_16 = null ; Token this_BOR_17 = null ; Token this_HASH_18 = null ; Token this_AT_19 = null ; Token this_CARET_20 = null ; Token this_EQUALS_21 = null ; Token this_LESS_THAN_22 = null ; Token this_MORE_THAN_23 = null ; Token this_PERCENT_24 = null ; Token this_AND_25 = null ; Token this_OR_26 = null ; Token this_ESC_CHAR_27 = null ; Token this_ON_OFF_28 = null ; Token this_STATEMEN_TYPE_29 = null ; Token this_MAPPING_TYPE_30 = null ; Token this_OPTION_TYPE_31 = null ; enterRule ( ) ; try { { int cnt100 = <NUM_LIT:0> ; loop100 : do { int alt100 = <NUM_LIT> ; switch ( input . LA ( <NUM_LIT:1> ) ) { case RULE_REST : { alt100 = <NUM_LIT:1> ; } break ; case RULE_IDENT_DOT : { alt100 = <NUM_LIT:2> ; } break ; case RULE_IDENT : { alt100 = <NUM_LIT:3> ; } break ; case RULE_NUMBER : { alt100 = <NUM_LIT:4> ; } break ; case RULE_WS : { alt100 = <NUM_LIT:5> ; } break ; case RULE_COLON : { alt100 = <NUM_LIT:6> ; } break ; case RULE_STRING : { alt100 = <NUM_LIT:7> ; } break ; case RULE_COMMA : { alt100 = <NUM_LIT:8> ; } break ; case RULE_MINUS : { alt100 = <NUM_LIT:9> ; } break ; case RULE_PLUS : { alt100 = <NUM_LIT:10> ; } break ; case RULE_LPAREN : { alt100 = <NUM_LIT:11> ; } break ; case RULE_RPAREN : { alt100 = <NUM_LIT:12> ; } break ; case RULE_LBRACE : { alt100 = <NUM_LIT> ; } break ; case RULE_RBRACE : { alt100 = <NUM_LIT> ; } break ; case RULE_QUESTI : { alt100 = <NUM_LIT:15> ; } break ; case RULE_NOT : { alt100 = <NUM_LIT:16> ; } break ; case RULE_BAND : { alt100 = <NUM_LIT> ; } break ; case RULE_BOR : { alt100 = <NUM_LIT> ; } break ; case RULE_HASH : { alt100 = <NUM_LIT> ; } break ; case RULE_AT : { alt100 = <NUM_LIT:20> ; } break ; case RULE_CARET : { alt100 = <NUM_LIT> ; } break ; case RULE_EQUALS : { alt100 = <NUM_LIT> ; } break ; case RULE_LESS_THAN : { alt100 = <NUM_LIT> ; } break ; case RULE_MORE_THAN : { alt100 = <NUM_LIT:24> ; } break ; case RULE_PERCENT : { alt100 = <NUM_LIT> ; } break ; case RULE_AND : { alt100 = <NUM_LIT> ; } break ; case RULE_OR : { alt100 = <NUM_LIT> ; } break ; case RULE_ESC_CHAR : { alt100 = <NUM_LIT> ; } break ; case RULE_ON_OFF : { alt100 = <NUM_LIT> ; } break ; case RULE_STATEMEN_TYPE : { alt100 = <NUM_LIT:30> ; } break ; case RULE_MAPPING_TYPE : { alt100 = <NUM_LIT:31> ; } break ; case RULE_OPTION_TYPE : { alt100 = <NUM_LIT:32> ; } break ; } switch ( alt100 ) { case <NUM_LIT:1> : { this_REST_0 = ( Token ) match ( input , RULE_REST , FOLLOW_RULE_REST_in_ruleFeatureValue14440 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_REST_0 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_REST_0 , grammarAccess . getFeatureValueAccess ( ) . getRESTTerminalRuleCall_0 ( ) ) ; } } break ; case <NUM_LIT:2> : { this_IDENT_DOT_1 = ( Token ) match ( input , RULE_IDENT_DOT , FOLLOW_RULE_IDENT_DOT_in_ruleFeatureValue14466 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_DOT_1 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_DOT_1 , grammarAccess . getFeatureValueAccess ( ) . getIDENT_DOTTerminalRuleCall_1 ( ) ) ; } } break ; case <NUM_LIT:3> : { this_IDENT_2 = ( Token ) match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_ruleFeatureValue14492 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_IDENT_2 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_IDENT_2 , grammarAccess . getFeatureValueAccess ( ) . getIDENTTerminalRuleCall_2 ( ) ) ; } } break ; case <NUM_LIT:4> : { this_NUMBER_3 = ( Token ) match ( input , RULE_NUMBER , FOLLOW_RULE_NUMBER_in_ruleFeatureValue14518 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NUMBER_3 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NUMBER_3 , grammarAccess . getFeatureValueAccess ( ) . getNUMBERTerminalRuleCall_3 ( ) ) ; } } break ; case <NUM_LIT:5> : { this_WS_4 = ( Token ) match ( input , RULE_WS , FOLLOW_RULE_WS_in_ruleFeatureValue14544 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_WS_4 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_WS_4 , grammarAccess . getFeatureValueAccess ( ) . getWSTerminalRuleCall_4 ( ) ) ; } } break ; case <NUM_LIT:6> : { this_COLON_5 = ( Token ) match ( input , RULE_COLON , FOLLOW_RULE_COLON_in_ruleFeatureValue14570 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COLON_5 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COLON_5 , grammarAccess . getFeatureValueAccess ( ) . getCOLONTerminalRuleCall_5 ( ) ) ; } } break ; case <NUM_LIT:7> : { this_STRING_6 = ( Token ) match ( input , RULE_STRING , FOLLOW_RULE_STRING_in_ruleFeatureValue14596 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STRING_6 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STRING_6 , grammarAccess . getFeatureValueAccess ( ) . getSTRINGTerminalRuleCall_6 ( ) ) ; } } break ; case <NUM_LIT:8> : { this_COMMA_7 = ( Token ) match ( input , RULE_COMMA , FOLLOW_RULE_COMMA_in_ruleFeatureValue14622 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_COMMA_7 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_COMMA_7 , grammarAccess . getFeatureValueAccess ( ) . getCOMMATerminalRuleCall_7 ( ) ) ; } } break ; case <NUM_LIT:9> : { this_MINUS_8 = ( Token ) match ( input , RULE_MINUS , FOLLOW_RULE_MINUS_in_ruleFeatureValue14648 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MINUS_8 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MINUS_8 , grammarAccess . getFeatureValueAccess ( ) . getMINUSTerminalRuleCall_8 ( ) ) ; } } break ; case <NUM_LIT:10> : { this_PLUS_9 = ( Token ) match ( input , RULE_PLUS , FOLLOW_RULE_PLUS_in_ruleFeatureValue14674 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PLUS_9 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PLUS_9 , grammarAccess . getFeatureValueAccess ( ) . getPLUSTerminalRuleCall_9 ( ) ) ; } } break ; case <NUM_LIT:11> : { this_LPAREN_10 = ( Token ) match ( input , RULE_LPAREN , FOLLOW_RULE_LPAREN_in_ruleFeatureValue14700 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LPAREN_10 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LPAREN_10 , grammarAccess . getFeatureValueAccess ( ) . getLPARENTerminalRuleCall_10 ( ) ) ; } } break ; case <NUM_LIT:12> : { this_RPAREN_11 = ( Token ) match ( input , RULE_RPAREN , FOLLOW_RULE_RPAREN_in_ruleFeatureValue14726 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RPAREN_11 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RPAREN_11 , grammarAccess . getFeatureValueAccess ( ) . getRPARENTerminalRuleCall_11 ( ) ) ; } } break ; case <NUM_LIT> : { this_LBRACE_12 = ( Token ) match ( input , RULE_LBRACE , FOLLOW_RULE_LBRACE_in_ruleFeatureValue14752 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LBRACE_12 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LBRACE_12 , grammarAccess . getFeatureValueAccess ( ) . getLBRACETerminalRuleCall_12 ( ) ) ; } } break ; case <NUM_LIT> : { this_RBRACE_13 = ( Token ) match ( input , RULE_RBRACE , FOLLOW_RULE_RBRACE_in_ruleFeatureValue14778 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_RBRACE_13 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_RBRACE_13 , grammarAccess . getFeatureValueAccess ( ) . getRBRACETerminalRuleCall_13 ( ) ) ; } } break ; case <NUM_LIT:15> : { this_QUESTI_14 = ( Token ) match ( input , RULE_QUESTI , FOLLOW_RULE_QUESTI_in_ruleFeatureValue14804 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_QUESTI_14 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_QUESTI_14 , grammarAccess . getFeatureValueAccess ( ) . getQUESTITerminalRuleCall_14 ( ) ) ; } } break ; case <NUM_LIT:16> : { this_NOT_15 = ( Token ) match ( input , RULE_NOT , FOLLOW_RULE_NOT_in_ruleFeatureValue14830 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_NOT_15 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_NOT_15 , grammarAccess . getFeatureValueAccess ( ) . getNOTTerminalRuleCall_15 ( ) ) ; } } break ; case <NUM_LIT> : { this_BAND_16 = ( Token ) match ( input , RULE_BAND , FOLLOW_RULE_BAND_in_ruleFeatureValue14856 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BAND_16 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BAND_16 , grammarAccess . getFeatureValueAccess ( ) . getBANDTerminalRuleCall_16 ( ) ) ; } } break ; case <NUM_LIT> : { this_BOR_17 = ( Token ) match ( input , RULE_BOR , FOLLOW_RULE_BOR_in_ruleFeatureValue14882 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_BOR_17 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_BOR_17 , grammarAccess . getFeatureValueAccess ( ) . getBORTerminalRuleCall_17 ( ) ) ; } } break ; case <NUM_LIT> : { this_HASH_18 = ( Token ) match ( input , RULE_HASH , FOLLOW_RULE_HASH_in_ruleFeatureValue14908 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_HASH_18 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_HASH_18 , grammarAccess . getFeatureValueAccess ( ) . getHASHTerminalRuleCall_18 ( ) ) ; } } break ; case <NUM_LIT:20> : { this_AT_19 = ( Token ) match ( input , RULE_AT , FOLLOW_RULE_AT_in_ruleFeatureValue14934 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AT_19 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AT_19 , grammarAccess . getFeatureValueAccess ( ) . getATTerminalRuleCall_19 ( ) ) ; } } break ; case <NUM_LIT> : { this_CARET_20 = ( Token ) match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_ruleFeatureValue14960 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_CARET_20 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_CARET_20 , grammarAccess . getFeatureValueAccess ( ) . getCARETTerminalRuleCall_20 ( ) ) ; } } break ; case <NUM_LIT> : { this_EQUALS_21 = ( Token ) match ( input , RULE_EQUALS , FOLLOW_RULE_EQUALS_in_ruleFeatureValue14986 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_EQUALS_21 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_EQUALS_21 , grammarAccess . getFeatureValueAccess ( ) . getEQUALSTerminalRuleCall_21 ( ) ) ; } } break ; case <NUM_LIT> : { this_LESS_THAN_22 = ( Token ) match ( input , RULE_LESS_THAN , FOLLOW_RULE_LESS_THAN_in_ruleFeatureValue15012 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_LESS_THAN_22 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_LESS_THAN_22 , grammarAccess . getFeatureValueAccess ( ) . getLESS_THANTerminalRuleCall_22 ( ) ) ; } } break ; case <NUM_LIT:24> : { this_MORE_THAN_23 = ( Token ) match ( input , RULE_MORE_THAN , FOLLOW_RULE_MORE_THAN_in_ruleFeatureValue15038 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MORE_THAN_23 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MORE_THAN_23 , grammarAccess . getFeatureValueAccess ( ) . getMORE_THANTerminalRuleCall_23 ( ) ) ; } } break ; case <NUM_LIT> : { this_PERCENT_24 = ( Token ) match ( input , RULE_PERCENT , FOLLOW_RULE_PERCENT_in_ruleFeatureValue15064 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_PERCENT_24 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_PERCENT_24 , grammarAccess . getFeatureValueAccess ( ) . getPERCENTTerminalRuleCall_24 ( ) ) ; } } break ; case <NUM_LIT> : { this_AND_25 = ( Token ) match ( input , RULE_AND , FOLLOW_RULE_AND_in_ruleFeatureValue15090 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_AND_25 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_AND_25 , grammarAccess . getFeatureValueAccess ( ) . getANDTerminalRuleCall_25 ( ) ) ; } } break ; case <NUM_LIT> : { this_OR_26 = ( Token ) match ( input , RULE_OR , FOLLOW_RULE_OR_in_ruleFeatureValue15116 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OR_26 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OR_26 , grammarAccess . getFeatureValueAccess ( ) . getORTerminalRuleCall_26 ( ) ) ; } } break ; case <NUM_LIT> : { this_ESC_CHAR_27 = ( Token ) match ( input , RULE_ESC_CHAR , FOLLOW_RULE_ESC_CHAR_in_ruleFeatureValue15142 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ESC_CHAR_27 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ESC_CHAR_27 , grammarAccess . getFeatureValueAccess ( ) . getESC_CHARTerminalRuleCall_27 ( ) ) ; } } break ; case <NUM_LIT> : { this_ON_OFF_28 = ( Token ) match ( input , RULE_ON_OFF , FOLLOW_RULE_ON_OFF_in_ruleFeatureValue15168 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_ON_OFF_28 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_ON_OFF_28 , grammarAccess . getFeatureValueAccess ( ) . getON_OFFTerminalRuleCall_28 ( ) ) ; } } break ; case <NUM_LIT:30> : { this_STATEMEN_TYPE_29 = ( Token ) match ( input , RULE_STATEMEN_TYPE , FOLLOW_RULE_STATEMEN_TYPE_in_ruleFeatureValue15194 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_STATEMEN_TYPE_29 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_STATEMEN_TYPE_29 , grammarAccess . getFeatureValueAccess ( ) . getSTATEMEN_TYPETerminalRuleCall_29 ( ) ) ; } } break ; case <NUM_LIT:31> : { this_MAPPING_TYPE_30 = ( Token ) match ( input , RULE_MAPPING_TYPE , FOLLOW_RULE_MAPPING_TYPE_in_ruleFeatureValue15220 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_MAPPING_TYPE_30 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_MAPPING_TYPE_30 , grammarAccess . getFeatureValueAccess ( ) . getMAPPING_TYPETerminalRuleCall_30 ( ) ) ; } } break ; case <NUM_LIT:32> : { this_OPTION_TYPE_31 = ( Token ) match ( input , RULE_OPTION_TYPE , FOLLOW_RULE_OPTION_TYPE_in_ruleFeatureValue15246 ) ; if ( state . failed ) return current ; if ( state . backtracking == <NUM_LIT:0> ) { current . merge ( this_OPTION_TYPE_31 ) ; } if ( state . backtracking == <NUM_LIT:0> ) { newLeafNode ( this_OPTION_TYPE_31 , grammarAccess . getFeatureValueAccess ( ) . getOPTION_TYPETerminalRuleCall_31 ( ) ) ; } } break ; default : if ( cnt100 >= <NUM_LIT:1> ) break loop100 ; if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return current ; } EarlyExitException eee = new EarlyExitException ( <NUM_LIT:100> , input ) ; throw eee ; } cnt100 ++ ; } while ( true ) ; } if ( state . backtracking == <NUM_LIT:0> ) { leaveRule ( ) ; } } catch ( RecognitionException re ) { recover ( input , re ) ; appendSkippedTokens ( ) ; } finally { } return current ; } public final void synpred1_InternalProcessorDsl_fragment ( ) throws RecognitionException { { if ( ( input . LA ( <NUM_LIT:1> ) >= RULE_WS && input . LA ( <NUM_LIT:1> ) <= RULE_ON_OFF ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_REST && input . LA ( <NUM_LIT:1> ) <= RULE_OPTION_TYPE ) ) { input . consume ( ) ; state . errorRecovery = false ; state . failed = false ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return ; } MismatchedSetException mse = new MismatchedSetException ( null , input ) ; throw mse ; } } } public final void synpred2_InternalProcessorDsl_fragment ( ) throws RecognitionException { { if ( ( input . LA ( <NUM_LIT:1> ) >= RULE_WS && input . LA ( <NUM_LIT:1> ) <= RULE_ON_OFF ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_REST && input . LA ( <NUM_LIT:1> ) <= RULE_NUMBER ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_COMMA && input . LA ( <NUM_LIT:1> ) <= RULE_RPAREN ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_RBRACE && input . LA ( <NUM_LIT:1> ) <= RULE_HASH ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_CARET && input . LA ( <NUM_LIT:1> ) <= RULE_MORE_THAN ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_AND && input . LA ( <NUM_LIT:1> ) <= RULE_OPTION_TYPE ) ) { input . consume ( ) ; state . errorRecovery = false ; state . failed = false ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return ; } MismatchedSetException mse = new MismatchedSetException ( null , input ) ; throw mse ; } } } public final void synpred3_InternalProcessorDsl_fragment ( ) throws RecognitionException { { if ( ( input . LA ( <NUM_LIT:1> ) >= RULE_WS && input . LA ( <NUM_LIT:1> ) <= RULE_NUMBER ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_COMMA && input . LA ( <NUM_LIT:1> ) <= RULE_RPAREN ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_QUESTI && input . LA ( <NUM_LIT:1> ) <= RULE_BAND ) \|\| input . LA ( <NUM_LIT:1> ) == RULE_HASH \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_CARET && input . LA ( <NUM_LIT:1> ) <= RULE_MORE_THAN ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_AND && input . LA ( <NUM_LIT:1> ) <= RULE_OPTION_TYPE ) ) { input . consume ( ) ; state . errorRecovery = false ; state . failed = false ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return ; } MismatchedSetException mse = new MismatchedSetException ( null , input ) ; throw mse ; } } } public final void synpred4_InternalProcessorDsl_fragment ( ) throws RecognitionException { { if ( ( input . LA ( <NUM_LIT:1> ) >= RULE_WS && input . LA ( <NUM_LIT:1> ) <= RULE_NUMBER ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_COMMA && input . LA ( <NUM_LIT:1> ) <= RULE_LBRACE ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_QUESTI && input . LA ( <NUM_LIT:1> ) <= RULE_MORE_THAN ) \|\| ( input . LA ( <NUM_LIT:1> ) >= RULE_AND && input . LA ( <NUM_LIT:1> ) <= RULE_OPTION_TYPE ) ) { input . consume ( ) ; state . errorRecovery = false ; state . failed = false ; } else { if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return ; } MismatchedSetException mse = new MismatchedSetException ( null , input ) ; throw mse ; } } } public final void synpred5_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred5_InternalProcessorDsl12407 ) ; if ( state . failed ) return ; } } public final void synpred6_InternalProcessorDsl_fragment ( ) throws RecognitionException { { { match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_synpred6_InternalProcessorDsl12426 ) ; if ( state . failed ) return ; } } } public final void synpred7_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred7_InternalProcessorDsl12459 ) ; if ( state . failed ) return ; } } public final void synpred8_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred8_InternalProcessorDsl12694 ) ; if ( state . failed ) return ; } } public final void synpred9_InternalProcessorDsl_fragment ( ) throws RecognitionException { { { match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_synpred9_InternalProcessorDsl12713 ) ; if ( state . failed ) return ; } } } public final void synpred10_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred10_InternalProcessorDsl12746 ) ; if ( state . failed ) return ; } } public final void synpred11_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred11_InternalProcessorDsl13069 ) ; if ( state . failed ) return ; } } public final void synpred12_InternalProcessorDsl_fragment ( ) throws RecognitionException { { { match ( input , RULE_IDENT , FOLLOW_RULE_IDENT_in_synpred12_InternalProcessorDsl13088 ) ; if ( state . failed ) return ; } } } public final void synpred13_InternalProcessorDsl_fragment ( ) throws RecognitionException { { match ( input , RULE_CARET , FOLLOW_RULE_CARET_in_synpred13_InternalProcessorDsl13121 ) ; if ( state . failed ) return ; } } public final boolean synpred8_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred8_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred9_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred9_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred1_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred1_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred10_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred10_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred12_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred12_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred4_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred4_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred7_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred7_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred3_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred3_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred13_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred13_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred2_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred2_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred6_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred6_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred11_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred11_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } public final boolean synpred5_InternalProcessorDsl ( ) { state . backtracking ++ ; int start = input . mark ( ) ; try { synpred5_InternalProcessorDsl_fragment ( ) ; } catch ( RecognitionException re ) { System . err . println ( "<STR_LIT>" + re ) ; } boolean success = ! state . failed ; input . rewind ( start ) ; state . backtracking -- ; state . failed = false ; return success ; } protected DFA10 dfa10 = new DFA10 ( this ) ; protected DFA21 dfa21 = new DFA21 ( this ) ; protected DFA31 dfa31 = new DFA31 ( this ) ; protected DFA43 dfa43 = new DFA43 ( this ) ; protected DFA63 dfa63 = new DFA63 ( this ) ; protected DFA90 dfa90 = new DFA90 ( this ) ; static final String DFA10_eotS = "<STR_LIT>" ; static final String DFA10_eofS = "<STR_LIT>" ; static final String DFA10_minS = "<STR_LIT>" ; static final String DFA10_maxS = "<STR_LIT>" ; static final String DFA10_acceptS = "<STR_LIT>" ; static final String DFA10_specialS = "<STR_LIT>" ; static final String [ ] DFA10_transitionS = { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA10_eot = DFA . unpackEncodedString ( DFA10_eotS ) ; static final short [ ] DFA10_eof = DFA . unpackEncodedString ( DFA10_eofS ) ; static final char [ ] DFA10_min = DFA . unpackEncodedStringToUnsignedChars ( DFA10_minS ) ; static final char [ ] DFA10_max = DFA . unpackEncodedStringToUnsignedChars ( DFA10_maxS ) ; static final short [ ] DFA10_accept = DFA . unpackEncodedString ( DFA10_acceptS ) ; static final short [ ] DFA10_special = DFA . unpackEncodedString ( DFA10_specialS ) ; static final short [ ] [ ] DFA10_transition ; static { int numStates = DFA10_transitionS . length ; DFA10_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA10_transition [ i ] = DFA . unpackEncodedString ( DFA10_transitionS [ i ] ) ; } } class DFA10 extends DFA { public DFA10 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT:10> ; this . eot = DFA10_eot ; this . eof = DFA10_eof ; this . min = DFA10_min ; this . max = DFA10_max ; this . accept = DFA10_accept ; this . special = DFA10_special ; this . transition = DFA10_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } } static final String DFA21_eotS = "<STR_LIT>" ; static final String DFA21_eofS = "<STR_LIT>" ; static final String DFA21_minS = "<STR_LIT>" ; static final String DFA21_maxS = "<STR_LIT>" ; static final String DFA21_acceptS = "<STR_LIT>" ; static final String DFA21_specialS = "<STR_LIT>" ; static final String [ ] DFA21_transitionS = { "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA21_eot = DFA . unpackEncodedString ( DFA21_eotS ) ; static final short [ ] DFA21_eof = DFA . unpackEncodedString ( DFA21_eofS ) ; static final char [ ] DFA21_min = DFA . unpackEncodedStringToUnsignedChars ( DFA21_minS ) ; static final char [ ] DFA21_max = DFA . unpackEncodedStringToUnsignedChars ( DFA21_maxS ) ; static final short [ ] DFA21_accept = DFA . unpackEncodedString ( DFA21_acceptS ) ; static final short [ ] DFA21_special = DFA . unpackEncodedString ( DFA21_specialS ) ; static final short [ ] [ ] DFA21_transition ; static { int numStates = DFA21_transitionS . length ; DFA21_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA21_transition [ i ] = DFA . unpackEncodedString ( DFA21_transitionS [ i ] ) ; } } class DFA21 extends DFA { public DFA21 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT> ; this . eot = DFA21_eot ; this . eof = DFA21_eof ; this . min = DFA21_min ; this . max = DFA21_max ; this . accept = DFA21_accept ; this . special = DFA21_special ; this . transition = DFA21_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } public int specialStateTransition ( int s , IntStream _input ) throws NoViableAltException { TokenStream input = ( TokenStream ) _input ; int _s = s ; switch ( s ) { case <NUM_LIT:0> : int LA21_0 = input . LA ( <NUM_LIT:1> ) ; int index21_0 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( LA21_0 == EOF \|\| LA21_0 == RULE_SEMICOLON ) ) { s = <NUM_LIT:1> ; } else if ( ( LA21_0 == RULE_REST ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:2> ; } else if ( ( LA21_0 == RULE_IDENT_DOT ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:3> ; } else if ( ( LA21_0 == RULE_IDENT ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:4> ; } else if ( ( LA21_0 == RULE_NUMBER ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:5> ; } else if ( ( LA21_0 == RULE_WS ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:6> ; } else if ( ( LA21_0 == RULE_COLON ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:7> ; } else if ( ( LA21_0 == RULE_STRING ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:8> ; } else if ( ( LA21_0 == RULE_COMMA ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:9> ; } else if ( ( LA21_0 == RULE_MINUS ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:10> ; } else if ( ( LA21_0 == RULE_PLUS ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:11> ; } else if ( ( LA21_0 == RULE_LPAREN ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:12> ; } else if ( ( LA21_0 == RULE_RPAREN ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_LBRACE ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_RBRACE ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:15> ; } else if ( ( LA21_0 == RULE_QUESTI ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:16> ; } else if ( ( LA21_0 == RULE_NOT ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_BAND ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_BOR ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_HASH ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:20> ; } else if ( ( LA21_0 == RULE_AT ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_CARET ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_EQUALS ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_LESS_THAN ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:24> ; } else if ( ( LA21_0 == RULE_MORE_THAN ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_PERCENT ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_AND ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_OR ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_ESC_CHAR ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( LA21_0 == RULE_ON_OFF ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:30> ; } else if ( ( LA21_0 == RULE_STATEMEN_TYPE ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( LA21_0 == RULE_MAPPING_TYPE ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:32> ; } else if ( ( LA21_0 == RULE_OPTION_TYPE ) && ( synpred1_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } input . seek ( index21_0 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; } if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return - <NUM_LIT:1> ; } NoViableAltException nvae = new NoViableAltException ( getDescription ( ) , <NUM_LIT> , _s , input ) ; error ( nvae ) ; throw nvae ; } } static final String DFA31_eotS = "<STR_LIT>" ; static final String DFA31_eofS = "<STR_LIT>" ; static final String DFA31_minS = "<STR_LIT>" ; static final String DFA31_maxS = "<STR_LIT>" ; static final String DFA31_acceptS = "<STR_LIT>" ; static final String DFA31_specialS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String [ ] DFA31_transitionS = { "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA31_eot = DFA . unpackEncodedString ( DFA31_eotS ) ; static final short [ ] DFA31_eof = DFA . unpackEncodedString ( DFA31_eofS ) ; static final char [ ] DFA31_min = DFA . unpackEncodedStringToUnsignedChars ( DFA31_minS ) ; static final char [ ] DFA31_max = DFA . unpackEncodedStringToUnsignedChars ( DFA31_maxS ) ; static final short [ ] DFA31_accept = DFA . unpackEncodedString ( DFA31_acceptS ) ; static final short [ ] DFA31_special = DFA . unpackEncodedString ( DFA31_specialS ) ; static final short [ ] [ ] DFA31_transition ; static { int numStates = DFA31_transitionS . length ; DFA31_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA31_transition [ i ] = DFA . unpackEncodedString ( DFA31_transitionS [ i ] ) ; } } class DFA31 extends DFA { public DFA31 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT:31> ; this . eot = DFA31_eot ; this . eof = DFA31_eof ; this . min = DFA31_min ; this . max = DFA31_max ; this . accept = DFA31_accept ; this . special = DFA31_special ; this . transition = DFA31_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } public int specialStateTransition ( int s , IntStream _input ) throws NoViableAltException { TokenStream input = ( TokenStream ) _input ; int _s = s ; switch ( s ) { case <NUM_LIT:0> : int LA31_19 = input . LA ( <NUM_LIT:1> ) ; int index31_19 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_19 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:1> : int LA31_7 = input . LA ( <NUM_LIT:1> ) ; int index31_7 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_7 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:2> : int LA31_13 = input . LA ( <NUM_LIT:1> ) ; int index31_13 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_13 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:3> : int LA31_5 = input . LA ( <NUM_LIT:1> ) ; int index31_5 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_5 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:4> : int LA31_2 = input . LA ( <NUM_LIT:1> ) ; int index31_2 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_2 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:5> : int LA31_15 = input . LA ( <NUM_LIT:1> ) ; int index31_15 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_15 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:6> : int LA31_17 = input . LA ( <NUM_LIT:1> ) ; int index31_17 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_17 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:7> : int LA31_27 = input . LA ( <NUM_LIT:1> ) ; int index31_27 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_27 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:8> : int LA31_22 = input . LA ( <NUM_LIT:1> ) ; int index31_22 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_22 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:9> : int LA31_12 = input . LA ( <NUM_LIT:1> ) ; int index31_12 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_12 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:10> : int LA31_25 = input . LA ( <NUM_LIT:1> ) ; int index31_25 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_25 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:11> : int LA31_10 = input . LA ( <NUM_LIT:1> ) ; int index31_10 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_10 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:12> : int LA31_4 = input . LA ( <NUM_LIT:1> ) ; int index31_4 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_4 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_9 = input . LA ( <NUM_LIT:1> ) ; int index31_9 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_9 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_8 = input . LA ( <NUM_LIT:1> ) ; int index31_8 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_8 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:15> : int LA31_14 = input . LA ( <NUM_LIT:1> ) ; int index31_14 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_14 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:16> : int LA31_20 = input . LA ( <NUM_LIT:1> ) ; int index31_20 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_20 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_24 = input . LA ( <NUM_LIT:1> ) ; int index31_24 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_24 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_18 = input . LA ( <NUM_LIT:1> ) ; int index31_18 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_18 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_6 = input . LA ( <NUM_LIT:1> ) ; int index31_6 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_6 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:20> : int LA31_16 = input . LA ( <NUM_LIT:1> ) ; int index31_16 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_16 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_11 = input . LA ( <NUM_LIT:1> ) ; int index31_11 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_11 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_21 = input . LA ( <NUM_LIT:1> ) ; int index31_21 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_21 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_3 = input . LA ( <NUM_LIT:1> ) ; int index31_3 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_3 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:24> : int LA31_26 = input . LA ( <NUM_LIT:1> ) ; int index31_26 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_26 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_23 = input . LA ( <NUM_LIT:1> ) ; int index31_23 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_23 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA31_28 = input . LA ( <NUM_LIT:1> ) ; int index31_28 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred2_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index31_28 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; } if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return - <NUM_LIT:1> ; } NoViableAltException nvae = new NoViableAltException ( getDescription ( ) , <NUM_LIT:31> , _s , input ) ; error ( nvae ) ; throw nvae ; } } static final String DFA43_eotS = "<STR_LIT>" ; static final String DFA43_eofS = "<STR_LIT>" ; static final String DFA43_minS = "<STR_LIT>" ; static final String DFA43_maxS = "<STR_LIT>" ; static final String DFA43_acceptS = "<STR_LIT>" ; static final String DFA43_specialS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String [ ] DFA43_transitionS = { "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA43_eot = DFA . unpackEncodedString ( DFA43_eotS ) ; static final short [ ] DFA43_eof = DFA . unpackEncodedString ( DFA43_eofS ) ; static final char [ ] DFA43_min = DFA . unpackEncodedStringToUnsignedChars ( DFA43_minS ) ; static final char [ ] DFA43_max = DFA . unpackEncodedStringToUnsignedChars ( DFA43_maxS ) ; static final short [ ] DFA43_accept = DFA . unpackEncodedString ( DFA43_acceptS ) ; static final short [ ] DFA43_special = DFA . unpackEncodedString ( DFA43_specialS ) ; static final short [ ] [ ] DFA43_transition ; static { int numStates = DFA43_transitionS . length ; DFA43_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA43_transition [ i ] = DFA . unpackEncodedString ( DFA43_transitionS [ i ] ) ; } } class DFA43 extends DFA { public DFA43 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT> ; this . eot = DFA43_eot ; this . eof = DFA43_eof ; this . min = DFA43_min ; this . max = DFA43_max ; this . accept = DFA43_accept ; this . special = DFA43_special ; this . transition = DFA43_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } public int specialStateTransition ( int s , IntStream _input ) throws NoViableAltException { TokenStream input = ( TokenStream ) _input ; int _s = s ; switch ( s ) { case <NUM_LIT:0> : int LA43_17 = input . LA ( <NUM_LIT:1> ) ; int index43_17 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_17 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:1> : int LA43_16 = input . LA ( <NUM_LIT:1> ) ; int index43_16 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_16 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:2> : int LA43_19 = input . LA ( <NUM_LIT:1> ) ; int index43_19 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_19 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:3> : int LA43_14 = input . LA ( <NUM_LIT:1> ) ; int index43_14 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_14 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:4> : int LA43_9 = input . LA ( <NUM_LIT:1> ) ; int index43_9 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_9 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:5> : int LA43_4 = input . LA ( <NUM_LIT:1> ) ; int index43_4 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_4 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:6> : int LA43_23 = input . LA ( <NUM_LIT:1> ) ; int index43_23 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_23 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:7> : int LA43_6 = input . LA ( <NUM_LIT:1> ) ; int index43_6 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_6 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:8> : int LA43_10 = input . LA ( <NUM_LIT:1> ) ; int index43_10 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_10 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:9> : int LA43_27 = input . LA ( <NUM_LIT:1> ) ; int index43_27 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_27 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:10> : int LA43_8 = input . LA ( <NUM_LIT:1> ) ; int index43_8 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_8 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:11> : int LA43_2 = input . LA ( <NUM_LIT:1> ) ; int index43_2 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_2 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:12> : int LA43_25 = input . LA ( <NUM_LIT:1> ) ; int index43_25 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_25 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_21 = input . LA ( <NUM_LIT:1> ) ; int index43_21 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_21 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_12 = input . LA ( <NUM_LIT:1> ) ; int index43_12 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_12 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:15> : int LA43_13 = input . LA ( <NUM_LIT:1> ) ; int index43_13 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_13 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:16> : int LA43_18 = input . LA ( <NUM_LIT:1> ) ; int index43_18 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_18 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_15 = input . LA ( <NUM_LIT:1> ) ; int index43_15 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_15 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_3 = input . LA ( <NUM_LIT:1> ) ; int index43_3 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_3 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_20 = input . LA ( <NUM_LIT:1> ) ; int index43_20 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_20 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:20> : int LA43_7 = input . LA ( <NUM_LIT:1> ) ; int index43_7 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_7 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_5 = input . LA ( <NUM_LIT:1> ) ; int index43_5 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_5 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_24 = input . LA ( <NUM_LIT:1> ) ; int index43_24 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_24 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_26 = input . LA ( <NUM_LIT:1> ) ; int index43_26 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_26 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:24> : int LA43_22 = input . LA ( <NUM_LIT:1> ) ; int index43_22 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_22 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA43_11 = input . LA ( <NUM_LIT:1> ) ; int index43_11 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred3_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index43_11 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; } if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return - <NUM_LIT:1> ; } NoViableAltException nvae = new NoViableAltException ( getDescription ( ) , <NUM_LIT> , _s , input ) ; error ( nvae ) ; throw nvae ; } } static final String DFA63_eotS = "<STR_LIT>" ; static final String DFA63_eofS = "<STR_LIT>" ; static final String DFA63_minS = "<STR_LIT>" ; static final String DFA63_maxS = "<STR_LIT>" ; static final String DFA63_acceptS = "<STR_LIT>" ; static final String DFA63_specialS = "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" ; static final String [ ] DFA63_transitionS = { "<STR_LIT>" + "<STR_LIT>" + "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA63_eot = DFA . unpackEncodedString ( DFA63_eotS ) ; static final short [ ] DFA63_eof = DFA . unpackEncodedString ( DFA63_eofS ) ; static final char [ ] DFA63_min = DFA . unpackEncodedStringToUnsignedChars ( DFA63_minS ) ; static final char [ ] DFA63_max = DFA . unpackEncodedStringToUnsignedChars ( DFA63_maxS ) ; static final short [ ] DFA63_accept = DFA . unpackEncodedString ( DFA63_acceptS ) ; static final short [ ] DFA63_special = DFA . unpackEncodedString ( DFA63_specialS ) ; static final short [ ] [ ] DFA63_transition ; static { int numStates = DFA63_transitionS . length ; DFA63_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA63_transition [ i ] = DFA . unpackEncodedString ( DFA63_transitionS [ i ] ) ; } } class DFA63 extends DFA { public DFA63 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT> ; this . eot = DFA63_eot ; this . eof = DFA63_eof ; this . min = DFA63_min ; this . max = DFA63_max ; this . accept = DFA63_accept ; this . special = DFA63_special ; this . transition = DFA63_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } public int specialStateTransition ( int s , IntStream _input ) throws NoViableAltException { TokenStream input = ( TokenStream ) _input ; int _s = s ; switch ( s ) { case <NUM_LIT:0> : int LA63_23 = input . LA ( <NUM_LIT:1> ) ; int index63_23 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_23 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:1> : int LA63_6 = input . LA ( <NUM_LIT:1> ) ; int index63_6 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_6 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:2> : int LA63_20 = input . LA ( <NUM_LIT:1> ) ; int index63_20 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_20 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:3> : int LA63_5 = input . LA ( <NUM_LIT:1> ) ; int index63_5 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_5 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:4> : int LA63_28 = input . LA ( <NUM_LIT:1> ) ; int index63_28 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_28 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:5> : int LA63_25 = input . LA ( <NUM_LIT:1> ) ; int index63_25 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_25 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:6> : int LA63_8 = input . LA ( <NUM_LIT:1> ) ; int index63_8 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_8 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:7> : int LA63_18 = input . LA ( <NUM_LIT:1> ) ; int index63_18 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_18 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:8> : int LA63_3 = input . LA ( <NUM_LIT:1> ) ; int index63_3 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_3 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:9> : int LA63_12 = input . LA ( <NUM_LIT:1> ) ; int index63_12 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_12 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:10> : int LA63_14 = input . LA ( <NUM_LIT:1> ) ; int index63_14 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_14 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:11> : int LA63_27 = input . LA ( <NUM_LIT:1> ) ; int index63_27 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_27 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:12> : int LA63_10 = input . LA ( <NUM_LIT:1> ) ; int index63_10 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_10 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_16 = input . LA ( <NUM_LIT:1> ) ; int index63_16 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_16 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_29 = input . LA ( <NUM_LIT:1> ) ; int index63_29 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_29 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:15> : int LA63_2 = input . LA ( <NUM_LIT:1> ) ; int index63_2 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_2 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:16> : int LA63_24 = input . LA ( <NUM_LIT:1> ) ; int index63_24 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_24 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_7 = input . LA ( <NUM_LIT:1> ) ; int index63_7 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_7 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_4 = input . LA ( <NUM_LIT:1> ) ; int index63_4 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_4 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_22 = input . LA ( <NUM_LIT:1> ) ; int index63_22 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_22 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:20> : int LA63_19 = input . LA ( <NUM_LIT:1> ) ; int index63_19 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_19 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_9 = input . LA ( <NUM_LIT:1> ) ; int index63_9 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_9 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_15 = input . LA ( <NUM_LIT:1> ) ; int index63_15 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_15 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_13 = input . LA ( <NUM_LIT:1> ) ; int index63_13 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_13 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT:24> : int LA63_17 = input . LA ( <NUM_LIT:1> ) ; int index63_17 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_17 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_30 = input . LA ( <NUM_LIT:1> ) ; int index63_30 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_30 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_11 = input . LA ( <NUM_LIT:1> ) ; int index63_11 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_11 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_26 = input . LA ( <NUM_LIT:1> ) ; int index63_26 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_26 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; case <NUM_LIT> : int LA63_21 = input . LA ( <NUM_LIT:1> ) ; int index63_21 = input . index ( ) ; input . rewind ( ) ; s = - <NUM_LIT:1> ; if ( ( synpred4_InternalProcessorDsl ( ) ) ) { s = <NUM_LIT:31> ; } else if ( ( true ) ) { s = <NUM_LIT:1> ; } input . seek ( index63_21 ) ; if ( s >= <NUM_LIT:0> ) return s ; break ; } if ( state . backtracking > <NUM_LIT:0> ) { state . failed = true ; return - <NUM_LIT:1> ; } NoViableAltException nvae = new NoViableAltException ( getDescription ( ) , <NUM_LIT> , _s , input ) ; error ( nvae ) ; throw nvae ; } } static final String DFA90_eotS = "<STR_LIT>" ; static final String DFA90_eofS = "<STR_LIT>" ; static final String DFA90_minS = "<STR_LIT>" ; static final String DFA90_maxS = "<STR_LIT>" ; static final String DFA90_acceptS = "<STR_LIT>" ; static final String DFA90_specialS = "<STR_LIT>" ; static final String [ ] DFA90_transitionS = { "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" , "<STR_LIT>" } ; static final short [ ] DFA90_eot = DFA . unpackEncodedString ( DFA90_eotS ) ; static final short [ ] DFA90_eof = DFA . unpackEncodedString ( DFA90_eofS ) ; static final char [ ] DFA90_min = DFA . unpackEncodedStringToUnsignedChars ( DFA90_minS ) ; static final char [ ] DFA90_max = DFA . unpackEncodedStringToUnsignedChars ( DFA90_maxS ) ; static final short [ ] DFA90_accept = DFA . unpackEncodedString ( DFA90_acceptS ) ; static final short [ ] DFA90_special = DFA . unpackEncodedString ( DFA90_specialS ) ; static final short [ ] [ ] DFA90_transition ; static { int numStates = DFA90_transitionS . length ; DFA90_transition = new short [ numStates ] [ ] ; for ( int i = <NUM_LIT:0> ; i < numStates ; i ++ ) { DFA90_transition [ i ] = DFA . unpackEncodedString ( DFA90_transitionS [ i ] ) ; } } class DFA90 extends DFA { public DFA90 ( BaseRecognizer recognizer ) { this . recognizer = recognizer ; this . decisionNumber = <NUM_LIT> ; this . eot = DFA90_eot ; this . eof = DFA90_eof ; this . min = DFA90_min ; this . max = DFA90_max ; this . accept = DFA90_accept ; this . special = DFA90_special ; this . transition = DFA90_transition ; } public String getDescription ( ) { return "<STR_LIT>" ; } } public static final BitSet FOLLOW_ruleArtifacts_in_entryRuleArtifacts75 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleArtifacts85 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts122 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOptionalFeature_in_ruleArtifacts146 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts158 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMetaStatement_in_ruleArtifacts188 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts200 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingRule_in_ruleArtifacts230 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts242 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePojoDefinition_in_ruleArtifacts272 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts284 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePojoUsage_in_ruleArtifacts314 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts326 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleProperty_in_ruleArtifacts356 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts368 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleTableDefinition_in_ruleArtifacts398 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts410 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleTableUsage_in_ruleArtifacts440 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleArtifacts452 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleProperty_in_entryRuleProperty492 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleProperty502 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_39_in_ruleProperty547 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty572 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleProperty590 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_40_in_ruleProperty621 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty646 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleProperty664 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_41_in_ruleProperty695 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty720 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_ruleProperty742 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_42_in_ruleProperty768 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty793 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_ruleProperty815 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_43_in_ruleProperty841 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty866 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_ruleProperty888 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_44_in_ruleProperty914 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty939 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_ruleProperty961 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_45_in_ruleProperty987 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleProperty1012 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_ruleProperty1034 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleProperty1047 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePropertyValue_in_entryRulePropertyValue1083 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRulePropertyValue1094 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_rulePropertyValue1135 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_rulePropertyValue1161 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_rulePropertyValue1187 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_rulePropertyValue1213 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_rulePropertyValue1239 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_rulePropertyValue1265 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_rulePropertyValue1291 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_rulePropertyValue1317 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_rulePropertyValue1343 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_rulePropertyValue1369 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_rulePropertyValue1395 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_rulePropertyValue1421 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_rulePropertyValue1447 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_rulePropertyValue1473 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_rulePropertyValue1499 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_rulePropertyValue1525 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_rulePropertyValue1551 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_rulePropertyValue1577 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_rulePropertyValue1603 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_rulePropertyValue1629 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_rulePropertyValue1655 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_rulePropertyValue1681 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_rulePropertyValue1707 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_rulePropertyValue1733 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_rulePropertyValue1759 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_rulePropertyValue1785 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_rulePropertyValue1811 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_rulePropertyValue1837 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_rulePropertyValue1863 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_rulePropertyValue1889 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_rulePropertyValue1915 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_rulePropertyValue2193 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_rulePropertyValue2219 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_rulePropertyValue2245 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_rulePropertyValue2271 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_rulePropertyValue2297 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_rulePropertyValue2323 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_rulePropertyValue2349 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_rulePropertyValue2375 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_rulePropertyValue2401 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_rulePropertyValue2427 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_rulePropertyValue2453 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_rulePropertyValue2479 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_rulePropertyValue2505 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_rulePropertyValue2531 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_rulePropertyValue2557 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_rulePropertyValue2583 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_rulePropertyValue2609 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_rulePropertyValue2635 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_rulePropertyValue2661 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_rulePropertyValue2687 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_rulePropertyValue2713 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_rulePropertyValue2739 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_rulePropertyValue2765 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_rulePropertyValue2791 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_rulePropertyValue2817 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_rulePropertyValue2843 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_rulePropertyValue2869 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_rulePropertyValue2895 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_rulePropertyValue2921 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_rulePropertyValue2947 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_rulePropertyValue2973 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_rulePropertyValue2999 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePojoDefinition_in_entryRulePojoDefinition3053 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRulePojoDefinition3063 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_46_in_rulePojoDefinition3104 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_rulePojoDefinition3121 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_rulePojoDefinition3145 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_rulePojoDefinition3165 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_rulePojoDefinition3184 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_rulePojoUsage_in_entryRulePojoUsage3223 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRulePojoUsage3233 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleColumnUsage_in_rulePojoUsage3280 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifierUsage_in_rulePojoUsage3307 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstantUsage_in_rulePojoUsage3334 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingUsage_in_rulePojoUsage3361 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleColumnUsage_in_entryRuleColumnUsage3402 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleColumnUsage3412 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_47_in_ruleColumnUsage3453 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleColumnUsage3473 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleColumnUsage3493 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleColumnUsage3504 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifierUsage_in_entryRuleIdentifierUsage3549 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIdentifierUsage3559 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_48_in_ruleIdentifierUsage3600 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIdentifierUsage3620 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIdentifierUsage3640 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleIdentifierUsage3651 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstantUsage_in_entryRuleConstantUsage3696 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleConstantUsage3706 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_49_in_ruleConstantUsage3747 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleConstantUsage3767 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleConstantUsage3787 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleConstantUsage3798 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingUsage_in_entryRuleMappingUsage3843 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMappingUsage3853 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_50_in_ruleMappingUsage3894 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingUsage3914 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingUsage3934 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleMappingUsage3945 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleTableDefinition_in_entryRuleTableDefinition3990 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleTableDefinition4000 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_51_in_ruleTableDefinition4041 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleTableDefinition4058 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleTableDefinition4080 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleTableDefinition4096 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleTableUsage_in_entryRuleTableUsage4141 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleTableUsage4151 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_52_in_ruleTableUsage4192 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleTableUsage4212 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleTableUsage4232 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_53_in_ruleTableUsage4245 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleTableUsage4262 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleTableUsage4280 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMetaStatement_in_entryRuleMetaStatement4319 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMetaStatement4329 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMetaStatement4371 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleMetaStatement4387 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleMetaStatement4403 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleMetaStatement4420 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMetaStatement4436 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleMetaStatement4454 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleMetaStatement4464 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSql_in_ruleMetaStatement4484 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleMetaStatement4495 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSql_in_entryRuleSql4530 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleSql4540 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSqlFragment_in_ruleSql4585 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSqlFragment_in_entryRuleSqlFragment4621 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleSqlFragment4631 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSqlValue_in_ruleSqlFragment4677 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_ruleSqlFragment4695 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleColumn_in_ruleSqlFragment4715 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleSqlFragment4734 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstant_in_ruleSqlFragment4754 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_ruleSqlFragment4773 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifier_in_ruleSqlFragment4793 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_ruleSqlFragment4812 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMetaSql_in_ruleSqlFragment4832 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_ruleSqlFragment4843 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleSqlFragment4861 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleSqlFragment4873 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseTable_in_ruleSqlFragment4893 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseColumn_in_ruleSqlFragment4921 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleSqlValue_in_entryRuleSqlValue4960 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleSqlValue4971 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleSqlValue5012 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleSqlValue5038 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleSqlValue5064 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleSqlValue5090 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleSqlValue5116 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleSqlValue5142 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleSqlValue5168 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleSqlValue5194 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleSqlValue5220 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleSqlValue5246 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_ruleSqlValue5272 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleSqlValue5298 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleSqlValue5324 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleSqlValue5350 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleSqlValue5376 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleSqlValue5402 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleSqlValue5428 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleSqlValue5454 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleSqlValue5480 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleSqlValue5506 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleSqlValue5532 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleSqlValue5558 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleSqlValue5584 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleSqlValue5610 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleSqlValue5636 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleSqlValue5662 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleSqlValue5688 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleSqlValue5926 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleSqlValue5952 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleSqlValue5978 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleSqlValue6004 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleSqlValue6030 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleSqlValue6056 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleSqlValue6082 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleSqlValue6108 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleSqlValue6134 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleSqlValue6160 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_ruleSqlValue6186 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleSqlValue6212 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleSqlValue6238 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleSqlValue6264 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleSqlValue6290 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleSqlValue6316 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleSqlValue6342 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleSqlValue6368 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleSqlValue6394 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleSqlValue6420 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleSqlValue6446 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleSqlValue6472 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleSqlValue6498 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleSqlValue6524 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleSqlValue6550 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleSqlValue6576 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleSqlValue6602 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMetaSql_in_entryRuleMetaSql6650 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMetaSql6660 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleMetaSql6697 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6717 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql6729 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6749 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleMetaSql6776 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlCond_in_ruleMetaSql6802 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql6813 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6833 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql6845 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6865 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleMetaSql6892 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6918 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql6930 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql6950 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql6977 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql7003 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleMetaSql7015 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql7035 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleMetaSql7062 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleMetaSql7079 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMetaSql7097 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleMetaSql7123 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleMetaSql7148 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleMetaSql7164 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSql_in_ruleMetaSql7184 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_entryRuleIfSql7221 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfSql7231 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlFragment_in_ruleIfSql7276 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlFragment_in_entryRuleIfSqlFragment7312 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfSqlFragment7322 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlValue_in_ruleIfSqlFragment7368 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_ruleIfSqlFragment7386 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleColumn_in_ruleIfSqlFragment7406 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleIfSqlFragment7425 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstant_in_ruleIfSqlFragment7445 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_ruleIfSqlFragment7464 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifier_in_ruleIfSqlFragment7484 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleIfSqlFragment7503 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleIfSqlFragment7515 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseTable_in_ruleIfSqlFragment7535 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseColumn_in_ruleIfSqlFragment7563 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_ruleIfSqlFragment7583 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfMetaSql_in_ruleIfSqlFragment7603 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_ruleIfSqlFragment7614 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlValue_in_entryRuleIfSqlValue7651 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfSqlValue7662 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleIfSqlValue7703 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleIfSqlValue7729 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIfSqlValue7755 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleIfSqlValue7781 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlValue7807 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleIfSqlValue7833 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleIfSqlValue7859 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleIfSqlValue7885 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleIfSqlValue7911 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleIfSqlValue7937 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleIfSqlValue7963 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleIfSqlValue7989 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleIfSqlValue8015 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleIfSqlValue8041 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleIfSqlValue8067 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleIfSqlValue8093 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleIfSqlValue8119 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleIfSqlValue8145 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleIfSqlValue8171 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleIfSqlValue8197 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleIfSqlValue8223 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleIfSqlValue8249 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleIfSqlValue8275 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleIfSqlValue8301 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleIfSqlValue8327 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleIfSqlValue8353 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleIfSqlValue8583 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleIfSqlValue8609 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIfSqlValue8635 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleIfSqlValue8661 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlValue8687 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleIfSqlValue8713 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleIfSqlValue8739 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleIfSqlValue8765 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleIfSqlValue8791 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleIfSqlValue8817 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleIfSqlValue8843 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleIfSqlValue8869 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleIfSqlValue8895 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleIfSqlValue8921 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleIfSqlValue8947 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleIfSqlValue8973 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleIfSqlValue8999 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleIfSqlValue9025 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleIfSqlValue9051 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleIfSqlValue9077 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleIfSqlValue9103 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleIfSqlValue9129 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleIfSqlValue9155 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleIfSqlValue9181 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleIfSqlValue9207 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleIfSqlValue9233 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfMetaSql_in_entryRuleIfMetaSql9281 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfMetaSql9291 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfMetaSql9328 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9348 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9360 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9380 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleIfMetaSql9407 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlCond_in_ruleIfMetaSql9433 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9444 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9464 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9476 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9496 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleIfMetaSql9523 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9549 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9561 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9581 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9608 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9634 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleIfMetaSql9646 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSql_in_ruleIfMetaSql9666 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlCond_in_entryRuleIfSqlCond9705 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfSqlCond9715 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlCond9752 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlBool_in_ruleIfSqlCond9774 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlCond9786 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleIfSqlCond9807 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleIfSqlCond9827 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlCond9847 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlBool_in_ruleIfSqlCond9869 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleIfSqlCond9881 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlBool_in_entryRuleIfSqlBool9920 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIfSqlBool9930 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleIfSqlBool9973 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleIfSqlBool9990 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstant_in_ruleIfSqlBool10010 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleIfSqlBool10035 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_ruleIfSqlBool10052 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifier_in_ruleIfSqlBool10072 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleIfSqlBool10097 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleIfSqlBool10114 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIfSqlCond_in_ruleIfSqlBool10134 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleIfSqlBool10145 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSql_in_entryRuleOrdSql10181 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleOrdSql10191 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSql2_in_ruleOrdSql10236 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSql2_in_entryRuleOrdSql210272 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleOrdSql210282 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSqlValue_in_ruleOrdSql210328 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleOrdSql210346 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstant_in_ruleOrdSql210366 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_ruleOrdSql210385 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifier_in_ruleOrdSql210405 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleOrdSql210424 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseColumn_in_ruleOrdSql210444 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOrdSqlValue_in_entryRuleOrdSqlValue10482 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleOrdSqlValue10493 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleOrdSqlValue10534 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleOrdSqlValue10560 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleOrdSqlValue10586 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleOrdSqlValue10612 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleOrdSqlValue10638 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleOrdSqlValue10664 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleOrdSqlValue10690 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleOrdSqlValue10716 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleOrdSqlValue10742 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleOrdSqlValue10768 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleOrdSqlValue10794 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_ruleOrdSqlValue10820 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleOrdSqlValue10846 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleOrdSqlValue10872 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleOrdSqlValue10898 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleOrdSqlValue10924 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleOrdSqlValue10950 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_ruleOrdSqlValue10976 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleOrdSqlValue11002 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleOrdSqlValue11028 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleOrdSqlValue11054 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleOrdSqlValue11080 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleOrdSqlValue11106 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleOrdSqlValue11132 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleOrdSqlValue11158 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleOrdSqlValue11184 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleOrdSqlValue11210 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleOrdSqlValue11236 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleOrdSqlValue11262 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleOrdSqlValue11516 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleOrdSqlValue11542 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleOrdSqlValue11568 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleOrdSqlValue11594 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleOrdSqlValue11620 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleOrdSqlValue11646 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleOrdSqlValue11672 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleOrdSqlValue11698 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleOrdSqlValue11724 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleOrdSqlValue11750 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleOrdSqlValue11776 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_ruleOrdSqlValue11802 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleOrdSqlValue11828 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleOrdSqlValue11854 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleOrdSqlValue11880 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleOrdSqlValue11906 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleOrdSqlValue11932 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_ruleOrdSqlValue11958 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleOrdSqlValue11984 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleOrdSqlValue12010 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleOrdSqlValue12036 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleOrdSqlValue12062 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleOrdSqlValue12088 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleOrdSqlValue12114 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleOrdSqlValue12140 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleOrdSqlValue12166 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleOrdSqlValue12192 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleOrdSqlValue12218 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleOrdSqlValue12244 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleColumn_in_entryRuleColumn12292 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleColumn12302 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleColumn12346 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleColumn12366 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleColumn12386 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleColumn12412 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleColumn12440 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleColumn12464 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleColumn12483 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleColumn12503 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleConstant_in_entryRuleConstant12551 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleConstant12561 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleConstant12605 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleConstant12625 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleConstant12653 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleConstant12673 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleConstant12699 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleConstant12727 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleConstant12751 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleConstant12770 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleConstant12790 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleIdentifier_in_entryRuleIdentifier12838 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleIdentifier12848 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleIdentifier12892 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleIdentifier12912 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleIdentifier12932 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleIdentifier12960 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleIdentifier12980 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIdentifier13008 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleIdentifier13028 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleIdentifier13048 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleIdentifier13074 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIdentifier13102 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleIdentifier13126 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleIdentifier13145 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleIdentifier13165 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseColumn_in_entryRuleDatabaseColumn13213 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleDatabaseColumn13223 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleDatabaseColumn13266 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleDatabaseColumn13286 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleDatabaseTable_in_entryRuleDatabaseTable13329 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleDatabaseTable13339 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleDatabaseTable13382 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleDatabaseTable13402 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingRule_in_entryRuleMappingRule13445 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMappingRule13455 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingRule13497 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleMappingRule13513 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleMappingRule13529 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleMappingRule13546 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingRule13562 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleMappingRule13580 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleMappingRule13590 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMapping_in_ruleMappingRule13610 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleMappingRule13621 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMapping_in_entryRuleMapping13656 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMapping13666 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleMapping13703 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingItem_in_ruleMapping13725 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleMapping13738 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingItem_in_ruleMapping13760 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleMapping13774 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingItem_in_entryRuleMappingItem13811 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMappingItem13821 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingItem13865 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleMappingItem13885 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleMappingItem13905 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingItem13921 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleMappingItem13939 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingColumn_in_ruleMappingItem13959 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleMappingColumn_in_entryRuleMappingColumn13999 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleMappingColumn14009 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingColumn14053 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleMappingColumn14073 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleMappingColumn14093 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleMappingColumn14111 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleMappingColumn14131 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleOptionalFeature_in_entryRuleOptionalFeature14177 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleOptionalFeature14187 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleOptionalFeature14229 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleOptionalFeature14245 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleOptionalFeature14261 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleOptionalFeature14278 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleOptionalFeature14294 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleOptionalFeature14312 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleOptionalFeature14322 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleFeatureValue_in_ruleOptionalFeature14342 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_SEMICOLON_in_ruleOptionalFeature14353 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_ruleFeatureValue_in_entryRuleFeatureValue14389 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_EOF_in_entryRuleFeatureValue14400 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_REST_in_ruleFeatureValue14440 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_DOT_in_ruleFeatureValue14466 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_ruleFeatureValue14492 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NUMBER_in_ruleFeatureValue14518 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_WS_in_ruleFeatureValue14544 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COLON_in_ruleFeatureValue14570 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STRING_in_ruleFeatureValue14596 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_COMMA_in_ruleFeatureValue14622 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MINUS_in_ruleFeatureValue14648 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PLUS_in_ruleFeatureValue14674 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LPAREN_in_ruleFeatureValue14700 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RPAREN_in_ruleFeatureValue14726 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LBRACE_in_ruleFeatureValue14752 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_RBRACE_in_ruleFeatureValue14778 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_QUESTI_in_ruleFeatureValue14804 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_NOT_in_ruleFeatureValue14830 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BAND_in_ruleFeatureValue14856 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_BOR_in_ruleFeatureValue14882 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_HASH_in_ruleFeatureValue14908 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AT_in_ruleFeatureValue14934 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_ruleFeatureValue14960 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_EQUALS_in_ruleFeatureValue14986 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_LESS_THAN_in_ruleFeatureValue15012 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MORE_THAN_in_ruleFeatureValue15038 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_PERCENT_in_ruleFeatureValue15064 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_AND_in_ruleFeatureValue15090 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OR_in_ruleFeatureValue15116 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ESC_CHAR_in_ruleFeatureValue15142 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_ON_OFF_in_ruleFeatureValue15168 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_STATEMEN_TYPE_in_ruleFeatureValue15194 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_MAPPING_TYPE_in_ruleFeatureValue15220 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_OPTION_TYPE_in_ruleFeatureValue15246 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_set_in_synpred1_InternalProcessorDsl1932 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_set_in_synpred2_InternalProcessorDsl5705 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_set_in_synpred3_InternalProcessorDsl8370 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_set_in_synpred4_InternalProcessorDsl11279 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred5_InternalProcessorDsl12407 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_synpred6_InternalProcessorDsl12426 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred7_InternalProcessorDsl12459 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred8_InternalProcessorDsl12694 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_synpred9_InternalProcessorDsl12713 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred10_InternalProcessorDsl12746 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred11_InternalProcessorDsl13069 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_IDENT_in_synpred12_InternalProcessorDsl13088 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; public static final BitSet FOLLOW_RULE_CARET_in_synpred13_InternalProcessorDsl13121 = new BitSet ( new long [ ] { <NUM_LIT> } ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface IfSqlCond extends EObject { IfSqlBool getBool1 ( ) ; void setBool1 ( IfSqlBool value ) ; EList < String > getOper ( ) ; EList < IfSqlBool > getBool2 ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . ecore . EObject ; public interface IfSqlBool extends EObject { boolean isNot ( ) ; void setNot ( boolean value ) ; Constant getCnst ( ) ; void setCnst ( Constant value ) ; Identifier getIdent ( ) ; void setIdent ( Identifier value ) ; IfSqlCond getCond ( ) ; void setCond ( IfSqlCond value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface OptionalFeature extends EObject { String getName ( ) ; void setName ( String value ) ; String getType ( ) ; void setType ( String value ) ; EList < String > getFilters ( ) ; String getOption ( ) ; void setOption ( String value ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface Mapping extends EObject { EList < MappingItem > getMappingItems ( ) ; } </s>
<s> package org . sqlproc . dsl . processorDsl ; import org . eclipse . emf . common . util . EList ; import org . eclipse . emf . ecore . EObject ; public interface Identifier extends EObject { String getMode ( ) ; void setMode ( String value ) ; String getCase ( ) ; void setCase ( String value ) ; String getName ( ) ; void setName ( String value ) ; String getType ( ) ; void setType ( String value ) ; EList < String > getVals ( ) ; } </s>

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