@Override public boolean visit(final PrefixExpression node) { Boolean _apply = constraint.apply(node); if ((_apply).booleanValue()) { assigments.add(node); } return true; }
@Override public boolean visit(final Assignment node) { Boolean _apply = constraint.apply(node); if ((_apply).booleanValue()) { assigments.add(node); } return true; }
@Override public boolean visit(final PostfixExpression node) { Boolean _apply = constraint.apply(node); if ((_apply).booleanValue()) { assigments.add(node); } return true; } });
@Pure protected boolean isValidSubscriber(final Pair<Function1<? super Event, ? extends Boolean>, Set<BehaviorGuardEvaluator>> subscriber) { if (((subscriber != null) && (subscriber.getValue() != null))) { return ((this.skipSubscriberFiltering || (subscriber.getKey() == null)) || (subscriber.getKey().apply(this.event)).booleanValue()); } return false; }
public void operator_add(final Function1<? super FormattableDocument, ? extends Iterable<FormattingData>> data) { if ((data != null)) { this.operator_add(data.apply(this)); } }
private Type findTypeOnScope(final String typeName, final Function1<? super IEObjectDescription, ? extends Boolean> filter) { final QualifiedName qualifiedName = this.compilationUnit.getQualifiedNameConverter().toQualifiedName(typeName); final IEObjectDescription result = this.compilationUnit.getScopeProvider().getScope(this.compilationUnit.getXtendFile(), XtypePackage.Literals.XIMPORT_DECLARATION__IMPORTED_TYPE).getSingleElement(qualifiedName); if ((((result != null) && TypesPackage.Literals.JVM_TYPE.isSuperTypeOf(result.getEClass())) && (filter.apply(result)).booleanValue())) { EObject _eObjectOrProxy = result.getEObjectOrProxy(); return this.compilationUnit.toType(((JvmType) _eObjectOrProxy)); } return null; } }
public ITreeAppendable appendSeparator(final ITreeAppendable app) { ITreeAppendable _xblockexpression = null; { if (this.separator!=null) { this.separator.apply(app); } _xblockexpression = app; } return _xblockexpression; }
@Override public boolean apply(T input) { Boolean result = delegate.apply(input); return result.booleanValue(); }
@SuppressWarnings("unchecked") public boolean matches(Object item) { return matcher.apply((T) item); } };
public ITreeAppendable appendSuffix(final ITreeAppendable app) { ITreeAppendable _xblockexpression = null; { if (this.suffix!=null) { this.suffix.apply(app); } _xblockexpression = app; } return _xblockexpression; } }
public ITreeAppendable appendPrefix(final ITreeAppendable app) { ITreeAppendable _xblockexpression = null; { if (this.prefix!=null) { this.prefix.apply(app); } _xblockexpression = app; } return _xblockexpression; }
@Override public R apply(P input) { R result = delegate.apply(input); return result; }
@Override public boolean apply(T input) { Boolean result = delegate.apply(input); return result.booleanValue(); }
@Override public R apply(V1 v1, V2 v2) { return after.apply(before.apply(v1, v2)); } };
@Override public RESULT apply() { return function.apply(argument); } };
@Override protected T computeNext() { if (!iterator.hasNext()) return endOfData(); T next = iterator.next(); if (predicate.apply(next)) { return next; } else { return endOfData(); } } };
public static <M extends Object, R extends Object> String calculateObservable(final Object model, final Function1<M, R> propertyBinder) { String _xblockexpression = null; { Class<?> _class = model.getClass(); final Class<M> concreteModelType = ((Class<M>) _class); final ArenaMockHandler handler = ArenaTypeSafeBindingExtensions.createInvocationHandler(); M mock = ArenaTypeSafeBindingExtensions.<M>createMockFor(concreteModelType, handler); propertyBinder.apply(mock); _xblockexpression = handler.getPropertyName(); } return _xblockexpression; }
@Override public R apply(V1 v1, V2 v2) { return after.apply(before.apply(v1, v2)); } };
@Override public R apply(P input) { R result = delegate.apply(input); return result; }