if ( state.backtracking==0 ) { current = grammarAccess.getCompareFeatureAccess().getEqualityEnumLiteralDeclaration_0().getEnumLiteral().getInstance(); newLeafNode(enumLiteral_0, grammarAccess.getCompareFeatureAccess().getEqualityEnumLiteralDeclaration_0()); if ( state.backtracking==0 ) { current = grammarAccess.getCompareFeatureAccess().getInequalityEnumLiteralDeclaration_1().getEnumLiteral().getInstance(); newLeafNode(enumLiteral_1, grammarAccess.getCompareFeatureAccess().getInequalityEnumLiteralDeclaration_1());
if ( state.backtracking==0 ) { current = grammarAccess.getCompareFeatureAccess().getEqualityEnumLiteralDeclaration_0().getEnumLiteral().getInstance(); newLeafNode(enumLiteral_0, grammarAccess.getCompareFeatureAccess().getEqualityEnumLiteralDeclaration_0()); if ( state.backtracking==0 ) { current = grammarAccess.getCompareFeatureAccess().getInequalityEnumLiteralDeclaration_1().getEnumLiteral().getInstance(); newLeafNode(enumLiteral_1, grammarAccess.getCompareFeatureAccess().getInequalityEnumLiteralDeclaration_1());
this.pPatternCall = new PatternCallElements(); this.pCompareConstraint = new CompareConstraintElements(); this.eCompareFeature = new CompareFeatureElements(); this.pCheckConstraint = new CheckConstraintElements(); this.pPathExpressionConstraint = new PathExpressionConstraintElements();
public EnumRule getCompareFeatureRule() { return getCompareFeatureAccess().getRule(); }
public EnumRule getCompareFeatureRule() { return getCompareFeatureAccess().getRule(); }