/*
* generated by Xtext
*/
package org.eclipse.xtext.common.types.xtext.ui.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.xtext.Action;
import org.eclipse.xtext.Parameter;
import org.eclipse.xtext.ParserRule;
import org.eclipse.xtext.common.types.xtext.ui.refactoringTestLanguage.Model;
import org.eclipse.xtext.common.types.xtext.ui.refactoringTestLanguage.RefactoringTestLanguagePackage;
import org.eclipse.xtext.common.types.xtext.ui.refactoringTestLanguage.ReferenceHolder;
import org.eclipse.xtext.common.types.xtext.ui.services.RefactoringTestLanguageGrammarAccess;
import org.eclipse.xtext.serializer.ISerializationContext;
import org.eclipse.xtext.serializer.acceptor.SequenceFeeder;
import org.eclipse.xtext.serializer.sequencer.AbstractDelegatingSemanticSequencer;
import org.eclipse.xtext.serializer.sequencer.ITransientValueService.ValueTransient;
@SuppressWarnings("all")
public class RefactoringTestLanguageSemanticSequencer extends AbstractDelegatingSemanticSequencer {
@Inject
private RefactoringTestLanguageGrammarAccess 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 == RefactoringTestLanguagePackage.eINSTANCE)
switch (semanticObject.eClass().getClassifierID()) {
case RefactoringTestLanguagePackage.MODEL:
sequence_Model(context, (Model) semanticObject);
return;
case RefactoringTestLanguagePackage.REFERENCE_HOLDER:
sequence_ReferenceHolder(context, (ReferenceHolder) semanticObject);
return;
}
if (errorAcceptor != null)
errorAcceptor.accept(diagnosticProvider.createInvalidContextOrTypeDiagnostic(semanticObject, context));
}
/**
* Contexts:
* Model returns Model
*
* Constraint:
* referenceHolder+=ReferenceHolder+
*/
protected void sequence_Model(ISerializationContext context, Model semanticObject) {
genericSequencer.createSequence(context, semanticObject);
}
/**
* Contexts:
* ReferenceHolder returns ReferenceHolder
*
* Constraint:
* (name=ID defaultReference=[JvmType|FQN])
*/
protected void sequence_ReferenceHolder(ISerializationContext context, ReferenceHolder semanticObject) {
if (errorAcceptor != null) {
if (transientValues.isValueTransient(semanticObject, RefactoringTestLanguagePackage.Literals.REFERENCE_HOLDER__NAME) == ValueTransient.YES)
errorAcceptor.accept(diagnosticProvider.createFeatureValueMissing(semanticObject, RefactoringTestLanguagePackage.Literals.REFERENCE_HOLDER__NAME));
if (transientValues.isValueTransient(semanticObject, RefactoringTestLanguagePackage.Literals.REFERENCE_HOLDER__DEFAULT_REFERENCE) == ValueTransient.YES)
errorAcceptor.accept(diagnosticProvider.createFeatureValueMissing(semanticObject, RefactoringTestLanguagePackage.Literals.REFERENCE_HOLDER__DEFAULT_REFERENCE));
}
SequenceFeeder feeder = createSequencerFeeder(context, semanticObject);
feeder.accept(grammarAccess.getReferenceHolderAccess().getNameIDTerminalRuleCall_0_0(), semanticObject.getName());
feeder.accept(grammarAccess.getReferenceHolderAccess().getDefaultReferenceJvmTypeFQNParserRuleCall_1_0_1(), semanticObject.eGet(RefactoringTestLanguagePackage.Literals.REFERENCE_HOLDER__DEFAULT_REFERENCE, false));
feeder.finish();
}
}
