Class Sets


  • @GwtCompatible(emulated=true)
    public final class Sets
    extends Object
    Static utility methods pertaining to Set instances. Also see this class's counterparts Lists, Maps and Queues.

    See the Guava User Guide article on Sets.

    Since:
    2.0
    Author:
    Kevin Bourrillion, Jared Levy, Chris Povirk
    • Method Detail

      • immutableEnumSet

        @GwtCompatible(serializable=true)
        public static <E extends Enum<E>> ImmutableSet<E> immutableEnumSet​(E anElement,
                                                                           E... otherElements)
        Returns an immutable set instance containing the given enum elements. Internally, the returned set will be backed by an EnumSet.

        The iteration order of the returned set follows the enum's iteration order, not the order in which the elements are provided to the method.

        Parameters:
        anElement - one of the elements the set should contain
        otherElements - the rest of the elements the set should contain
        Returns:
        an immutable set containing those elements, minus duplicates
      • immutableEnumSet

        @GwtCompatible(serializable=true)
        public static <E extends Enum<E>> ImmutableSet<E> immutableEnumSet​(Iterable<E> elements)
        Returns an immutable set instance containing the given enum elements. Internally, the returned set will be backed by an EnumSet.

        The iteration order of the returned set follows the enum's iteration order, not the order in which the elements appear in the given collection.

        Parameters:
        elements - the elements, all of the same enum type, that the set should contain
        Returns:
        an immutable set containing those elements, minus duplicates
      • newEnumSet

        public static <E extends Enum<E>> EnumSet<E> newEnumSet​(Iterable<E> iterable,
                                                                Class<E> elementType)
        Returns a new, mutable EnumSet instance containing the given elements in their natural order. This method behaves identically to EnumSet.copyOf(Collection), but also accepts non-Collection iterables and empty iterables.
      • newHashSet

        public static <E extends @Nullable ObjectHashSet<E> newHashSet()
        Creates a mutable, initially empty HashSet instance.

        Note: if mutability is not required, use ImmutableSet.of() instead. If E is an Enum type, use EnumSet.noneOf(java.lang.Class<E>) instead. Otherwise, strongly consider using a LinkedHashSet instead, at the cost of increased memory footprint, to get deterministic iteration behavior.

        Note for Java 7 and later: this method is now unnecessary and should be treated as deprecated. Instead, use the HashSet constructor directly, taking advantage of the new "diamond" syntax.

      • newHashSetWithExpectedSize

        public static <E extends @Nullable ObjectHashSet<E> newHashSetWithExpectedSize​(int expectedSize)
        Returns a new hash set using the smallest initial table size that can hold expectedSize elements without resizing. Note that this is not what HashSet(int) does, but it is what most users want and expect it to do.

        This behavior can't be broadly guaranteed, but has been tested with OpenJDK 1.7 and 1.8.

        Parameters:
        expectedSize - the number of elements you expect to add to the returned set
        Returns:
        a new, empty hash set with enough capacity to hold expectedSize elements without resizing
        Throws:
        IllegalArgumentException - if expectedSize is negative
      • newConcurrentHashSet

        public static <E> Set<E> newConcurrentHashSet()
        Creates a thread-safe set backed by a hash map. The set is backed by a ConcurrentHashMap instance, and thus carries the same concurrency guarantees.

        Unlike HashSet, this class does NOT allow null to be used as an element. The set is serializable.

        Returns:
        a new, empty thread-safe Set
        Since:
        15.0
      • newConcurrentHashSet

        public static <E> Set<E> newConcurrentHashSet​(Iterable<? extends E> elements)
        Creates a thread-safe set backed by a hash map and containing the given elements. The set is backed by a ConcurrentHashMap instance, and thus carries the same concurrency guarantees.

        Unlike HashSet, this class does NOT allow null to be used as an element. The set is serializable.

        Parameters:
        elements - the elements that the set should contain
        Returns:
        a new thread-safe set containing those elements (minus duplicates)
        Throws:
        NullPointerException - if elements or any of its contents is null
        Since:
        15.0
      • newLinkedHashSet

        public static <E extends @Nullable ObjectLinkedHashSet<E> newLinkedHashSet()
        Creates a mutable, empty LinkedHashSet instance.

        Note: if mutability is not required, use ImmutableSet.of() instead.

        Note for Java 7 and later: this method is now unnecessary and should be treated as deprecated. Instead, use the LinkedHashSet constructor directly, taking advantage of the new "diamond" syntax.

        Returns:
        a new, empty LinkedHashSet
      • newLinkedHashSet

        public static <E extends @Nullable ObjectLinkedHashSet<E> newLinkedHashSet​(Iterable<? extends E> elements)
        Creates a mutable LinkedHashSet instance containing the given elements in order.

        Note: if mutability is not required and the elements are non-null, use ImmutableSet.copyOf(Iterable) instead.

        Note for Java 7 and later: if elements is a Collection, you don't need this method. Instead, use the LinkedHashSet constructor directly, taking advantage of the new "diamond" syntax.

        Overall, this method is not very useful and will likely be deprecated in the future.

        Parameters:
        elements - the elements that the set should contain, in order
        Returns:
        a new LinkedHashSet containing those elements (minus duplicates)
      • newLinkedHashSetWithExpectedSize

        public static <E extends @Nullable ObjectLinkedHashSet<E> newLinkedHashSetWithExpectedSize​(int expectedSize)
        Creates a LinkedHashSet instance, with a high enough "initial capacity" that it should hold expectedSize elements without growth. This behavior cannot be broadly guaranteed, but it is observed to be true for OpenJDK 1.7. It also can't be guaranteed that the method isn't inadvertently oversizing the returned set.
        Parameters:
        expectedSize - the number of elements you expect to add to the returned set
        Returns:
        a new, empty LinkedHashSet with enough capacity to hold expectedSize elements without resizing
        Throws:
        IllegalArgumentException - if expectedSize is negative
        Since:
        11.0
      • newTreeSet

        public static <E extends ComparableTreeSet<E> newTreeSet()
        Creates a mutable, empty TreeSet instance sorted by the natural sort ordering of its elements.

        Note: if mutability is not required, use ImmutableSortedSet.of() instead.

        Note for Java 7 and later: this method is now unnecessary and should be treated as deprecated. Instead, use the TreeSet constructor directly, taking advantage of the new "diamond" syntax.

        Returns:
        a new, empty TreeSet
      • newTreeSet

        public static <E extends ComparableTreeSet<E> newTreeSet​(Iterable<? extends E> elements)
        Creates a mutable TreeSet instance containing the given elements sorted by their natural ordering.

        Note: if mutability is not required, use ImmutableSortedSet.copyOf(Iterable) instead.

        Note: If elements is a SortedSet with an explicit comparator, this method has different behavior than TreeSet(SortedSet), which returns a TreeSet with that comparator.

        Note for Java 7 and later: this method is now unnecessary and should be treated as deprecated. Instead, use the TreeSet constructor directly, taking advantage of the new "diamond" syntax.

        This method is just a small convenience for creating an empty set and then calling Iterables.addAll(java.util.Collection<T>, java.lang.Iterable<? extends T>). This method is not very useful and will likely be deprecated in the future.

        Parameters:
        elements - the elements that the set should contain
        Returns:
        a new TreeSet containing those elements (minus duplicates)
      • newTreeSet

        public static <E extends @Nullable ObjectTreeSet<E> newTreeSet​(Comparator<? super E> comparator)
        Creates a mutable, empty TreeSet instance with the given comparator.

        Note: if mutability is not required, use ImmutableSortedSet.orderedBy(comparator).build() instead.

        Note for Java 7 and later: this method is now unnecessary and should be treated as deprecated. Instead, use the TreeSet constructor directly, taking advantage of the new "diamond" syntax. One caveat to this is that the TreeSet constructor uses a null Comparator to mean "natural ordering," whereas this factory rejects null. Clean your code accordingly.

        Parameters:
        comparator - the comparator to use to sort the set
        Returns:
        a new, empty TreeSet
        Throws:
        NullPointerException - if comparator is null
      • newIdentityHashSet

        public static <E extends @Nullable ObjectSet<E> newIdentityHashSet()
        Creates an empty Set that uses identity to determine equality. It compares object references, instead of calling equals, to determine whether a provided object matches an element in the set. For example, contains returns false when passed an object that equals a set member, but isn't the same instance. This behavior is similar to the way IdentityHashMap handles key lookups.
        Since:
        8.0
      • complementOf

        public static <E extends Enum<E>> EnumSet<E> complementOf​(Collection<E> collection)
        Creates an EnumSet consisting of all enum values that are not in the specified collection. If the collection is an EnumSet, this method has the same behavior as EnumSet.complementOf(java.util.EnumSet<E>). Otherwise, the specified collection must contain at least one element, in order to determine the element type. If the collection could be empty, use complementOf(Collection, Class) instead of this method.
        Parameters:
        collection - the collection whose complement should be stored in the enum set
        Returns:
        a new, modifiable EnumSet containing all values of the enum that aren't present in the given collection
        Throws:
        IllegalArgumentException - if collection is not an EnumSet instance and contains no elements
      • complementOf

        public static <E extends Enum<E>> EnumSet<E> complementOf​(Collection<E> collection,
                                                                  Class<E> type)
        Creates an EnumSet consisting of all enum values that are not in the specified collection. This is equivalent to EnumSet.complementOf(java.util.EnumSet<E>), but can act on any input collection, as long as the elements are of enum type.
        Parameters:
        collection - the collection whose complement should be stored in the EnumSet
        type - the type of the elements in the set
        Returns:
        a new, modifiable EnumSet initially containing all the values of the enum not present in the given collection
      • newSetFromMap

        @Deprecated
        public static <E extends @Nullable ObjectSet<E> newSetFromMap​(Map<E,​Boolean> map)
        Returns a set backed by the specified map. The resulting set displays the same ordering, concurrency, and performance characteristics as the backing map. In essence, this factory method provides a Set implementation corresponding to any Map implementation. There is no need to use this method on a Map implementation that already has a corresponding Set implementation (such as HashMap or TreeMap).

        Each method invocation on the set returned by this method results in exactly one method invocation on the backing map or its keySet view, with one exception. The addAll method is implemented as a sequence of put invocations on the backing map.

        The specified map must be empty at the time this method is invoked, and should not be accessed directly after this method returns. These conditions are ensured if the map is created empty, passed directly to this method, and no reference to the map is retained, as illustrated in the following code fragment:

        
         Set<Object> identityHashSet = Sets.newSetFromMap(
             new IdentityHashMap<Object, Boolean>());
         

        The returned set is serializable if the backing map is.

        Parameters:
        map - the backing map
        Returns:
        the set backed by the map
        Throws:
        IllegalArgumentException - if map is not empty
      • union

        public static <E extends @Nullable ObjectSets.SetView<E> union​(Set<? extends E> set1,
                                                                         Set<? extends E> set2)
        Returns an unmodifiable view of the union of two sets. The returned set contains all elements that are contained in either backing set. Iterating over the returned set iterates first over all the elements of set1, then over each element of set2, in order, that is not contained in set1.

        Results are undefined if set1 and set2 are sets based on different equivalence relations, for example if set1 is a HashSet and set2 is a TreeSet or the Map.keySet() of an IdentityHashMap.

      • intersection

        public static <E extends @Nullable ObjectSets.SetView<E> intersection​(Set<E> set1,
                                                                                Set<?> set2)
        Returns an unmodifiable view of the intersection of two sets. The returned set contains all elements that are contained by both backing sets. The iteration order of the returned set matches that of set1.

        Results are undefined if set1 and set2 are sets based on different equivalence relations, for example if set1 is a HashSet and set2 is a TreeSet or the Map.keySet() of an IdentityHashMap.

        Note: The returned view performs slightly better when set1 is the smaller of the two sets. If you have reason to believe one of your sets will generally be smaller than the other, pass it first. Unfortunately, since this method sets the generic type of the returned set based on the type of the first set passed, this could in rare cases force you to make a cast, for example:

        
         Set<Object> aFewBadObjects = ...
         Set<String> manyBadStrings = ...
        
         // impossible for a non-String to be in the intersection
         SuppressWarnings("unchecked")
         Set<String> badStrings = (Set) Sets.intersection(
             aFewBadObjects, manyBadStrings);
         

        This is unfortunate, but should come up only very rarely.

      • difference

        public static <E extends @Nullable ObjectSets.SetView<E> difference​(Set<E> set1,
                                                                              Set<?> set2)
        Returns an unmodifiable view of the difference of two sets. The returned set contains all elements that are contained by set1 and not contained by set2. set2 may also contain elements not present in set1; these are simply ignored. The iteration order of the returned set matches that of set1.

        Results are undefined if set1 and set2 are sets based on different equivalence relations, for example if set1 is a HashSet and set2 is a TreeSet or the Map.keySet() of an IdentityHashMap.

      • symmetricDifference

        public static <E extends @Nullable ObjectSets.SetView<E> symmetricDifference​(Set<? extends E> set1,
                                                                                       Set<? extends E> set2)
        Returns an unmodifiable view of the symmetric difference of two sets. The returned set contains all elements that are contained in either set1 or set2 but not in both. The iteration order of the returned set is undefined.

        Results are undefined if set1 and set2 are sets based on different equivalence relations, for example if set1 is a HashSet and set2 is a TreeSet or the Map.keySet() of an IdentityHashMap.

        Since:
        3.0
      • filter

        public static <E extends @Nullable ObjectSet<E> filter​(Set<E> unfiltered,
                                                                 Predicate<? super E> predicate)
        Returns the elements of unfiltered that satisfy a predicate. The returned set is a live view of unfiltered; changes to one affect the other.

        The resulting set's iterator does not support remove(), but all other set methods are supported. When given an element that doesn't satisfy the predicate, the set's add() and addAll() methods throw an IllegalArgumentException. When methods such as removeAll() and clear() are called on the filtered set, only elements that satisfy the filter will be removed from the underlying set.

        The returned set isn't threadsafe or serializable, even if unfiltered is.

        Many of the filtered set's methods, such as size(), iterate across every element in the underlying set and determine which elements satisfy the filter. When a live view is not needed, it may be faster to copy Iterables.filter(unfiltered, predicate) and use the copy.

        Warning: predicate must be consistent with equals, as documented at Predicate.apply(T). Do not provide a predicate such as Predicates.instanceOf(ArrayList.class), which is inconsistent with equals. (See Iterables.filter(Iterable, Class) for related functionality.)

        Java 8 users: many use cases for this method are better addressed by Stream.filter(java.util.function.Predicate<? super T>). This method is not being deprecated, but we gently encourage you to migrate to streams.

      • filter

        public static <E extends @Nullable ObjectSortedSet<E> filter​(SortedSet<E> unfiltered,
                                                                       Predicate<? super E> predicate)
        Returns the elements of a SortedSet, unfiltered, that satisfy a predicate. The returned set is a live view of unfiltered; changes to one affect the other.

        The resulting set's iterator does not support remove(), but all other set methods are supported. When given an element that doesn't satisfy the predicate, the set's add() and addAll() methods throw an IllegalArgumentException. When methods such as removeAll() and clear() are called on the filtered set, only elements that satisfy the filter will be removed from the underlying set.

        The returned set isn't threadsafe or serializable, even if unfiltered is.

        Many of the filtered set's methods, such as size(), iterate across every element in the underlying set and determine which elements satisfy the filter. When a live view is not needed, it may be faster to copy Iterables.filter(unfiltered, predicate) and use the copy.

        Warning: predicate must be consistent with equals, as documented at Predicate.apply(T). Do not provide a predicate such as Predicates.instanceOf(ArrayList.class), which is inconsistent with equals. (See Iterables.filter(Iterable, Class) for related functionality.)

        Since:
        11.0
      • filter

        @GwtIncompatible
        public static <E extends @Nullable ObjectNavigableSet<E> filter​(NavigableSet<E> unfiltered,
                                                                          Predicate<? super E> predicate)
        Returns the elements of a NavigableSet, unfiltered, that satisfy a predicate. The returned set is a live view of unfiltered; changes to one affect the other.

        The resulting set's iterator does not support remove(), but all other set methods are supported. When given an element that doesn't satisfy the predicate, the set's add() and addAll() methods throw an IllegalArgumentException. When methods such as removeAll() and clear() are called on the filtered set, only elements that satisfy the filter will be removed from the underlying set.

        The returned set isn't threadsafe or serializable, even if unfiltered is.

        Many of the filtered set's methods, such as size(), iterate across every element in the underlying set and determine which elements satisfy the filter. When a live view is not needed, it may be faster to copy Iterables.filter(unfiltered, predicate) and use the copy.

        Warning: predicate must be consistent with equals, as documented at Predicate.apply(T). Do not provide a predicate such as Predicates.instanceOf(ArrayList.class), which is inconsistent with equals. (See Iterables.filter(Iterable, Class) for related functionality.)

        Since:
        14.0
      • cartesianProduct

        public static <B> Set<List<B>> cartesianProduct​(List<? extends Set<? extends B>> sets)
        Returns every possible list that can be formed by choosing one element from each of the given sets in order; the "n-ary Cartesian product" of the sets. For example:
        
         Sets.cartesianProduct(ImmutableList.of(
             ImmutableSet.of(1, 2),
             ImmutableSet.of("A", "B", "C")))
         

        returns a set containing six lists:

        • ImmutableList.of(1, "A")
        • ImmutableList.of(1, "B")
        • ImmutableList.of(1, "C")
        • ImmutableList.of(2, "A")
        • ImmutableList.of(2, "B")
        • ImmutableList.of(2, "C")

        The result is guaranteed to be in the "traditional", lexicographical order for Cartesian products that you would get from nesting for loops:

        
         for (B b0 : sets.get(0)) {
           for (B b1 : sets.get(1)) {
             ...
             ImmutableList<B> tuple = ImmutableList.of(b0, b1, ...);
             // operate on tuple
           }
         }
         

        Note that if any input set is empty, the Cartesian product will also be empty. If no sets at all are provided (an empty list), the resulting Cartesian product has one element, an empty list (counter-intuitive, but mathematically consistent).

        Performance notes: while the cartesian product of sets of size m, n, p is a set of size m x n x p, its actual memory consumption is much smaller. When the cartesian set is constructed, the input sets are merely copied. Only as the resulting set is iterated are the individual lists created, and these are not retained after iteration.

        Type Parameters:
        B - any common base class shared by all axes (often just Object)
        Parameters:
        sets - the sets to choose elements from, in the order that the elements chosen from those sets should appear in the resulting lists
        Returns:
        the Cartesian product, as an immutable set containing immutable lists
        Throws:
        NullPointerException - if sets, any one of the sets, or any element of a provided set is null
        IllegalArgumentException - if the cartesian product size exceeds the int range
        Since:
        2.0
      • cartesianProduct

        @SafeVarargs
        public static <B> Set<List<B>> cartesianProduct​(Set<? extends B>... sets)
        Returns every possible list that can be formed by choosing one element from each of the given sets in order; the "n-ary Cartesian product" of the sets. For example:
        
         Sets.cartesianProduct(
             ImmutableSet.of(1, 2),
             ImmutableSet.of("A", "B", "C"))
         

        returns a set containing six lists:

        • ImmutableList.of(1, "A")
        • ImmutableList.of(1, "B")
        • ImmutableList.of(1, "C")
        • ImmutableList.of(2, "A")
        • ImmutableList.of(2, "B")
        • ImmutableList.of(2, "C")

        The result is guaranteed to be in the "traditional", lexicographical order for Cartesian products that you would get from nesting for loops:

        
         for (B b0 : sets.get(0)) {
           for (B b1 : sets.get(1)) {
             ...
             ImmutableList<B> tuple = ImmutableList.of(b0, b1, ...);
             // operate on tuple
           }
         }
         

        Note that if any input set is empty, the Cartesian product will also be empty. If no sets at all are provided (an empty list), the resulting Cartesian product has one element, an empty list (counter-intuitive, but mathematically consistent).

        Performance notes: while the cartesian product of sets of size m, n, p is a set of size m x n x p, its actual memory consumption is much smaller. When the cartesian set is constructed, the input sets are merely copied. Only as the resulting set is iterated are the individual lists created, and these are not retained after iteration.

        Type Parameters:
        B - any common base class shared by all axes (often just Object)
        Parameters:
        sets - the sets to choose elements from, in the order that the elements chosen from those sets should appear in the resulting lists
        Returns:
        the Cartesian product, as an immutable set containing immutable lists
        Throws:
        NullPointerException - if sets, any one of the sets, or any element of a provided set is null
        IllegalArgumentException - if the cartesian product size exceeds the int range
        Since:
        2.0
      • powerSet

        @GwtCompatible(serializable=false)
        public static <E> Set<Set<E>> powerSet​(Set<E> set)
        Returns the set of all possible subsets of set. For example, powerSet(ImmutableSet.of(1, 2)) returns the set {{}, {1}, {2}, {1, 2}}.

        Elements appear in these subsets in the same iteration order as they appeared in the input set. The order in which these subsets appear in the outer set is undefined. Note that the power set of the empty set is not the empty set, but a one-element set containing the empty set.

        The returned set and its constituent sets use equals to decide whether two elements are identical, even if the input set uses a different concept of equivalence.

        Performance notes: while the power set of a set with size n is of size 2^n, its memory usage is only O(n). When the power set is constructed, the input set is merely copied. Only as the power set is iterated are the individual subsets created, and these subsets themselves occupy only a small constant amount of memory.

        Parameters:
        set - the set of elements to construct a power set from
        Returns:
        the power set, as an immutable set of immutable sets
        Throws:
        IllegalArgumentException - if set has more than 30 unique elements (causing the power set size to exceed the int range)
        NullPointerException - if set is or contains null
        Since:
        4.0
        See Also:
        Power set article at Wikipedia
      • combinations

        @Beta
        public static <E> Set<Set<E>> combinations​(Set<E> set,
                                                   int size)
        Returns the set of all subsets of set of size size. For example, combinations(ImmutableSet.of(1, 2, 3), 2) returns the set {{1, 2}, {1, 3}, {2, 3}}.

        Elements appear in these subsets in the same iteration order as they appeared in the input set. The order in which these subsets appear in the outer set is undefined.

        The returned set and its constituent sets use equals to decide whether two elements are identical, even if the input set uses a different concept of equivalence.

        Performance notes: the memory usage of the returned set is only O(n). When the result set is constructed, the input set is merely copied. Only as the result set is iterated are the individual subsets created. Each of these subsets occupies an additional O(n) memory but only for as long as the user retains a reference to it. That is, the set returned by combinations does not retain the individual subsets.

        Parameters:
        set - the set of elements to take combinations of
        size - the number of elements per combination
        Returns:
        the set of all combinations of size elements from set
        Throws:
        IllegalArgumentException - if size is not between 0 and set.size() inclusive
        NullPointerException - if set is or contains null
        Since:
        23.0
      • unmodifiableNavigableSet

        public static <E extends @Nullable ObjectNavigableSet<E> unmodifiableNavigableSet​(NavigableSet<E> set)
        Returns an unmodifiable view of the specified navigable set. This method allows modules to provide users with "read-only" access to internal navigable sets. Query operations on the returned set "read through" to the specified set, and attempts to modify the returned set, whether direct or via its collection views, result in an UnsupportedOperationException.

        The returned navigable set will be serializable if the specified navigable set is serializable.

        Parameters:
        set - the navigable set for which an unmodifiable view is to be returned
        Returns:
        an unmodifiable view of the specified navigable set
        Since:
        12.0
      • synchronizedNavigableSet

        @GwtIncompatible
        public static <E extends @Nullable ObjectNavigableSet<E> synchronizedNavigableSet​(NavigableSet<E> navigableSet)
        Returns a synchronized (thread-safe) navigable set backed by the specified navigable set. In order to guarantee serial access, it is critical that all access to the backing navigable set is accomplished through the returned navigable set (or its views).

        It is imperative that the user manually synchronize on the returned sorted set when iterating over it or any of its descendingSet, subSet, headSet, or tailSet views.

        
         NavigableSet<E> set = synchronizedNavigableSet(new TreeSet<E>());
          ...
         synchronized (set) {
           // Must be in the synchronized block
           Iterator<E> it = set.iterator();
           while (it.hasNext()) {
             foo(it.next());
           }
         }
         

        or:

        
         NavigableSet<E> set = synchronizedNavigableSet(new TreeSet<E>());
         NavigableSet<E> set2 = set.descendingSet().headSet(foo);
          ...
         synchronized (set) { // Note: set, not set2!!!
           // Must be in the synchronized block
           Iterator<E> it = set2.descendingIterator();
           while (it.hasNext())
             foo(it.next());
           }
         
         }

        Failure to follow this advice may result in non-deterministic behavior.

        The returned navigable set will be serializable if the specified navigable set is serializable.

        Parameters:
        navigableSet - the navigable set to be "wrapped" in a synchronized navigable set.
        Returns:
        a synchronized view of the specified navigable set.
        Since:
        13.0
      • subSet

        @Beta
        @GwtIncompatible
        public static <K extends Comparable<? super K>> NavigableSet<K> subSet​(NavigableSet<K> set,
                                                                               Range<K> range)
        Returns a view of the portion of set whose elements are contained by range.

        This method delegates to the appropriate methods of NavigableSet (namely subSet(), tailSet(), and headSet()) to actually construct the view. Consult these methods for a full description of the returned view's behavior.

        Warning: Ranges always represent a range of values using the values' natural ordering. NavigableSet on the other hand can specify a custom ordering via a Comparator, which can violate the natural ordering. Using this method (or in general using Range) with unnaturally-ordered sets can lead to unexpected and undefined behavior.

        Since:
        20.0