public TypeComparator getTypeComparator() { return this.relatedContext.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.relatedContext.getTypeComparator(); }
Class<?> ancestor = ClassUtils.determineCommonAncestor(left.getClass(), right.getClass()); if (ancestor != null && Comparable.class.isAssignableFrom(ancestor)) { return (context.getTypeComparator().compare(left, right) == 0);
Class<?> ancestor = ClassUtils.determineCommonAncestor(left.getClass(), right.getClass()); if (ancestor != null && Comparable.class.isAssignableFrom(ancestor)) { return (context.getTypeComparator().compare(left, right) == 0);
@Test public void testComparator() { ExpressionState state = getState(); assertEquals(state.getEvaluationContext().getTypeComparator(), state.getTypeComparator()); }
public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return delegate.getTypeComparator(); }
@Override public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return delegate.getTypeComparator(); }
public TypeComparator getTypeComparator() { return this.relatedContext.getTypeComparator(); }
Class<?> ancestor = ClassUtils.determineCommonAncestor(left.getClass(), right.getClass()); if (ancestor != null && Comparable.class.isAssignableFrom(ancestor)) { return (context.getTypeComparator().compare(left, right) == 0);