newCompositeNode(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0());
public final void rule__Constraint__ConstraintValuesAssignment_1() throws RecognitionException { int stackSize = keepStackSize(); try { // InternalFunctionblock.g:7884:1: ( ( ruleIntervalType ) ) // InternalFunctionblock.g:7885:2: ( ruleIntervalType ) { // InternalFunctionblock.g:7885:2: ( ruleIntervalType ) // InternalFunctionblock.g:7886:3: ruleIntervalType { before(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0()); pushFollow(FOLLOW_2); ruleIntervalType(); state._fsp--; after(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0()); } } } catch (RecognitionException re) { reportError(re); recover(input,re); } finally { restoreStackSize(stackSize); } return ; } // $ANTLR end "rule__Constraint__ConstraintValuesAssignment_1"
public final void rule__Constraint__ConstraintValuesAssignment_1() throws RecognitionException { int stackSize = keepStackSize(); try { // InternalDatatype.g:4438:1: ( ( ruleIntervalType ) ) // InternalDatatype.g:4439:2: ( ruleIntervalType ) { // InternalDatatype.g:4439:2: ( ruleIntervalType ) // InternalDatatype.g:4440:3: ruleIntervalType { before(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0()); pushFollow(FOLLOW_2); ruleIntervalType(); state._fsp--; after(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0()); } } } catch (RecognitionException re) { reportError(re); recover(input,re); } finally { restoreStackSize(stackSize); } return ; } // $ANTLR end "rule__Constraint__ConstraintValuesAssignment_1"
/** * Contexts: * Constraint returns Constraint * * Constraint: * (type=ConstraintIntervalType constraintValues=IntervalType) */ protected void sequence_Constraint(ISerializationContext context, Constraint semanticObject) { if (errorAcceptor != null) { if (transientValues.isValueTransient(semanticObject, DatatypePackage.Literals.CONSTRAINT__TYPE) == ValueTransient.YES) errorAcceptor.accept(diagnosticProvider.createFeatureValueMissing(semanticObject, DatatypePackage.Literals.CONSTRAINT__TYPE)); if (transientValues.isValueTransient(semanticObject, DatatypePackage.Literals.CONSTRAINT__CONSTRAINT_VALUES) == ValueTransient.YES) errorAcceptor.accept(diagnosticProvider.createFeatureValueMissing(semanticObject, DatatypePackage.Literals.CONSTRAINT__CONSTRAINT_VALUES)); } SequenceFeeder feeder = createSequencerFeeder(context, semanticObject); feeder.accept(grammarAccess.getConstraintAccess().getTypeConstraintIntervalTypeEnumRuleCall_0_0(), semanticObject.getType()); feeder.accept(grammarAccess.getConstraintAccess().getConstraintValuesIntervalTypeParserRuleCall_1_0(), semanticObject.getConstraintValues()); feeder.finish(); }