/* * generated by Xtext */ package org.eclipse.qvtd.xtext.qvtrelation.serializer; import com.google.inject.Inject; import java.util.List; import org.eclipse.emf.ecore.EObject; import org.eclipse.qvtd.xtext.qvtrelation.services.QVTrelationGrammarAccess; 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.GroupAlias; 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; @SuppressWarnings("all") public abstract class AbstractQVTrelationSyntacticSequencer extends AbstractSyntacticSequencer { protected QVTrelationGrammarAccess grammarAccess; protected AbstractElementAlias match_DomainCS_ReplaceKeyword_0_2_q; protected AbstractElementAlias match_MultiplicityCS_VerticalLineQuestionMarkKeyword_2_0_q; protected AbstractElementAlias match_TupleTypeCS___LeftParenthesisKeyword_1_0_RightParenthesisKeyword_1_2__q; @Inject protected void init(IGrammarAccess access) { grammarAccess = (QVTrelationGrammarAccess) access; match_DomainCS_ReplaceKeyword_0_2_q = new TokenAlias(false, true, grammarAccess.getDomainCSAccess().getReplaceKeyword_0_2()); match_MultiplicityCS_VerticalLineQuestionMarkKeyword_2_0_q = new TokenAlias(false, true, grammarAccess.getMultiplicityCSAccess().getVerticalLineQuestionMarkKeyword_2_0()); match_TupleTypeCS___LeftParenthesisKeyword_1_0_RightParenthesisKeyword_1_2__q = new GroupAlias(false, true, new TokenAlias(false, false, grammarAccess.getTupleTypeCSAccess().getLeftParenthesisKeyword_1_0()), new TokenAlias(false, false, grammarAccess.getTupleTypeCSAccess().getRightParenthesisKeyword_1_2())); } @Override protected String getUnassignedRuleCallToken(EObject semanticObject, RuleCall ruleCall, INode node) { return ""; } @Override protected void emitUnassignedTokens(EObject semanticObject, ISynTransition transition, INode fromNode, INode toNode) { if (transition.getAmbiguousSyntaxes().isEmpty()) return; List transitionNodes = collectNodes(fromNode, toNode); for (AbstractElementAlias syntax : transition.getAmbiguousSyntaxes()) { List syntaxNodes = getNodesFor(transitionNodes, syntax); if(match_DomainCS_ReplaceKeyword_0_2_q.equals(syntax)) emit_DomainCS_ReplaceKeyword_0_2_q(semanticObject, getLastNavigableState(), syntaxNodes); else if(match_MultiplicityCS_VerticalLineQuestionMarkKeyword_2_0_q.equals(syntax)) emit_MultiplicityCS_VerticalLineQuestionMarkKeyword_2_0_q(semanticObject, getLastNavigableState(), syntaxNodes); else if(match_TupleTypeCS___LeftParenthesisKeyword_1_0_RightParenthesisKeyword_1_2__q.equals(syntax)) emit_TupleTypeCS___LeftParenthesisKeyword_1_0_RightParenthesisKeyword_1_2__q(semanticObject, getLastNavigableState(), syntaxNodes); else acceptNodes(getLastNavigableState(), syntaxNodes); } } /** * Ambiguous syntax: * 'replace'? * * This ambiguous syntax occurs at: * (rule start) (ambiguity) 'domain' modelId=[TypedModel|UnrestrictedName] */ protected void emit_DomainCS_ReplaceKeyword_0_2_q(EObject semanticObject, ISynNavigable transition, List nodes) { acceptNodes(transition, nodes); } /** * Ambiguous syntax: * '|?'? * * This ambiguous syntax occurs at: * lowerBound=LOWER (ambiguity) ']' (rule end) * stringBounds='*' (ambiguity) ']' (rule end) * stringBounds='+' (ambiguity) ']' (rule end) * stringBounds='?' (ambiguity) ']' (rule end) * upperBound=UPPER (ambiguity) ']' (rule end) */ protected void emit_MultiplicityCS_VerticalLineQuestionMarkKeyword_2_0_q(EObject semanticObject, ISynNavigable transition, List nodes) { acceptNodes(transition, nodes); } /** * Ambiguous syntax: * ('(' ')')? * * This ambiguous syntax occurs at: * name='Tuple' (ambiguity) (rule end) * name='Tuple' (ambiguity) ownedMultiplicity=MultiplicityCS */ protected void emit_TupleTypeCS___LeftParenthesisKeyword_1_0_RightParenthesisKeyword_1_2__q(EObject semanticObject, ISynNavigable transition, List nodes) { acceptNodes(transition, nodes); } }