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eclipse / ocl / org.eclipse.ocl / d6c091ee3fc4b7b8a45eb64e55b4e1e7e5936057 / . / plugins / org.eclipse.ocl.xtext.oclinecore / src-gen / org / eclipse / ocl / xtext / oclinecore / serializer / AbstractOCLinEcoreSemanticSequencer.java
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/*******************************************************************************
* Copyright (c) 2011, 2021 Willink Transformations and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v2.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v20.html
*
* Contributors:
* E.D.Willink - initial API and implementation
*******************************************************************************/
package org.eclipse.ocl.xtext.oclinecore.serializer;
import com.google.inject.Inject;
import java.util.Set;
import org.eclipse.emf.ecore.EObject;
import org.eclipse.emf.ecore.EPackage;
import org.eclipse.ocl.xtext.basecs.AnnotationCS;
import org.eclipse.ocl.xtext.basecs.AttributeCS;
import org.eclipse.ocl.xtext.basecs.BaseCSPackage;
import org.eclipse.ocl.xtext.basecs.DataTypeCS;
import org.eclipse.ocl.xtext.basecs.DetailCS;
import org.eclipse.ocl.xtext.basecs.DocumentationCS;
import org.eclipse.ocl.xtext.basecs.EnumerationCS;
import org.eclipse.ocl.xtext.basecs.EnumerationLiteralCS;
import org.eclipse.ocl.xtext.basecs.ImplicitOppositeCS;
import org.eclipse.ocl.xtext.basecs.ImportCS;
import org.eclipse.ocl.xtext.basecs.ModelElementRefCS;
import org.eclipse.ocl.xtext.basecs.MultiplicityBoundsCS;
import org.eclipse.ocl.xtext.basecs.MultiplicityStringCS;
import org.eclipse.ocl.xtext.basecs.OperationCS;
import org.eclipse.ocl.xtext.basecs.PackageCS;
import org.eclipse.ocl.xtext.basecs.ParameterCS;
import org.eclipse.ocl.xtext.basecs.PathElementCS;
import org.eclipse.ocl.xtext.basecs.PathElementWithURICS;
import org.eclipse.ocl.xtext.basecs.PathNameCS;
import org.eclipse.ocl.xtext.basecs.PrimitiveTypeRefCS;
import org.eclipse.ocl.xtext.basecs.ReferenceCS;
import org.eclipse.ocl.xtext.basecs.StructuredClassCS;
import org.eclipse.ocl.xtext.basecs.TemplateBindingCS;
import org.eclipse.ocl.xtext.basecs.TemplateParameterSubstitutionCS;
import org.eclipse.ocl.xtext.basecs.TemplateSignatureCS;
import org.eclipse.ocl.xtext.basecs.TuplePartCS;
import org.eclipse.ocl.xtext.basecs.TupleTypeCS;
import org.eclipse.ocl.xtext.basecs.TypeParameterCS;
import org.eclipse.ocl.xtext.basecs.TypedTypeRefCS;
import org.eclipse.ocl.xtext.basecs.WildcardTypeRefCS;
import org.eclipse.ocl.xtext.essentialocl.serializer.EssentialOCLSemanticSequencer;
import org.eclipse.ocl.xtext.essentialoclcs.BooleanLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.CollectionLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.CollectionLiteralPartCS;
import org.eclipse.ocl.xtext.essentialoclcs.CollectionPatternCS;
import org.eclipse.ocl.xtext.essentialoclcs.CollectionTypeCS;
import org.eclipse.ocl.xtext.essentialoclcs.ContextCS;
import org.eclipse.ocl.xtext.essentialoclcs.CurlyBracketedClauseCS;
import org.eclipse.ocl.xtext.essentialoclcs.EssentialOCLCSPackage;
import org.eclipse.ocl.xtext.essentialoclcs.ExpSpecificationCS;
import org.eclipse.ocl.xtext.essentialoclcs.IfExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.IfThenExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.InfixExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.InvalidLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.LambdaLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.LetExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.LetVariableCS;
import org.eclipse.ocl.xtext.essentialoclcs.MapLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.MapLiteralPartCS;
import org.eclipse.ocl.xtext.essentialoclcs.MapTypeCS;
import org.eclipse.ocl.xtext.essentialoclcs.NameExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.NavigatingArgCS;
import org.eclipse.ocl.xtext.essentialoclcs.NestedExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.NullLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.NumberLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.PatternExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.PrefixExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.RoundBracketedClauseCS;
import org.eclipse.ocl.xtext.essentialoclcs.SelfExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.ShadowPartCS;
import org.eclipse.ocl.xtext.essentialoclcs.SquareBracketedClauseCS;
import org.eclipse.ocl.xtext.essentialoclcs.StringLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.TupleLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.TupleLiteralPartCS;
import org.eclipse.ocl.xtext.essentialoclcs.TypeLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.TypeNameExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.UnlimitedNaturalLiteralExpCS;
import org.eclipse.ocl.xtext.essentialoclcs.VariableCS;
import org.eclipse.ocl.xtext.oclinecore.services.OCLinEcoreGrammarAccess;
import org.eclipse.ocl.xtext.oclinecorecs.OCLinEcoreCSPackage;
import org.eclipse.ocl.xtext.oclinecorecs.OCLinEcoreConstraintCS;
import org.eclipse.ocl.xtext.oclinecorecs.SysMLCS;
import org.eclipse.ocl.xtext.oclinecorecs.TopLevelCS;
import org.eclipse.xtext.Action;
import org.eclipse.xtext.Parameter;
import org.eclipse.xtext.ParserRule;
import org.eclipse.xtext.serializer.ISerializationContext;
import org.eclipse.xtext.serializer.acceptor.SequenceFeeder;
import org.eclipse.xtext.serializer.sequencer.ITransientValueService.ValueTransient;
@SuppressWarnings("all")
public abstract class AbstractOCLinEcoreSemanticSequencer extends EssentialOCLSemanticSequencer {
@Inject
private OCLinEcoreGrammarAccess grammarAccess;
@Override
public void sequence(ISerializationContext context, EObject semanticObject) {
EPackage epackage = semanticObject.eClass().getEPackage();
ParserRule rule = context.getParserRule();
Action action = context.getAssignedAction();
Set<Parameter> parameters = context.getEnabledBooleanParameters();
if (epackage == BaseCSPackage.eINSTANCE)
switch (semanticObject.eClass().getClassifierID()) {
case BaseCSPackage.ANNOTATION_CS:
sequence_AnnotationCS(context, (AnnotationCS) semanticObject);
return;
case BaseCSPackage.ATTRIBUTE_CS:
sequence_AttributeCS(context, (AttributeCS) semanticObject);
return;
case BaseCSPackage.DATA_TYPE_CS:
sequence_DataTypeCS(context, (DataTypeCS) semanticObject);
return;
case BaseCSPackage.DETAIL_CS:
sequence_DetailCS(context, (DetailCS) semanticObject);
return;
case BaseCSPackage.DOCUMENTATION_CS:
sequence_DocumentationCS(context, (DocumentationCS) semanticObject);
return;
case BaseCSPackage.ENUMERATION_CS:
sequence_EnumerationCS(context, (EnumerationCS) semanticObject);
return;
case BaseCSPackage.ENUMERATION_LITERAL_CS:
sequence_EnumerationLiteralCS(context, (EnumerationLiteralCS) semanticObject);
return;
case BaseCSPackage.IMPLICIT_OPPOSITE_CS:
sequence_ImplicitOppositeCS(context, (ImplicitOppositeCS) semanticObject);
return;
case BaseCSPackage.IMPORT_CS:
sequence_ImportCS(context, (ImportCS) semanticObject);
return;
case BaseCSPackage.MODEL_ELEMENT_REF_CS:
sequence_ModelElementRefCS(context, (ModelElementRefCS) semanticObject);
return;
case BaseCSPackage.MULTIPLICITY_BOUNDS_CS:
if (rule == grammarAccess.getMultiplicityBoundsCSRule()) {
sequence_MultiplicityBoundsCS(context, (MultiplicityBoundsCS) semanticObject);
return;
}
else if (rule == grammarAccess.getMultiplicityCSRule()) {
sequence_MultiplicityBoundsCS_MultiplicityCS(context, (MultiplicityBoundsCS) semanticObject);
return;
}
else break;
case BaseCSPackage.MULTIPLICITY_STRING_CS:
if (rule == grammarAccess.getMultiplicityCSRule()) {
sequence_MultiplicityCS_MultiplicityStringCS(context, (MultiplicityStringCS) semanticObject);
return;
}
else if (rule == grammarAccess.getMultiplicityStringCSRule()) {
sequence_MultiplicityStringCS(context, (MultiplicityStringCS) semanticObject);
return;
}
else break;
case BaseCSPackage.OPERATION_CS:
sequence_OperationCS(context, (OperationCS) semanticObject);
return;
case BaseCSPackage.PACKAGE_CS:
sequence_PackageCS(context, (PackageCS) semanticObject);
return;
case BaseCSPackage.PARAMETER_CS:
sequence_ParameterCS(context, (ParameterCS) semanticObject);
return;
case BaseCSPackage.PATH_ELEMENT_CS:
if (rule == grammarAccess.getFirstPathElementCSRule()) {
sequence_FirstPathElementCS(context, (PathElementCS) semanticObject);
return;
}
else if (rule == grammarAccess.getNextPathElementCSRule()) {
sequence_NextPathElementCS(context, (PathElementCS) semanticObject);
return;
}
else if (rule == grammarAccess.getURIFirstPathElementCSRule()) {
sequence_URIFirstPathElementCS(context, (PathElementCS) semanticObject);
return;
}
else break;
case BaseCSPackage.PATH_ELEMENT_WITH_URICS:
sequence_URIFirstPathElementCS(context, (PathElementWithURICS) semanticObject);
return;
case BaseCSPackage.PATH_NAME_CS:
if (rule == grammarAccess.getPathNameCSRule()) {
sequence_PathNameCS(context, (PathNameCS) semanticObject);
return;
}
else if (rule == grammarAccess.getSimplePathNameCSRule()) {
sequence_SimplePathNameCS(context, (PathNameCS) semanticObject);
return;
}
else if (rule == grammarAccess.getURIPathNameCSRule()) {
sequence_URIPathNameCS(context, (PathNameCS) semanticObject);
return;
}
else if (rule == grammarAccess.getUnreservedPathNameCSRule()) {
sequence_UnreservedPathNameCS(context, (PathNameCS) semanticObject);
return;
}
else break;
case BaseCSPackage.PRIMITIVE_TYPE_REF_CS:
if (rule == grammarAccess.getTypedRefCSRule()
|| rule == grammarAccess.getPrimitiveTypeCSRule()
|| rule == grammarAccess.getTypeLiteralCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()
|| rule == grammarAccess.getTypeRefCSRule()) {
sequence_PrimitiveTypeCS(context, (PrimitiveTypeRefCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_PrimitiveTypeCS_TypeExpCS(context, (PrimitiveTypeRefCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeLiteralWithMultiplicityCSRule()) {
sequence_PrimitiveTypeCS_TypeLiteralWithMultiplicityCS(context, (PrimitiveTypeRefCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypedMultiplicityRefCSRule()) {
sequence_PrimitiveTypeCS_TypedMultiplicityRefCS(context, (PrimitiveTypeRefCS) semanticObject);
return;
}
else break;
case BaseCSPackage.REFERENCE_CS:
sequence_ReferenceCS(context, (ReferenceCS) semanticObject);
return;
case BaseCSPackage.STRUCTURED_CLASS_CS:
sequence_StructuredClassCS(context, (StructuredClassCS) semanticObject);
return;
case BaseCSPackage.TEMPLATE_BINDING_CS:
sequence_TemplateBindingCS(context, (TemplateBindingCS) semanticObject);
return;
case BaseCSPackage.TEMPLATE_PARAMETER_SUBSTITUTION_CS:
sequence_TemplateParameterSubstitutionCS(context, (TemplateParameterSubstitutionCS) semanticObject);
return;
case BaseCSPackage.TEMPLATE_SIGNATURE_CS:
sequence_TemplateSignatureCS(context, (TemplateSignatureCS) semanticObject);
return;
case BaseCSPackage.TUPLE_PART_CS:
sequence_TuplePartCS(context, (TuplePartCS) semanticObject);
return;
case BaseCSPackage.TUPLE_TYPE_CS:
if (rule == grammarAccess.getTypedRefCSRule()
|| rule == grammarAccess.getTupleTypeCSRule()
|| rule == grammarAccess.getTypeLiteralCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()
|| rule == grammarAccess.getTypeRefCSRule()) {
sequence_TupleTypeCS(context, (TupleTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_TupleTypeCS_TypeExpCS(context, (TupleTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeLiteralWithMultiplicityCSRule()) {
sequence_TupleTypeCS_TypeLiteralWithMultiplicityCS(context, (TupleTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypedMultiplicityRefCSRule()) {
sequence_TupleTypeCS_TypedMultiplicityRefCS(context, (TupleTypeCS) semanticObject);
return;
}
else break;
case BaseCSPackage.TYPE_PARAMETER_CS:
sequence_TypeParameterCS(context, (TypeParameterCS) semanticObject);
return;
case BaseCSPackage.TYPED_TYPE_REF_CS:
if (rule == grammarAccess.getTypedMultiplicityRefCSRule()) {
sequence_TypedMultiplicityRefCS_TypedTypeRefCS(context, (TypedTypeRefCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypedRefCSRule()
|| rule == grammarAccess.getTypedTypeRefCSRule()
|| rule == grammarAccess.getTypeRefCSRule()) {
sequence_TypedTypeRefCS(context, (TypedTypeRefCS) semanticObject);
return;
}
else break;
case BaseCSPackage.WILDCARD_TYPE_REF_CS:
sequence_WildcardTypeRefCS(context, (WildcardTypeRefCS) semanticObject);
return;
}
else if (epackage == EssentialOCLCSPackage.eINSTANCE)
switch (semanticObject.eClass().getClassifierID()) {
case EssentialOCLCSPackage.BOOLEAN_LITERAL_EXP_CS:
sequence_BooleanLiteralExpCS(context, (BooleanLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.COLLECTION_LITERAL_EXP_CS:
sequence_CollectionLiteralExpCS(context, (CollectionLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.COLLECTION_LITERAL_PART_CS:
sequence_CollectionLiteralPartCS(context, (CollectionLiteralPartCS) semanticObject);
return;
case EssentialOCLCSPackage.COLLECTION_PATTERN_CS:
if (rule == grammarAccess.getCollectionPatternCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()) {
sequence_CollectionPatternCS(context, (CollectionPatternCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_CollectionPatternCS_TypeExpCS(context, (CollectionPatternCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.COLLECTION_TYPE_CS:
if (rule == grammarAccess.getTypedRefCSRule()
|| rule == grammarAccess.getCollectionTypeCSRule()
|| rule == grammarAccess.getTypeLiteralCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()
|| rule == grammarAccess.getTypeRefCSRule()) {
sequence_CollectionTypeCS(context, (CollectionTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_CollectionTypeCS_TypeExpCS(context, (CollectionTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeLiteralWithMultiplicityCSRule()) {
sequence_CollectionTypeCS_TypeLiteralWithMultiplicityCS(context, (CollectionTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypedMultiplicityRefCSRule()) {
sequence_CollectionTypeCS_TypedMultiplicityRefCS(context, (CollectionTypeCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.CONTEXT_CS:
sequence_Model(context, (ContextCS) semanticObject);
return;
case EssentialOCLCSPackage.CURLY_BRACKETED_CLAUSE_CS:
sequence_CurlyBracketedClauseCS(context, (CurlyBracketedClauseCS) semanticObject);
return;
case EssentialOCLCSPackage.EXP_SPECIFICATION_CS:
sequence_SpecificationCS(context, (ExpSpecificationCS) semanticObject);
return;
case EssentialOCLCSPackage.IF_EXP_CS:
sequence_IfExpCS(context, (IfExpCS) semanticObject);
return;
case EssentialOCLCSPackage.IF_THEN_EXP_CS:
sequence_ElseIfThenExpCS(context, (IfThenExpCS) semanticObject);
return;
case EssentialOCLCSPackage.INFIX_EXP_CS:
sequence_ExpCS(context, (InfixExpCS) semanticObject);
return;
case EssentialOCLCSPackage.INVALID_LITERAL_EXP_CS:
sequence_InvalidLiteralExpCS(context, (InvalidLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.LAMBDA_LITERAL_EXP_CS:
sequence_LambdaLiteralExpCS(context, (LambdaLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.LET_EXP_CS:
sequence_LetExpCS(context, (LetExpCS) semanticObject);
return;
case EssentialOCLCSPackage.LET_VARIABLE_CS:
sequence_LetVariableCS(context, (LetVariableCS) semanticObject);
return;
case EssentialOCLCSPackage.MAP_LITERAL_EXP_CS:
sequence_MapLiteralExpCS(context, (MapLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.MAP_LITERAL_PART_CS:
sequence_MapLiteralPartCS(context, (MapLiteralPartCS) semanticObject);
return;
case EssentialOCLCSPackage.MAP_TYPE_CS:
if (rule == grammarAccess.getTypedRefCSRule()
|| rule == grammarAccess.getMapTypeCSRule()
|| rule == grammarAccess.getTypeLiteralCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()
|| rule == grammarAccess.getTypeRefCSRule()) {
sequence_MapTypeCS(context, (MapTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_MapTypeCS_TypeExpCS(context, (MapTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeLiteralWithMultiplicityCSRule()) {
sequence_MapTypeCS_TypeLiteralWithMultiplicityCS(context, (MapTypeCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypedMultiplicityRefCSRule()) {
sequence_MapTypeCS_TypedMultiplicityRefCS(context, (MapTypeCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.NAME_EXP_CS:
sequence_NameExpCS(context, (NameExpCS) semanticObject);
return;
case EssentialOCLCSPackage.NAVIGATING_ARG_CS:
if (rule == grammarAccess.getNavigatingArgCSRule()) {
sequence_NavigatingArgCS(context, (NavigatingArgCS) semanticObject);
return;
}
else if (rule == grammarAccess.getNavigatingBarArgCSRule()) {
sequence_NavigatingBarArgCS(context, (NavigatingArgCS) semanticObject);
return;
}
else if (rule == grammarAccess.getNavigatingCommaArgCSRule()) {
sequence_NavigatingCommaArgCS(context, (NavigatingArgCS) semanticObject);
return;
}
else if (rule == grammarAccess.getNavigatingSemiArgCSRule()) {
sequence_NavigatingSemiArgCS(context, (NavigatingArgCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.NESTED_EXP_CS:
sequence_NestedExpCS(context, (NestedExpCS) semanticObject);
return;
case EssentialOCLCSPackage.NULL_LITERAL_EXP_CS:
sequence_NullLiteralExpCS(context, (NullLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.NUMBER_LITERAL_EXP_CS:
sequence_NumberLiteralExpCS(context, (NumberLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.PATTERN_EXP_CS:
sequence_PatternExpCS(context, (PatternExpCS) semanticObject);
return;
case EssentialOCLCSPackage.PREFIX_EXP_CS:
if (rule == grammarAccess.getPrefixedLetExpCSRule()) {
sequence_PrefixedLetExpCS(context, (PrefixExpCS) semanticObject);
return;
}
else if (rule == grammarAccess.getExpCSRule()
|| rule == grammarAccess.getNavigatingArgExpCSRule()) {
sequence_PrefixedLetExpCS_PrefixedPrimaryExpCS(context, (PrefixExpCS) semanticObject);
return;
}
else if (action == grammarAccess.getExpCSAccess().getInfixExpCSOwnedLeftAction_0_1_0()
|| rule == grammarAccess.getPrefixedPrimaryExpCSRule()) {
sequence_PrefixedPrimaryExpCS(context, (PrefixExpCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.ROUND_BRACKETED_CLAUSE_CS:
sequence_RoundBracketedClauseCS(context, (RoundBracketedClauseCS) semanticObject);
return;
case EssentialOCLCSPackage.SELF_EXP_CS:
sequence_SelfExpCS(context, (SelfExpCS) semanticObject);
return;
case EssentialOCLCSPackage.SHADOW_PART_CS:
sequence_ShadowPartCS(context, (ShadowPartCS) semanticObject);
return;
case EssentialOCLCSPackage.SQUARE_BRACKETED_CLAUSE_CS:
sequence_SquareBracketedClauseCS(context, (SquareBracketedClauseCS) semanticObject);
return;
case EssentialOCLCSPackage.STRING_LITERAL_EXP_CS:
sequence_StringLiteralExpCS(context, (StringLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.TUPLE_LITERAL_EXP_CS:
sequence_TupleLiteralExpCS(context, (TupleLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.TUPLE_LITERAL_PART_CS:
sequence_TupleLiteralPartCS(context, (TupleLiteralPartCS) semanticObject);
return;
case EssentialOCLCSPackage.TYPE_LITERAL_EXP_CS:
sequence_TypeLiteralExpCS(context, (TypeLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.TYPE_NAME_EXP_CS:
if (rule == grammarAccess.getTypeExpCSRule()) {
sequence_TypeExpCS_TypeNameExpCS(context, (TypeNameExpCS) semanticObject);
return;
}
else if (rule == grammarAccess.getTypeNameExpCSRule()
|| rule == grammarAccess.getTypeExpWithoutMultiplicityCSRule()) {
sequence_TypeNameExpCS(context, (TypeNameExpCS) semanticObject);
return;
}
else break;
case EssentialOCLCSPackage.UNLIMITED_NATURAL_LITERAL_EXP_CS:
sequence_UnlimitedNaturalLiteralExpCS(context, (UnlimitedNaturalLiteralExpCS) semanticObject);
return;
case EssentialOCLCSPackage.VARIABLE_CS:
sequence_CoIteratorVariableCS(context, (VariableCS) semanticObject);
return;
}
else if (epackage == OCLinEcoreCSPackage.eINSTANCE)
switch (semanticObject.eClass().getClassifierID()) {
case OCLinEcoreCSPackage.OC_LIN_ECORE_CONSTRAINT_CS:
if (rule == grammarAccess.getInvariantConstraintCSRule()) {
sequence_InvariantConstraintCS(context, (OCLinEcoreConstraintCS) semanticObject);
return;
}
else if (rule == grammarAccess.getPostconditionConstraintCSRule()) {
sequence_PostconditionConstraintCS(context, (OCLinEcoreConstraintCS) semanticObject);
return;
}
else if (rule == grammarAccess.getPreconditionConstraintCSRule()) {
sequence_PreconditionConstraintCS(context, (OCLinEcoreConstraintCS) semanticObject);
return;
}
else break;
case OCLinEcoreCSPackage.SYS_MLCS:
sequence_SysMLCS(context, (SysMLCS) semanticObject);
return;
case OCLinEcoreCSPackage.TOP_LEVEL_CS:
sequence_TopLevelCS(context, (TopLevelCS) semanticObject);
return;
}
if (errorAcceptor != null)
errorAcceptor.accept(diagnosticProvider.createInvalidContextOrTypeDiagnostic(semanticObject, context));
}
/**
* Contexts:
* AnnotationCS returns AnnotationCS
* AnnotationElementCS returns AnnotationCS
*
* Constraint:
* (
* (name=UnrestrictedName | name=SINGLE_QUOTED_STRING)?
* (ownedDetails+=DetailCS ownedDetails+=DetailCS*)?
* ownedAnnotations+=AnnotationElementCS?
* ((ownedContents+=ModelElementCS | ownedReferences+=ModelElementRefCS)? ownedAnnotations+=AnnotationElementCS?)*
* )
*/
protected void sequence_AnnotationCS(ISerializationContext context, AnnotationCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* AttributeCS returns AttributeCS
* ModelElementCS returns AttributeCS
* StructuralFeatureCS returns AttributeCS
*
* Constraint:
* (
* ((qualifiers+='static' qualifiers+='definition'?) | (qualifiers+='definition' qualifiers+='static'?))?
* name=UnrestrictedName
* ownedType=TypedMultiplicityRefCS?
* default=SINGLE_QUOTED_STRING?
* (
* qualifiers+='derived' |
* qualifiers+='!derived' |
* qualifiers+='id' |
* qualifiers+='!id' |
* qualifiers+='ordered' |
* qualifiers+='!ordered' |
* qualifiers+='readonly' |
* qualifiers+='!readonly' |
* qualifiers+='transient' |
* qualifiers+='!transient' |
* qualifiers+='unique' |
* qualifiers+='!unique' |
* qualifiers+='unsettable' |
* qualifiers+='!unsettable' |
* qualifiers+='volatile' |
* qualifiers+='!volatile'
* )*
* ownedAnnotations+=AnnotationElementCS?
* ((ownedDefaultExpressions+=SpecificationCS | ownedDefaultExpressions+=SpecificationCS)? ownedAnnotations+=AnnotationElementCS?)*
* )
*/
protected void sequence_AttributeCS(ISerializationContext context, AttributeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedMultiplicityRefCS returns CollectionTypeCS
*
* Constraint:
* (
* name=CollectionTypeIdentifier
* (ownedType=TypeExpWithoutMultiplicityCS ownedCollectionMultiplicity=MultiplicityCS?)?
* ownedMultiplicity=MultiplicityCS?
* )
*/
protected void sequence_CollectionTypeCS_TypedMultiplicityRefCS(ISerializationContext context, CollectionTypeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ClassCS returns DataTypeCS
* DataTypeCS returns DataTypeCS
* ModelElementCS returns DataTypeCS
*
* Constraint:
* (
* isPrimitive?='primitive'?
* name=UnrestrictedName
* ownedSignature=TemplateSignatureCS?
* instanceClassName=SINGLE_QUOTED_STRING?
* isSerializable?='serializable'?
* (ownedAnnotations+=AnnotationElementCS | ownedConstraints+=InvariantConstraintCS)*
* )
*/
protected void sequence_DataTypeCS(ISerializationContext context, DataTypeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* DetailCS returns DetailCS
*
* Constraint:
* (
* (name=UnrestrictedName | name=SINGLE_QUOTED_STRING)
* values+=SINGLE_QUOTED_STRING?
* (values+=ML_SINGLE_QUOTED_STRING? values+=SINGLE_QUOTED_STRING?)*
* )
*/
protected void sequence_DetailCS(ISerializationContext context, DetailCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* AnnotationElementCS returns DocumentationCS
* DocumentationCS returns DocumentationCS
*
* Constraint:
* (value=SINGLE_QUOTED_STRING? (ownedDetails+=DetailCS ownedDetails+=DetailCS*)?)
*/
protected void sequence_DocumentationCS(ISerializationContext context, DocumentationCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ClassCS returns EnumerationCS
* EnumerationCS returns EnumerationCS
* ModelElementCS returns EnumerationCS
*
* Constraint:
* (
* name=UnrestrictedName
* ownedSignature=TemplateSignatureCS?
* instanceClassName=SINGLE_QUOTED_STRING?
* isSerializable?='serializable'?
* (ownedAnnotations+=AnnotationElementCS | ownedLiterals+=EnumerationLiteralCS | ownedConstraints+=InvariantConstraintCS)*
* )
*/
protected void sequence_EnumerationCS(ISerializationContext context, EnumerationCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* EnumerationLiteralCS returns EnumerationLiteralCS
* ModelElementCS returns EnumerationLiteralCS
*
* Constraint:
* ((name=UnrestrictedName | name=EnumerationLiteralName) literal=SINGLE_QUOTED_STRING? value=SIGNED? ownedAnnotations+=AnnotationElementCS*)
*/
protected void sequence_EnumerationLiteralCS(ISerializationContext context, EnumerationLiteralCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ImplicitOppositeCS returns ImplicitOppositeCS
*
* Constraint:
* (
* name=UnrestrictedName
* ownedType=TypedMultiplicityRefCS
* (qualifiers+='ordered' | qualifiers+='!ordered' | qualifiers+='unique' | qualifiers+='!unique')*
* )
*/
protected void sequence_ImplicitOppositeCS(ISerializationContext context, ImplicitOppositeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ImportCS returns ImportCS
*
* Constraint:
* (name=UnrestrictedName? ownedPathName=URIPathNameCS isAll?='::*'?)
*/
protected void sequence_ImportCS(ISerializationContext context, ImportCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* InvariantConstraintCS returns OCLinEcoreConstraintCS
*
* Constraint:
* (
* isCallable?='callable'?
* stereotype='invariant'
* (name=UnrestrictedName ownedMessageSpecification=SpecificationCS?)?
* ownedSpecification=SpecificationCS?
* )
*/
protected void sequence_InvariantConstraintCS(ISerializationContext context, OCLinEcoreConstraintCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedMultiplicityRefCS returns MapTypeCS
*
* Constraint:
* (name='Map' (ownedKeyType=TypeExpCS ownedValueType=TypeExpCS)? ownedMultiplicity=MultiplicityCS?)
*/
protected void sequence_MapTypeCS_TypedMultiplicityRefCS(ISerializationContext context, MapTypeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ModelElementRefCS returns ModelElementRefCS
*
* Constraint:
* ownedPathName=PathNameCS
*/
protected void sequence_ModelElementRefCS(ISerializationContext context, ModelElementRefCS semanticObject) {
if (errorAcceptor != null) {
if (transientValues.isValueTransient(semanticObject, BaseCSPackage.Literals.MODEL_ELEMENT_REF_CS__OWNED_PATH_NAME) == ValueTransient.YES)
errorAcceptor.accept(diagnosticProvider.createFeatureValueMissing(semanticObject, BaseCSPackage.Literals.MODEL_ELEMENT_REF_CS__OWNED_PATH_NAME));
}
SequenceFeeder feeder = createSequencerFeeder(context, semanticObject);
feeder.accept(grammarAccess.getModelElementRefCSAccess().getOwnedPathNamePathNameCSParserRuleCall_1_0(), semanticObject.getOwnedPathName());
feeder.finish();
}
/**
* Contexts:
* ModelElementCS returns OperationCS
* OperationCS returns OperationCS
*
* Constraint:
* (
* ((qualifiers+='static' qualifiers+='definition'?) | (qualifiers+='definition' qualifiers+='static'?))?
* ownedSignature=TemplateSignatureCS?
* name=UnrestrictedName
* (ownedParameters+=ParameterCS ownedParameters+=ParameterCS*)?
* ownedType=TypedMultiplicityRefCS?
* (ownedExceptions+=TypedRefCS ownedExceptions+=TypedRefCS*)?
* qualifiers+='!unique'?
* (
* (
* qualifiers+='derived' |
* qualifiers+='!derived' |
* qualifiers+='ordered' |
* qualifiers+='!ordered' |
* qualifiers+='transient' |
* qualifiers+='!transient' |
* qualifiers+='unique'
* )?
* qualifiers+='!unique'?
* )*
* (
* ownedAnnotations+=AnnotationElementCS |
* ownedPreconditions+=PreconditionConstraintCS |
* ownedBodyExpressions+=SpecificationCS |
* ownedPostconditions+=PostconditionConstraintCS
* )*
* )
*/
protected void sequence_OperationCS(ISerializationContext context, OperationCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ModelElementCS returns PackageCS
* PackageCS returns PackageCS
*
* Constraint:
* (
* name=UnrestrictedName
* nsPrefix=UnrestrictedName?
* nsURI=URI?
* (ownedAnnotations+=AnnotationElementCS | ownedPackages+=PackageCS | ownedClasses+=ClassCS)*
* )
*/
protected void sequence_PackageCS(ISerializationContext context, PackageCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ParameterCS returns ParameterCS
*
* Constraint:
* (
* name=UnrestrictedName
* ownedType=TypedMultiplicityRefCS?
* (qualifiers+='ordered' | qualifiers+='!ordered' | qualifiers+='unique' | qualifiers+='!unique')*
* ownedAnnotations+=AnnotationElementCS*
* )
*/
protected void sequence_ParameterCS(ISerializationContext context, ParameterCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* PostconditionConstraintCS returns OCLinEcoreConstraintCS
*
* Constraint:
* (stereotype='postcondition' (name=UnrestrictedName ownedMessageSpecification=SpecificationCS?)? ownedSpecification=SpecificationCS?)
*/
protected void sequence_PostconditionConstraintCS(ISerializationContext context, OCLinEcoreConstraintCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* PreconditionConstraintCS returns OCLinEcoreConstraintCS
*
* Constraint:
* (stereotype='precondition' (name=UnrestrictedName ownedMessageSpecification=SpecificationCS?)? ownedSpecification=SpecificationCS?)
*/
protected void sequence_PreconditionConstraintCS(ISerializationContext context, OCLinEcoreConstraintCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedMultiplicityRefCS returns PrimitiveTypeRefCS
*
* Constraint:
* (name=PrimitiveTypeIdentifier ownedMultiplicity=MultiplicityCS?)
*/
protected void sequence_PrimitiveTypeCS_TypedMultiplicityRefCS(ISerializationContext context, PrimitiveTypeRefCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ModelElementCS returns ReferenceCS
* ReferenceCS returns ReferenceCS
* StructuralFeatureCS returns ReferenceCS
*
* Constraint:
* (
* ((qualifiers+='static' qualifiers+='definition'?) | (qualifiers+='definition' qualifiers+='static'?))?
* name=UnrestrictedName
* referredOpposite=[Property|UnrestrictedName]?
* ownedType=TypedMultiplicityRefCS?
* default=SINGLE_QUOTED_STRING?
* qualifiers+='composes'?
* (
* (
* qualifiers+='!composes' |
* qualifiers+='derived' |
* qualifiers+='!derived' |
* qualifiers+='ordered' |
* qualifiers+='!ordered' |
* qualifiers+='readonly' |
* qualifiers+='!readonly' |
* qualifiers+='resolve' |
* qualifiers+='!resolve' |
* qualifiers+='transient' |
* qualifiers+='!transient' |
* qualifiers+='unique' |
* qualifiers+='!unique' |
* qualifiers+='unsettable' |
* qualifiers+='!unsettable' |
* qualifiers+='volatile' |
* qualifiers+='!volatile'
* )?
* qualifiers+='composes'?
* )*
* (
* (
* ownedAnnotations+=AnnotationElementCS |
* ownedDefaultExpressions+=SpecificationCS |
* ownedDefaultExpressions+=SpecificationCS |
* ownedImplicitOpposites+=ImplicitOppositeCS
* )?
* (referredKeys+=[Property|UnrestrictedName] referredKeys+=[Property|UnrestrictedName]*)?
* )+
* )
*/
protected void sequence_ReferenceCS(ISerializationContext context, ReferenceCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* SpecificationCS returns ExpSpecificationCS
*
* Constraint:
* (ownedExpression=ExpCS | exprString=UNQUOTED_STRING)
*/
protected void sequence_SpecificationCS(ISerializationContext context, ExpSpecificationCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ClassCS returns StructuredClassCS
* ModelElementCS returns StructuredClassCS
* StructuredClassCS returns StructuredClassCS
*
* Constraint:
* (
* isAbstract?='abstract'?
* name=UnrestrictedName
* ownedSignature=TemplateSignatureCS?
* (ownedSuperTypes+=TypedRefCS ownedSuperTypes+=TypedRefCS*)?
* instanceClassName=SINGLE_QUOTED_STRING?
* isInterface?='interface'?
* (ownedAnnotations+=AnnotationElementCS | ownedOperations+=OperationCS | ownedProperties+=StructuralFeatureCS | ownedConstraints+=InvariantConstraintCS)*
* )
*/
protected void sequence_StructuredClassCS(ISerializationContext context, StructuredClassCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* AnnotationElementCS returns SysMLCS
* SysMLCS returns SysMLCS
*
* Constraint:
* (ownedDetails+=DetailCS | ownedDetails+=DetailCS+)?
*/
protected void sequence_SysMLCS(ISerializationContext context, SysMLCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TemplateSignatureCS returns TemplateSignatureCS
*
* Constraint:
* ((ownedParameters+=TypeParameterCS ownedParameters+=TypeParameterCS*) | (ownedParameters+=TypeParameterCS ownedParameters+=TypeParameterCS*))
*/
protected void sequence_TemplateSignatureCS(ISerializationContext context, TemplateSignatureCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TopLevelCS returns TopLevelCS
*
* Constraint:
* (ownedImports+=ImportCS* ownedPackages+=PackageCS*)
*/
protected void sequence_TopLevelCS(ISerializationContext context, TopLevelCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedMultiplicityRefCS returns TupleTypeCS
*
* Constraint:
* (name='Tuple' (ownedParts+=TuplePartCS ownedParts+=TuplePartCS*)? ownedMultiplicity=MultiplicityCS?)
*/
protected void sequence_TupleTypeCS_TypedMultiplicityRefCS(ISerializationContext context, TupleTypeCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedMultiplicityRefCS returns TypedTypeRefCS
*
* Constraint:
* (ownedPathName=PathNameCS (ownedBinding=TemplateBindingCS | ownedBinding=TemplateBindingCS)? ownedMultiplicity=MultiplicityCS?)
*/
protected void sequence_TypedMultiplicityRefCS_TypedTypeRefCS(ISerializationContext context, TypedTypeRefCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* TypedRefCS returns TypedTypeRefCS
* TypedTypeRefCS returns TypedTypeRefCS
* TypeRefCS returns TypedTypeRefCS
*
* Constraint:
* (ownedPathName=PathNameCS (ownedBinding=TemplateBindingCS | ownedBinding=TemplateBindingCS)?)
*/
protected void sequence_TypedTypeRefCS(ISerializationContext context, TypedTypeRefCS semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
}