Package io.vavr.collection

Class Tree<T>

    • Nested Class Summary

      Nested Classes 
      Modifier and Type Class Description
      static class  Tree.Empty<T>
      Deprecated.
      will be removed from the public API
      static class  Tree.Node<T>
      Deprecated.
      will be removed from the public API
      static class  Tree.Order
      Tree traversal order.

    • Method Summary

      Modifier and Type Method Description
      int branchCount()
      Counts the number of branches of this tree.
      static <T,​ID>
      List<Tree.Node<T>>      		 build​(java.lang.Iterable<? extends T> source, java.util.function.Function<? super T,​? extends ID> idMapper, java.util.function.Function<? super T,​? extends ID> parentMapper)
      Build a List with roots of Tree from flat source.
      <R> Tree<R> collect​(PartialFunction<? super T,​? extends R> partialFunction)
      Collects all elements that are in the domain of the given partialFunction by mapping the elements to type R.
      static <T> java.util.stream.Collector<T,​java.util.ArrayList<T>,​Tree<T>> collector()
      Returns a Collector which may be used in conjunction with Stream.collect(java.util.stream.Collector) to obtain a Tree.
      Seq<T> distinct()
      Returns a new version of this which contains no duplicates.
      Seq<T> distinctBy​(java.util.Comparator<? super T> comparator)
      Returns a new version of this which contains no duplicates.
      <U> Seq<T> distinctBy​(java.util.function.Function<? super T,​? extends U> keyExtractor)
      Returns a new version of this which contains no duplicates.
      abstract java.lang.String draw()
      Creates a neat 2-dimensional drawing of a tree.
      Seq<T> drop​(int n)
      Drops the first n elements of this or all elements, if this length < n.
      Seq<T> dropRight​(int n)
      Drops the last n elements of this or all elements, if this length < n.
      Seq<T> dropUntil​(java.util.function.Predicate<? super T> predicate)
      Drops elements until the predicate holds for the current element.
      Seq<T> dropWhile​(java.util.function.Predicate<? super T> predicate)
      Drops elements while the predicate holds for the current element.
      static <T> Tree.Empty<T> empty()
      Returns the singleton empty tree.
      static <T> Tree<T> fill​(int n, java.util.function.Supplier<? extends T> s)
      Returns a Tree containing n values supplied by a given Supplier s.
      static <T> Tree<T> fill​(int n, T element)
      Returns a Tree containing n times the given element
      Seq<T> filter​(java.util.function.Predicate<? super T> predicate)
      Returns a new traversable consisting of all elements which satisfy the given predicate.
      Seq<T> filterNot​(java.util.function.Predicate<? super T> predicate)
      Returns a new traversable consisting of all elements which do not satisfy the given predicate.
      <U> Tree<U> flatMap​(java.util.function.Function<? super T,​? extends java.lang.Iterable<? extends U>> mapper)
      FlatMaps this Traversable.
      <U> U foldRight​(U zero, java.util.function.BiFunction<? super T,​? super U,​? extends U> f)
      Folds this elements from the right, starting with zero and successively calling combine.
      abstract List<Tree.Node<T>> getChildren()
      Returns the children of this tree.
      abstract T getValue()
      Gets the value of this tree.
      <C> Map<C,​Seq<T>> groupBy​(java.util.function.Function<? super T,​? extends C> classifier)
      Groups this elements by classifying the elements.
      Iterator<Seq<T>> grouped​(int size)
      Groups this Traversable into fixed size blocks.
      boolean hasDefiniteSize()
      Checks if this Traversable is known to have a finite size.
      T head()
      Returns the first element of a non-empty Traversable.
      Seq<T> init()
      Dual of Traversable.tail(), returning all elements except the last.
      Option<Seq<T>> initOption()
      Dual of Traversable.tailOption(), returning all elements except the last as Option.
      boolean isAsync()
      A Tree is computed synchronously.
      boolean isBranch()
      Checks if this Tree is a branch.
      boolean isDistinct()
      Checks if this Traversable may consist of distinct elements only.
      boolean isLazy()
      A Tree is computed eagerly.
      abstract boolean isLeaf()
      Checks if this Tree is a leaf.
      boolean isSequential()
      Checks if the elements of this Traversable appear in encounter order.
      boolean isTraversableAgain()
      Checks if this Traversable can be repeatedly traversed.
      Iterator<T> iterator()
      An iterator by means of head() and tail().
      Iterator<T> iterator​(Tree.Order order)
      Traverses this tree values in a specific Tree.Order.
      int leafCount()
      Counts the number of leaves of this tree.
      <U> Tree<U> map​(java.util.function.Function<? super T,​? extends U> mapper)
      Maps the elements of this Traversable to elements of a new type preserving their order, if any.
      static <T> Tree<T> narrow​(Tree<? extends T> tree)
      Narrows a widened Tree<? extends T> to Tree<T> by performing a type-safe cast.
      int nodeCount()
      Counts the number of nodes (i.e.
      static <T> Tree.Node<T> of​(T value)
      Returns a new Node containing the given value and having no children.
      static <T> Tree<T> of​(T... values)
      Creates a Tree of the given elements.
      static <T> Tree.Node<T> of​(T value, Tree.Node<T>... children)
      Returns a new Node containing the given value and having the given children.
      static <T> Tree.Node<T> of​(T value, java.lang.Iterable<Tree.Node<T>> children)
      Returns a new Node containing the given value and having the given children.
      static <T> Tree<T> ofAll​(java.lang.Iterable<? extends T> iterable)
      Creates a Tree of the given elements.
      static <T> Tree<T> ofAll​(java.util.stream.Stream<? extends T> javaStream)
      Creates a Tree that contains the elements of the given Stream.
      Tree<T> orElse​(java.lang.Iterable<? extends T> other)
      Returns this Traversable if it is nonempty, otherwise return the alternative.
      Tree<T> orElse​(java.util.function.Supplier<? extends java.lang.Iterable<? extends T>> supplier)
      Returns this Traversable if it is nonempty, otherwise return the result of evaluating supplier.
      Tuple2<Seq<T>,​Seq<T>> partition​(java.util.function.Predicate<? super T> predicate)
      Creates a partition of this Traversable by splitting this elements in two in distinct traversables according to a predicate.
      Tree<T> peek​(java.util.function.Consumer<? super T> action)
      Performs the given action on the first element if this is an eager implementation.
      static <T> Tree.Node<T> recurse​(T seed, java.util.function.Function<? super T,​? extends java.lang.Iterable<? extends T>> descend)
      Recursively builds a non-empty Tree, starting with the given seed value and proceeding in depth-first order.
      Seq<T> reject​(java.util.function.Predicate<? super T> predicate)
      Deprecated.
      Tree<T> replace​(T currentElement, T newElement)
      Replaces the first occurrence (if exists) of the given currentElement with newElement.
      Tree<T> replaceAll​(T currentElement, T newElement)
      Replaces all occurrences of the given currentElement with newElement.
      Seq<T> retainAll​(java.lang.Iterable<? extends T> elements)
      Keeps all occurrences of the given elements from this.
      Seq<T> scan​(T zero, java.util.function.BiFunction<? super T,​? super T,​? extends T> operation)
      Computes a prefix scan of the elements of the collection.
      <U> Seq<U> scanLeft​(U zero, java.util.function.BiFunction<? super U,​? super T,​? extends U> operation)
      Produces a collection containing cumulative results of applying the operator going left to right.
      <U> Seq<U> scanRight​(U zero, java.util.function.BiFunction<? super T,​? super U,​? extends U> operation)
      Produces a collection containing cumulative results of applying the operator going right to left.
      Iterator<Seq<T>> slideBy​(java.util.function.Function<? super T,​?> classifier)
      Slides a non-overlapping window of a variable size over this Traversable.
      Iterator<Seq<T>> sliding​(int size)
      Slides a window of a specific size and step size 1 over this Traversable by calling Traversable.sliding(int, int).
      Iterator<Seq<T>> sliding​(int size, int step)
      Slides a window of a specific size and step size over this Traversable.
      Tuple2<Seq<T>,​Seq<T>> span​(java.util.function.Predicate<? super T> predicate)
      Returns a tuple where the first element is the longest prefix of elements that satisfy the given predicate and the second element is the remainder.
      java.lang.String stringPrefix()
      Returns the name of this Value type, which is used by toString().
      static <T> Tree<T> tabulate​(int n, java.util.function.Function<? super java.lang.Integer,​? extends T> f)
      Returns a Tree containing n values of a given Function f over a range of integer values from 0 to n - 1.
      Seq<T> tail()
      Drops the first element of a non-empty Traversable.
      Option<Seq<T>> tailOption()
      Drops the first element of a non-empty Traversable and returns an Option.
      Seq<T> take​(int n)
      Takes the first n elements of this or all elements, if this length < n.
      Seq<T> takeRight​(int n)
      Takes the last n elements of this or all elements, if this length < n.
      Seq<T> takeUntil​(java.util.function.Predicate<? super T> predicate)
      Takes elements until the predicate holds for the current element.
      Seq<T> takeWhile​(java.util.function.Predicate<? super T> predicate)
      Takes elements while the predicate holds for the current element.
      abstract java.lang.String toLispString()
      Creates a Lisp-like representation of this Tree.
      <U> U transform​(java.util.function.Function<? super Tree<T>,​? extends U> f)
      Transforms this Tree.
      Seq<Tree.Node<T>> traverse()
      Traverses this tree in Tree.Order.PRE_ORDER.
      Seq<Tree.Node<T>> traverse​(Tree.Order order)
      Traverses this tree in a specific order.
      <T1,​T2>
      Tuple2<Tree<T1>,​Tree<T2>>      		 unzip​(java.util.function.Function<? super T,​Tuple2<? extends T1,​? extends T2>> unzipper)
      Unzips this elements by mapping this elements to pairs which are subsequently split into two distinct sets.
      <T1,​T2,​T3>
      Tuple3<Tree<T1>,​Tree<T2>,​Tree<T3>>      		 unzip3​(java.util.function.Function<? super T,​Tuple3<? extends T1,​? extends T2,​? extends T3>> unzipper)
      Unzips this elements by mapping this elements to triples which are subsequently split into three distinct sets.
      Seq<T> values()
      Traverses this tree values in Tree.Order.PRE_ORDER.
      Seq<T> values​(Tree.Order order)
      Traverses this tree values in a specific order.
      <U> Tree<Tuple2<T,​U>> zip​(java.lang.Iterable<? extends U> that)
      Returns a traversable formed from this traversable and another Iterable collection by combining corresponding elements in pairs.
      <U> Tree<Tuple2<T,​U>> zipAll​(java.lang.Iterable<? extends U> that, T thisElem, U thatElem)
      Returns a traversable formed from this traversable and another Iterable by combining corresponding elements in pairs.
      <U,​R>
      Tree<R>      		 zipWith​(java.lang.Iterable<? extends U> that, java.util.function.BiFunction<? super T,​? super U,​? extends R> mapper)
      Returns a traversable formed from this traversable and another Iterable collection by mapping elements.
      Tree<Tuple2<T,​java.lang.Integer>> zipWithIndex()
      Zips this traversable with its indices.
      <U> Tree<U> zipWithIndex​(java.util.function.BiFunction<? super T,​? super java.lang.Integer,​? extends U> mapper)
      Returns a traversable formed from this traversable and another Iterable collection by mapping elements.

      • Methods inherited from class java.lang.Object

        clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

      • Methods inherited from interface io.vavr.Iterable

        to

    • Method Detail

      • collector

        public static <T> java.util.stream.Collector<T,​java.util.ArrayList<T>,​Tree<T>> collector()
        Returns a Collector which may be used in conjunction with Stream.collect(java.util.stream.Collector) to obtain a Tree.
        Type Parameters:
        T - Component type of the Tree.
        Returns:
        A io.vavr.collection.Tree Collector.

      • empty

        public static <T> Tree.Empty<T> empty()
        Returns the singleton empty tree.
        Type Parameters:
        T - Type of tree values.
        Returns:
        The empty tree.

      • narrow

        public static <T> Tree<T> narrow​(Tree<? extends T> tree)
        Narrows a widened Tree<? extends T> to Tree<T> by performing a type-safe cast. This is eligible because immutable/read-only collections are covariant.
        Type Parameters:
        T - Component type of the Tree.
        Parameters:
        tree - An Tree.
        Returns:
        the given tree instance as narrowed type Tree<T>.

      • of

        public static <T> Tree.Node<T> of​(T value)
        Returns a new Node containing the given value and having no children.
        Type Parameters:
        T - Value type
        Parameters:
        value - A value
        Returns:
        A new Node instance.

      • of

        @SafeVarargs
public static <T> Tree.Node<T> of​(T value,
                                  Tree.Node<T>... children)
        Returns a new Node containing the given value and having the given children.
        Type Parameters:
        T - Value type
        Parameters:
        value - A value
        children - The child nodes, possibly empty
        Returns:
        A new Node instance.

      • of

        public static <T> Tree.Node<T> of​(T value,
                                  java.lang.Iterable<Tree.Node<T>> children)
        Returns a new Node containing the given value and having the given children.
        Type Parameters:
        T - Value type
        Parameters:
        value - A value
        children - The child nodes, possibly empty
        Returns:
        A new Node instance.

      • of

        @SafeVarargs
public static <T> Tree<T> of​(T... values)
        Creates a Tree of the given elements.
        Type Parameters:
        T - Component type of the List.
        Parameters:
        values - Zero or more values.
        Returns:
        A Tree containing the given values.
        Throws:
        java.lang.NullPointerException - if values is null

      • ofAll

        public static <T> Tree<T> ofAll​(java.lang.Iterable<? extends T> iterable)
        Creates a Tree of the given elements.

        If the given iterable is a tree, it is returned as result. if the iteration order of the elements is stable.

        Type Parameters:
        T - Component type of the List.
        Parameters:
        iterable - An Iterable of elements.
        Returns:
        A list containing the given elements in the same order.
        Throws:
        java.lang.NullPointerException - if elements is null

      • ofAll

        public static <T> Tree<T> ofAll​(java.util.stream.Stream<? extends T> javaStream)
        Creates a Tree that contains the elements of the given Stream.
        Type Parameters:
        T - Component type of the Stream.
        Parameters:
        javaStream - A Stream
        Returns:
        A Tree containing the given elements in the same order.

      • tabulate

        public static <T> Tree<T> tabulate​(int n,
                                   java.util.function.Function<? super java.lang.Integer,​? extends T> f)
        Returns a Tree containing n values of a given Function f over a range of integer values from 0 to n - 1.
        Type Parameters:
        T - Component type of the Tree
        Parameters:
        n - The number of elements in the Tree
        f - The Function computing element values
        Returns:
        A Tree consisting of elements f(0),f(1), ..., f(n - 1)
        Throws:
        java.lang.NullPointerException - if f is null

      • fill

        public static <T> Tree<T> fill​(int n,
                               java.util.function.Supplier<? extends T> s)
        Returns a Tree containing n values supplied by a given Supplier s.
        Type Parameters:
        T - Component type of the Tree
        Parameters:
        n - The number of elements in the Tree
        s - The Supplier computing element values
        Returns:
        A Tree of size n, where each element contains the result supplied by s.
        Throws:
        java.lang.NullPointerException - if s is null

      • fill

        public static <T> Tree<T> fill​(int n,
                               T element)
        Returns a Tree containing n times the given element
        Type Parameters:
        T - Component type of the Tree
        Parameters:
        n - The number of elements in the Tree
        element - The element
        Returns:
        A Tree of size n, where each element is the given element.

      • recurse

        public static <T> Tree.Node<T> recurse​(T seed,
                                       java.util.function.Function<? super T,​? extends java.lang.Iterable<? extends T>> descend)
        Recursively builds a non-empty Tree, starting with the given seed value and proceeding in depth-first order.

        The children of a node are created by

        1. applying the descend function to the node value
        2. calling this method recursively by using each derived child value as new seed (in iteration order).

        Example: 

        
 // = (1 (2 4 5) 3)
 Tree.recurse(1, i ->
   (i == 1) ? List.of(2, 3) :
   (i == 2) ? List.(4, 5) :
   List.empty()
 ).toLispString();
        Type Parameters:
        T - Value type
        Parameters:
        seed - The start value for the Tree
        descend - A function to calculate the child values
        Returns:
        a new, non-empty Tree instance
        Throws:
        java.lang.NullPointerException - if descend is null

      • build

        public static <T,​ID> List<Tree.Node<T>> build​(java.lang.Iterable<? extends T> source,
                                                    java.util.function.Function<? super T,​? extends ID> idMapper,
                                                    java.util.function.Function<? super T,​? extends ID> parentMapper)
        Build a List with roots of Tree from flat source.

        parentMapper must return null for root element. 

        
  // = [(1, null, "I"), (2, 1, "II"), (3, 1, "III"), (4, 2, "IV"), (5, 2, "V")]
  List<MenuItem> items = ...; // MenuItem(id, parentId, label)

  //      I
  //     / \
  //   II  III
  //   /\
  //  IV V
  Tree<MenuItem> menu = Tree.build(items, MenuItem::getId, MenuItem::getParentId);
        Type Parameters:
        T - Value type
        ID - Id type
        Parameters:
        source - Flat source
        idMapper - A mapper from source item to unique identifier of that item
        parentMapper - A mapper from source item to unique identifier of parent item. Need return null for root items
        Returns:
        a new, maybe empty List instance with non-empty Tree instances
        Throws:
        java.lang.NullPointerException - if source, idMapper or parentMapper is null

      • collect

        public final <R> Tree<R> collect​(PartialFunction<? super T,​? extends R> partialFunction)
        Description copied from interface: Traversable
        Collects all elements that are in the domain of the given partialFunction by mapping the elements to type R.

        More specifically, for each of this elements in iteration order first it is checked 

        
 partialFunction.isDefinedAt(element)
        If the elements makes it through that filter, the mapped instance is added to the result collection 
        
 R newElement = partialFunction.apply(element)
        Note:If this Traversable is ordered (i.e. extends Ordered, the caller of collect has to ensure that the elements are comparable (i.e. extend Comparable).
        Specified by:
        collect in interface Traversable<T>
        Type Parameters:
        R - The new element type
        Parameters:
        partialFunction - A function that is not necessarily defined of all elements of this traversable.
        Returns:
        A new Traversable instance containing elements of type R

      • getValue

        public abstract T getValue()
        Gets the value of this tree.
        Returns:
        The value of this tree.
        Throws:
        java.lang.UnsupportedOperationException - if this tree is empty

      • getChildren

        public abstract List<Tree.Node<T>> getChildren()
        Returns the children of this tree.
        Returns:
        the tree's children

      • isLeaf

        public abstract boolean isLeaf()
        Checks if this Tree is a leaf. A tree is a leaf if it is a Node with no children. Because the empty tree is no Node, it is not a leaf by definition.
        Returns:
        true if this tree is a leaf, false otherwise.

      • isBranch

        public final boolean isBranch()
        Checks if this Tree is a branch. A Tree is a branch if it is a Node which has children. Because the empty tree is not a Node, it is not a branch by definition.
        Returns:
        true if this tree is a branch, false otherwise.

      • isAsync

        public final boolean isAsync()
        A Tree is computed synchronously.
        Specified by:
        isAsync in interface Value<T>
        Returns:
        false

      • isDistinct

        public final boolean isDistinct()
        Description copied from interface: Traversable
        Checks if this Traversable may consist of distinct elements only.
        Specified by:
        isDistinct in interface Traversable<T>
        Returns:
        true if this Traversable may consist of distinct elements only, false otherwise.

      • isLazy

        public final boolean isLazy()
        A Tree is computed eagerly.
        Specified by:
        isLazy in interface Value<T>
        Returns:
        false

      • isSequential

        public final boolean isSequential()
        Description copied from interface: Traversable
        Checks if the elements of this Traversable appear in encounter order.
        Specified by:
        isSequential in interface Traversable<T>
        Returns:
        true, if the insertion order of elements is preserved, false otherwise.

      • iterator

        public final Iterator<T> iterator​(Tree.Order order)
        Traverses this tree values in a specific Tree.Order.
        Parameters:
        order - A traversal order
        Returns:
        A new Iterator

      • toLispString

        public abstract java.lang.String toLispString()
        Creates a Lisp-like representation of this Tree.
        Returns:
        This Tree as Lisp-string, i.e. represented as list of lists.

      • transform

        public final <U> U transform​(java.util.function.Function<? super Tree<T>,​? extends U> f)
        Transforms this Tree.
        Type Parameters:
        U - Type of transformation result
        Parameters:
        f - A transformation
        Returns:
        An instance of type U
        Throws:
        java.lang.NullPointerException - if f is null

      • traverse

        public final Seq<Tree.Node<T>> traverse​(Tree.Order order)
        Traverses this tree in a specific order.
        Parameters:
        order - the tree traversal order
        Returns:
        A sequence of nodes.
        Throws:
        java.lang.NullPointerException - if order is null

      • values

        public final Seq<T> values()
        Traverses this tree values in Tree.Order.PRE_ORDER. Syntactic sugar for traverse().map(Node::getValue).
        Returns:
        A sequence of the tree values.

      • values

        public final Seq<T> values​(Tree.Order order)
        Traverses this tree values in a specific order. Syntactic sugar for traverse(order).map(Node::getValue).
        Parameters:
        order - the tree traversal order
        Returns:
        A sequence of the tree values.
        Throws:
        java.lang.NullPointerException - if order is null

      • branchCount

        public final int branchCount()
        Counts the number of branches of this tree. The empty tree and a leaf have no branches.
        Returns:
        The number of branches of this tree.

      • leafCount

        public final int leafCount()
        Counts the number of leaves of this tree. The empty tree has no leaves.
        Returns:
        The number of leaves of this tree.

      • nodeCount

        public final int nodeCount()
        Counts the number of nodes (i.e. branches and leaves) of this tree. The empty tree has no nodes.
        Returns:
        The number of nodes of this tree.

      • distinct

        public final Seq<T> distinct()
        Description copied from interface: Traversable
        Returns a new version of this which contains no duplicates. Elements are compared using equals.
        Specified by:
        distinct in interface Traversable<T>
        Returns:
        a new Traversable containing this elements without duplicates

      • distinctBy

        public final Seq<T> distinctBy​(java.util.Comparator<? super T> comparator)
        Description copied from interface: Traversable
        Returns a new version of this which contains no duplicates. Elements are compared using the given comparator.
        Specified by:
        distinctBy in interface Traversable<T>
        Parameters:
        comparator - A comparator
        Returns:
        a new Traversable containing this elements without duplicates

      • distinctBy

        public final <U> Seq<T> distinctBy​(java.util.function.Function<? super T,​? extends U> keyExtractor)
        Description copied from interface: Traversable
        Returns a new version of this which contains no duplicates. Elements mapped to keys which are compared using equals.

        The elements of the result are determined in the order of their occurrence - first match wins.

        Specified by:
        distinctBy in interface Traversable<T>
        Type Parameters:
        U - key type
        Parameters:
        keyExtractor - A key extractor
        Returns:
        a new Traversable containing this elements without duplicates

      • drop

        public final Seq<T> drop​(int n)
        Description copied from interface: Traversable
        Drops the first n elements of this or all elements, if this length < n.
        Specified by:
        drop in interface Traversable<T>
        Parameters:
        n - The number of elements to drop.
        Returns:
        a new instance consisting of all elements of this except the first n ones, or else the empty instance, if this has less than n elements.

      • dropRight

        public final Seq<T> dropRight​(int n)
        Description copied from interface: Traversable
        Drops the last n elements of this or all elements, if this length < n.
        Specified by:
        dropRight in interface Traversable<T>
        Parameters:
        n - The number of elements to drop.
        Returns:
        a new instance consisting of all elements of this except the last n ones, or else the empty instance, if this has less than n elements.

      • dropUntil

        public final Seq<T> dropUntil​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Drops elements until the predicate holds for the current element.
        Specified by:
        dropUntil in interface Traversable<T>
        Parameters:
        predicate - A condition tested subsequently for this elements.
        Returns:
        a new instance consisting of all elements starting from the first one which does satisfy the given predicate.

      • dropWhile

        public final Seq<T> dropWhile​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Drops elements while the predicate holds for the current element.

        Note: This is essentially the same as dropUntil(predicate.negate()). It is intended to be used with method references, which cannot be negated directly.

        Specified by:
        dropWhile in interface Traversable<T>
        Parameters:
        predicate - A condition tested subsequently for this elements.
        Returns:
        a new instance consisting of all elements starting from the first one which does not satisfy the given predicate.

      • filter

        public final Seq<T> filter​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Returns a new traversable consisting of all elements which satisfy the given predicate.
        Specified by:
        filter in interface Traversable<T>
        Parameters:
        predicate - A predicate
        Returns:
        a new traversable

      • filterNot

        public final Seq<T> filterNot​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Returns a new traversable consisting of all elements which do not satisfy the given predicate.

        The default implementation is equivalent to 

        filter(predicate.negate()
        Specified by:
        filterNot in interface Traversable<T>
        Parameters:
        predicate - A predicate
        Returns:
        a new traversable

      • reject

        @Deprecated
public final Seq<T> reject​(java.util.function.Predicate<? super T> predicate)
        Deprecated.
        Description copied from interface: Traversable
        Returns a new traversable consisting of all elements which do not satisfy the given predicate.

        The default implementation is equivalent to 

        filter(predicate.negate()
        Specified by:
        reject in interface Traversable<T>
        Parameters:
        predicate - A predicate
        Returns:
        a new traversable

      • flatMap

        public final <U> Tree<U> flatMap​(java.util.function.Function<? super T,​? extends java.lang.Iterable<? extends U>> mapper)
        Description copied from interface: Traversable
        FlatMaps this Traversable.
        Specified by:
        flatMap in interface Traversable<T>
        Type Parameters:
        U - The resulting component type.
        Parameters:
        mapper - A mapper
        Returns:
        A new Traversable instance.

      • foldRight

        public final <U> U foldRight​(U zero,
                             java.util.function.BiFunction<? super T,​? super U,​? extends U> f)
        Description copied from interface: Traversable
        Folds this elements from the right, starting with zero and successively calling combine.

        Example: 

         
 // = "!cba"
 List("a", "b", "c").foldRight("!", (x, xs) -> xs + x)
        Specified by:
        foldRight in interface Foldable<T>
        Specified by:
        foldRight in interface Traversable<T>
        Type Parameters:
        U - the type of the folded value
        Parameters:
        zero - A zero element to start with.
        f - A function which combines elements.
        Returns:
        a folded value

      • groupBy

        public final <C> Map<C,​Seq<T>> groupBy​(java.util.function.Function<? super T,​? extends C> classifier)
        Description copied from interface: Traversable
        Groups this elements by classifying the elements.
        Specified by:
        groupBy in interface Traversable<T>
        Type Parameters:
        C - classified class type
        Parameters:
        classifier - A function which classifies elements into classes
        Returns:
        A Map containing the grouped elements
        See Also:
        Traversable.arrangeBy(Function)

      • grouped

        public final Iterator<Seq<T>> grouped​(int size)
        Description copied from interface: Traversable
        Groups this Traversable into fixed size blocks.

        Let length be the length of this Iterable. Then grouped is defined as follows:

        • If this.isEmpty(), the resulting Iterator is empty.
        • If size <= length, the resulting Iterator will contain length / size blocks of size size and maybe a non-empty block of size length % size, if there are remaining elements.
        • If size > length, the resulting Iterator will contain one block of size length.
        Examples: 
         
 [].grouped(1) = []
 [].grouped(0) throws
 [].grouped(-1) throws
 [1,2,3,4].grouped(2) = [[1,2],[3,4]]
 [1,2,3,4,5].grouped(2) = [[1,2],[3,4],[5]]
 [1,2,3,4].grouped(5) = [[1,2,3,4]]
        Please note that grouped(int) is a special case of Traversable.sliding(int, int), i.e. grouped(size) is the same as sliding(size, size).
        Specified by:
        grouped in interface Traversable<T>
        Parameters:
        size - a positive block size
        Returns:
        A new Iterator of grouped blocks of the given size

      • hasDefiniteSize

        public final boolean hasDefiniteSize()
        Description copied from interface: Traversable
        Checks if this Traversable is known to have a finite size.

        This method should be implemented by classes only, i.e. not by interfaces.

        Specified by:
        hasDefiniteSize in interface Traversable<T>
        Returns:
        true, if this Traversable is known to have a finite size, false otherwise.

      • head

        public final T head()
        Description copied from interface: Traversable
        Returns the first element of a non-empty Traversable.
        Specified by:
        head in interface Traversable<T>
        Returns:
        The first element of this Traversable.

      • init

        public final Seq<T> init()
        Description copied from interface: Traversable
        Dual of Traversable.tail(), returning all elements except the last.
        Specified by:
        init in interface Traversable<T>
        Returns:
        a new instance containing all elements except the last.

      • isTraversableAgain

        public final boolean isTraversableAgain()
        Description copied from interface: Traversable
        Checks if this Traversable can be repeatedly traversed.

        This method should be implemented by classes only, i.e. not by interfaces.

        Specified by:
        isTraversableAgain in interface Traversable<T>
        Returns:
        true, if this Traversable is known to be traversable repeatedly, false otherwise.

      • iterator

        public final Iterator<T> iterator()
        Description copied from interface: Traversable
        An iterator by means of head() and tail(). Subclasses may want to override this method.
        Specified by:
        iterator in interface Iterable<T>
        Specified by:
        iterator in interface java.lang.Iterable<T>
        Specified by:
        iterator in interface Traversable<T>
        Specified by:
        iterator in interface Value<T>
        Returns:
        A new Iterator of this Traversable elements.

      • map

        public final <U> Tree<U> map​(java.util.function.Function<? super T,​? extends U> mapper)
        Description copied from interface: Traversable
        Maps the elements of this Traversable to elements of a new type preserving their order, if any.
        Specified by:
        map in interface Traversable<T>
        Specified by:
        map in interface Value<T>
        Type Parameters:
        U - Component type of the target Traversable
        Parameters:
        mapper - A mapper.
        Returns:
        a mapped Traversable

      • orElse

        public final Tree<T> orElse​(java.lang.Iterable<? extends T> other)
        Description copied from interface: Traversable
        Returns this Traversable if it is nonempty, otherwise return the alternative.
        Specified by:
        orElse in interface Traversable<T>
        Parameters:
        other - An alternative Traversable
        Returns:
        this Traversable if it is nonempty, otherwise return the alternative.

      • orElse

        public final Tree<T> orElse​(java.util.function.Supplier<? extends java.lang.Iterable<? extends T>> supplier)
        Description copied from interface: Traversable
        Returns this Traversable if it is nonempty, otherwise return the result of evaluating supplier.
        Specified by:
        orElse in interface Traversable<T>
        Parameters:
        supplier - An alternative Traversable supplier
        Returns:
        this Traversable if it is nonempty, otherwise return the result of evaluating supplier.

      • partition

        public final Tuple2<Seq<T>,​Seq<T>> partition​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Creates a partition of this Traversable by splitting this elements in two in distinct traversables according to a predicate.
        Specified by:
        partition in interface Traversable<T>
        Parameters:
        predicate - A predicate which classifies an element if it is in the first or the second traversable.
        Returns:
        A disjoint union of two traversables. The first Traversable contains all elements that satisfy the given predicate, the second Traversable contains all elements that don't. The original order of elements is preserved.

      • peek

        public final Tree<T> peek​(java.util.function.Consumer<? super T> action)
        Description copied from interface: Value
        Performs the given action on the first element if this is an eager implementation. Performs the given action on all elements (the first immediately, successive deferred), if this is a lazy implementation.
        Specified by:
        peek in interface Traversable<T>
        Specified by:
        peek in interface Value<T>
        Parameters:
        action - The action that will be performed on the element(s).
        Returns:
        this instance

      • replace

        public final Tree<T> replace​(T currentElement,
                             T newElement)
        Description copied from interface: Traversable
        Replaces the first occurrence (if exists) of the given currentElement with newElement.
        Specified by:
        replace in interface Traversable<T>
        Parameters:
        currentElement - An element to be substituted.
        newElement - A replacement for currentElement.
        Returns:
        a Traversable containing all elements of this where the first occurrence of currentElement is replaced with newElement.

      • replaceAll

        public final Tree<T> replaceAll​(T currentElement,
                                T newElement)
        Description copied from interface: Traversable
        Replaces all occurrences of the given currentElement with newElement.
        Specified by:
        replaceAll in interface Traversable<T>
        Parameters:
        currentElement - An element to be substituted.
        newElement - A replacement for currentElement.
        Returns:
        a Traversable containing all elements of this where all occurrences of currentElement are replaced with newElement.

      • retainAll

        public final Seq<T> retainAll​(java.lang.Iterable<? extends T> elements)
        Description copied from interface: Traversable
        Keeps all occurrences of the given elements from this.
        Specified by:
        retainAll in interface Traversable<T>
        Parameters:
        elements - Elements to be kept.
        Returns:
        a Traversable containing all occurrences of the given elements.

      • scan

        public final Seq<T> scan​(T zero,
                         java.util.function.BiFunction<? super T,​? super T,​? extends T> operation)
        Description copied from interface: Traversable
        Computes a prefix scan of the elements of the collection. Note: The neutral element z may be applied more than once.
        Specified by:
        scan in interface Traversable<T>
        Parameters:
        zero - neutral element for the operator op
        operation - the associative operator for the scan
        Returns:
        a new traversable collection containing the prefix scan of the elements in this traversable collection

      • scanLeft

        public final <U> Seq<U> scanLeft​(U zero,
                                 java.util.function.BiFunction<? super U,​? super T,​? extends U> operation)
        Description copied from interface: Traversable
        Produces a collection containing cumulative results of applying the operator going left to right. Note: will not terminate for infinite-sized collections. Note: might return different results for different runs, unless the underlying collection type is ordered.
        Specified by:
        scanLeft in interface Traversable<T>
        Type Parameters:
        U - the type of the elements in the resulting collection
        Parameters:
        zero - the initial value
        operation - the binary operator applied to the intermediate result and the element
        Returns:
        collection with intermediate results

      • scanRight

        public final <U> Seq<U> scanRight​(U zero,
                                  java.util.function.BiFunction<? super T,​? super U,​? extends U> operation)
        Description copied from interface: Traversable
        Produces a collection containing cumulative results of applying the operator going right to left. The head of the collection is the last cumulative result. Note: will not terminate for infinite-sized collections. Note: might return different results for different runs, unless the underlying collection type is ordered.
        Specified by:
        scanRight in interface Traversable<T>
        Type Parameters:
        U - the type of the elements in the resulting collection
        Parameters:
        zero - the initial value
        operation - the binary operator applied to the intermediate result and the element
        Returns:
        collection with intermediate results

      • slideBy

        public final Iterator<Seq<T>> slideBy​(java.util.function.Function<? super T,​?> classifier)
        Description copied from interface: Traversable
        Slides a non-overlapping window of a variable size over this Traversable.

        Each window contains elements with the same class, as determined by classifier. Two consecutive values in this Traversable will be in the same window only if classifier returns equal values for them. Otherwise, the values will constitute the last element of the previous window and the first element of the next window.

        Examples: 

        
 [].slideBy(Function.identity()) = []
 [1,2,3,4,4,5].slideBy(Function.identity()) = [[1],[2],[3],[4,4],[5]]
 [1,2,3,10,12,5,7,20,29].slideBy(x -> x/10) = [[1,2,3],[10,12],[5,7],[20,29]]
        Specified by:
        slideBy in interface Traversable<T>
        Parameters:
        classifier - A function which classifies elements into classes
        Returns:
        A new Iterator of windows of the grouped elements

      • sliding

        public final Iterator<Seq<T>> sliding​(int size)
        Description copied from interface: Traversable
        Slides a window of a specific size and step size 1 over this Traversable by calling Traversable.sliding(int, int).
        Specified by:
        sliding in interface Traversable<T>
        Parameters:
        size - a positive window size
        Returns:
        a new Iterator of windows of a specific size using step size 1

      • sliding

        public final Iterator<Seq<T>> sliding​(int size,
                                      int step)
        Description copied from interface: Traversable
        Slides a window of a specific size and step size over this Traversable.

        Examples: 

         
 [].sliding(1,1) = []
 [1,2,3,4,5].sliding(2,3) = [[1,2],[4,5]]
 [1,2,3,4,5].sliding(2,4) = [[1,2],[5]]
 [1,2,3,4,5].sliding(2,5) = [[1,2]]
 [1,2,3,4].sliding(5,3) = [[1,2,3,4],[4]]
        Specified by:
        sliding in interface Traversable<T>
        Parameters:
        size - a positive window size
        step - a positive step size
        Returns:
        a new Iterator of windows of a specific size using a specific step size

      • span

        public final Tuple2<Seq<T>,​Seq<T>> span​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Returns a tuple where the first element is the longest prefix of elements that satisfy the given predicate and the second element is the remainder.
        Specified by:
        span in interface Traversable<T>
        Parameters:
        predicate - A predicate.
        Returns:
        a Tuple containing the longest prefix of elements that satisfy p and the remainder.

      • stringPrefix

        public final java.lang.String stringPrefix()
        Description copied from interface: Value
        Returns the name of this Value type, which is used by toString().
        Specified by:
        stringPrefix in interface Value<T>
        Returns:
        This type name.

      • tail

        public final Seq<T> tail()
        Description copied from interface: Traversable
        Drops the first element of a non-empty Traversable.
        Specified by:
        tail in interface Traversable<T>
        Returns:
        A new instance of Traversable containing all elements except the first.

      • tailOption

        public final Option<Seq<T>> tailOption()
        Description copied from interface: Traversable
        Drops the first element of a non-empty Traversable and returns an Option.
        Specified by:
        tailOption in interface Traversable<T>
        Returns:
        Some(traversable) or None if this is empty.

      • take

        public final Seq<T> take​(int n)
        Description copied from interface: Traversable
        Takes the first n elements of this or all elements, if this length < n.

        The result is equivalent to sublist(0, max(0, min(length(), n))) but does not throw if n < 0 or n > length().

        In the case of n < 0 the empty instance is returned, in the case of n > length() this is returned.

        Specified by:
        take in interface Traversable<T>
        Parameters:
        n - The number of elements to take.
        Returns:
        A new instance consisting of the first n elements of this or all elements, if this has less than n elements.

      • takeRight

        public final Seq<T> takeRight​(int n)
        Description copied from interface: Traversable
        Takes the last n elements of this or all elements, if this length < n.

        The result is equivalent to sublist(max(0, min(length(), length() - n)), n), i.e. takeRight will not throw if n < 0 or n > length().

        In the case of n < 0 the empty instance is returned, in the case of n > length() this is returned.

        Specified by:
        takeRight in interface Traversable<T>
        Parameters:
        n - The number of elements to take.
        Returns:
        A new instance consisting of the last n elements of this or all elements, if this has less than n elements.

      • takeUntil

        public final Seq<T> takeUntil​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Takes elements until the predicate holds for the current element.

        Note: This is essentially the same as takeWhile(predicate.negate()). It is intended to be used with method references, which cannot be negated directly.

        Specified by:
        takeUntil in interface Traversable<T>
        Parameters:
        predicate - A condition tested subsequently for this elements.
        Returns:
        a new instance consisting of all elements before the first one which does satisfy the given predicate.

      • takeWhile

        public final Seq<T> takeWhile​(java.util.function.Predicate<? super T> predicate)
        Description copied from interface: Traversable
        Takes elements while the predicate holds for the current element.
        Specified by:
        takeWhile in interface Traversable<T>
        Parameters:
        predicate - A condition tested subsequently for the contained elements.
        Returns:
        a new instance consisting of all elements before the first one which does not satisfy the given predicate.

      • unzip

        public final <T1,​T2> Tuple2<Tree<T1>,​Tree<T2>> unzip​(java.util.function.Function<? super T,​Tuple2<? extends T1,​? extends T2>> unzipper)
        Description copied from interface: Traversable
        Unzips this elements by mapping this elements to pairs which are subsequently split into two distinct sets.
        Specified by:
        unzip in interface Traversable<T>
        Type Parameters:
        T1 - 1st element type of a pair returned by unzipper
        T2 - 2nd element type of a pair returned by unzipper
        Parameters:
        unzipper - a function which converts elements of this to pairs
        Returns:
        A pair of set containing elements split by unzipper

      • unzip3

        public final <T1,​T2,​T3> Tuple3<Tree<T1>,​Tree<T2>,​Tree<T3>> unzip3​(java.util.function.Function<? super T,​Tuple3<? extends T1,​? extends T2,​? extends T3>> unzipper)
        Description copied from interface: Traversable
        Unzips this elements by mapping this elements to triples which are subsequently split into three distinct sets.
        Specified by:
        unzip3 in interface Traversable<T>
        Type Parameters:
        T1 - 1st element type of a triplet returned by unzipper
        T2 - 2nd element type of a triplet returned by unzipper
        T3 - 3rd element type of a triplet returned by unzipper
        Parameters:
        unzipper - a function which converts elements of this to pairs
        Returns:
        A triplet of set containing elements split by unzipper

      • zip

        public final <U> Tree<Tuple2<T,​U>> zip​(java.lang.Iterable<? extends U> that)
        Description copied from interface: Traversable
        Returns a traversable formed from this traversable and another Iterable collection by combining corresponding elements in pairs. If one of the two iterables is longer than the other, its remaining elements are ignored.

        The length of the returned traversable is the minimum of the lengths of this traversable and that iterable.

        Specified by:
        zip in interface Traversable<T>
        Type Parameters:
        U - The type of the second half of the returned pairs.
        Parameters:
        that - The Iterable providing the second half of each result pair.
        Returns:
        a new traversable containing pairs consisting of corresponding elements of this traversable and that iterable.

      • zipWith

        public final <U,​R> Tree<R> zipWith​(java.lang.Iterable<? extends U> that,
                                         java.util.function.BiFunction<? super T,​? super U,​? extends R> mapper)
        Description copied from interface: Traversable
        Returns a traversable formed from this traversable and another Iterable collection by mapping elements. If one of the two iterables is longer than the other, its remaining elements are ignored.

        The length of the returned traversable is the minimum of the lengths of this traversable and that iterable.

        Specified by:
        zipWith in interface Traversable<T>
        Type Parameters:
        U - The type of the second parameter of the mapper.
        R - The type of the mapped elements.
        Parameters:
        that - The Iterable providing the second parameter of the mapper.
        mapper - a mapper.
        Returns:
        a new traversable containing mapped elements of this traversable and that iterable.

      • zipAll

        public final <U> Tree<Tuple2<T,​U>> zipAll​(java.lang.Iterable<? extends U> that,
                                                T thisElem,
                                                U thatElem)
        Description copied from interface: Traversable
        Returns a traversable formed from this traversable and another Iterable by combining corresponding elements in pairs. If one of the two collections is shorter than the other, placeholder elements are used to extend the shorter collection to the length of the longer.

        The length of the returned traversable is the maximum of the lengths of this traversable and that iterable.

        Special case: if this traversable is shorter than that elements, and that elements contains duplicates, the resulting traversable may be shorter than the maximum of the lengths of this and that because a traversable contains an element at most once.

        If this Traversable is shorter than that, thisElem values are used to fill the result. If that is shorter than this Traversable, thatElem values are used to fill the result.

        Specified by:
        zipAll in interface Traversable<T>
        Type Parameters:
        U - The type of the second half of the returned pairs.
        Parameters:
        that - The Iterable providing the second half of each result pair.
        thisElem - The element to be used to fill up the result if this traversable is shorter than that.
        thatElem - The element to be used to fill up the result if that is shorter than this traversable.
        Returns:
        A new traversable containing pairs consisting of corresponding elements of this traversable and that.

      • zipWithIndex

        public final Tree<Tuple2<T,​java.lang.Integer>> zipWithIndex()
        Description copied from interface: Traversable
        Zips this traversable with its indices.
        Specified by:
        zipWithIndex in interface Traversable<T>
        Returns:
        A new traversable containing all elements of this traversable paired with their index, starting with 0.

      • zipWithIndex

        public final <U> Tree<U> zipWithIndex​(java.util.function.BiFunction<? super T,​? super java.lang.Integer,​? extends U> mapper)
        Description copied from interface: Traversable
        Returns a traversable formed from this traversable and another Iterable collection by mapping elements. If one of the two iterables is longer than the other, its remaining elements are ignored.

        The length of the returned traversable is the minimum of the lengths of this traversable and that iterable.

        Specified by:
        zipWithIndex in interface Traversable<T>
        Type Parameters:
        U - The type of the mapped elements.
        Parameters:
        mapper - a mapper.
        Returns:
        a new traversable containing mapped elements of this traversable and that iterable.

      • draw

        public abstract java.lang.String draw()
        Creates a neat 2-dimensional drawing of a tree. Unicode characters are used to draw node junctions.
        Returns:
        A nice string representation of the tree.