12

I want to convert a tree in a Java8 stream of nodes.

Here is a tree of nodes storing data which can be selected:

public class SelectTree<D> {

  private D data;

  private boolean selected = false;

  private SelectTree<D> parent;

  private final List<SelectTree<D>> children = new ArrayList<>();

  public SelectTree(D data, SelectTree<D> parent) {
    this.data = data;
    if (parent != null) {
      this.parent = parent;
      this.parent.getChildren().add(this);
    }
  }

  public D getData() {
    return data;
  }

  public void setData(D data) {
    this.data = data;
  }

  public boolean isSelected() {
    return selected;
  }

  public void setSelected(boolean selected) {
    this.selected = selected;
  }

  public SelectTree<D> getParent() {
    return parent;
  }

  public void setParent(SelectTree<D> parent) {
    this.parent = parent;
  }

  public List<SelectTree<D>> getChildren() {
    return children;
  }

  public boolean isRoot() {
    return this.getParent() == null;
  }

  public boolean isLeaf() {
    return this.getChildren() == null || this.getChildren().isEmpty();
  }
}

I want to get a collection of the selected data

I want to do something like that:

  public static void main(String[] args) {
    SelectTree<Integer> root = generateTree();
    
    List<Integer> selectedData = root.stream()
            .peek(node -> System.out.println(node.getData()+": "+node.isSelected()))
            .filter(node-> node.isSelected())
            .map(node-> node.getData())
            .collect(Collectors.toList()) ;
    
    System.out.println("\nselectedData="+selectedData);
  }

  private static SelectTree<Integer> generateTree() {
    SelectTree<Integer> n1 = new SelectTree(1, null);
    SelectTree<Integer> n11 = new SelectTree(11, n1);
    SelectTree<Integer> n12 = new SelectTree(12, n1);
    n12.setSelected(true);
    SelectTree<Integer> n111 = new SelectTree(111, n11);
    n111.setSelected(true);
    SelectTree<Integer> n112 = new SelectTree(112, n11);
    SelectTree<Integer> n121 = new SelectTree(121, n12);
    SelectTree<Integer> n122 = new SelectTree(122, n12);
    return n1;
  }

The problem was to find the implementation of stream() and I think I could help some people sharing my solution and I would be interested in knowing if there are some issues or better ways of doing this.

At first it was for primefaces TreeNode but I generalize the problem to all kinds of trees.

1

3 Answers 3

17

One small addition to kwisatz's answer.

This implementation:

this.getChildren().stream()
        .map(SelectTree::stream)
        .reduce(Stream.of(this), Stream::concat);

will be more eager, i. e. the whole hierarchy will be traversed during a stream creation. If your hirarchy is large and, let's say, you're looking for a single node matching some predicate, you may want a more lazy behaviour:

Stream.concat(Stream.of(this),
              this.getChildren().stream().flatMap(SelectTree::stream));

In this case, only the children of the root node will be retrieved during a stream creation, and a search for a node won't necessarily result in the whole hierarchy being traversed.

Both approaches will exhibit the DFS iteration order.

1
  • 2
    Even the documentation warns about overusing concat: “Use caution when constructing streams from repeated concatenation. Accessing an element of a deeply concatenated stream can result in deep call chains, or even StackOverflowException[sic].” So reduce(Stream.of(this), Stream::concat) should make the alarm bells ring. In Java 8, the flatMap approach isn’t as lazy as it should be, but at least, it’s not prone to stack overflows. In newer versions, it’s lazy.
    – Holger
    Commented Jan 27, 2023 at 8:04
10

I find this implementation of stream() which is a DFS tree traversal:

public class SelectTree<D> {

  //...

  public Stream<SelectTree<D>> stream() {
    if (this.isLeaf()) {
      return Stream.of(this);
    } else {
      return this.getChildren().stream()
                .map(child -> child.stream())
                .reduce(Stream.of(this), (s1, s2) -> Stream.concat(s1, s2));
    }
  }
}

If you can't change the tree implementation like for primefaces TreeNode (org.primefaces.model.TreeNode) you can define a method in an other class:

  public Stream<TreeNode> stream(TreeNode parentNode) {
    if(parentNode.isLeaf()) {
      return Stream.of(parentNode);
    } else {
      return parentNode.getChildren().stream()
                .map(childNode -> stream(childNode))
                .reduce(Stream.of(parentNode), (s1, s2) -> Stream.concat(s1, s2)) ;
    }
  }
0
3

A more general approach using any node class is to add a parameter for the method, which returns the children:

public class TreeNodeStream {
  public static <T> Stream<T> of(T node, Function<T, Collection<? extends T>> childrenFunction) {
    return Stream.concat( //
      Stream.of(node), //
      childrenFunction.apply(node).stream().flatMap(n -> of(n, childrenFunction)));
  }
}

An example using File:

TreeNodeStream.of(
  new File("."), f -> f.isDirectory() ? Arrays.asList(f.listFiles()) :
                                        Collections.emptySet())
  .filter(f -> f.getName().endsWith(".java"))
  .collect(Collectors::toList);
1
  • Looks like answer of @Bass. Commented Oct 6, 2023 at 0:51

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