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package org.nuiton.jaxx.runtime.swing.tree;

/*-
 * #%L
 * JAXX :: Runtime
 * %%
 * Copyright (C) 2008 - 2024 Code Lutin, Ultreia.io
 * %%
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as
 * published by the Free Software Foundation, either version 3 of the
 * License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Lesser Public License for more details.
 *
 * You should have received a copy of the GNU General Lesser Public
 * License along with this program.  If not, see
 * .
 * #L%
 */

import io.ultreia.java4all.util.Enumerations;
import org.jdesktop.swingx.painter.Painter;

import javax.swing.JComponent;
import javax.swing.JScrollPane;
import javax.swing.JTree;
import javax.swing.UIDefaults;
import javax.swing.tree.TreeNode;
import java.awt.Color;
import java.util.Collections;
import java.util.Enumeration;
import java.util.NoSuchElementException;
import java.util.Objects;
import java.util.Stack;
import java.util.stream.Stream;

/**
 * Created by tchemit on 11/10/17.
 *
 * @author Tony Chemit - [email protected]
 */
public class JTrees {

    public static void initUI(JScrollPane selectedTreePane, JTree tree) {

        // customize tree selection colors
        UIDefaults defaults = new UIDefaults();

        Painter painter = (g, c, w, h) -> g.fillRect(0, 0, w, h);
        defaults.put("Tree:TreeCell[Enabled+Selected].backgroundPainter", painter);
        defaults.put("Tree:TreeCell[Enabled+Focused].backgroundPainter", painter);
        defaults.put("Tree:TreeCell[Focused+Selected].backgroundPainter", painter);

        tree.putClientProperty("Nimbus.Overrides", defaults);
        // Fix http://forge.codelutin.com/issues/2781
        selectedTreePane.getViewport().setBackground(Color.WHITE);
    }

    /**
     * Creates a stream of tree node using the Depth-first search (DSF) algorithm with preorder vertex ordering
     * starting on given {@code node}.
     * 

* Note: the stream is not parallel. * * @param node node ot walk through * @return stream of nodes in correct order. */ public static Stream preorderStream(TreeNode node) { return preorderStream(node, false); } /** * Creates a stream of tree node using the Depth-first search (DSF) algorithm with preorder vertex ordering * starting on given {@code node}. * * @param node node ot walk through * @param parallel to set parallel on the stream * @return stream of nodes in correct order. */ public static Stream preorderStream(TreeNode node, boolean parallel) { return Enumerations.stream(new PreorderEnumeration(node), parallel); } /** * Creates a stream of tree node using the Depth-first search (DSF) algorithm with postorder vertex ordering * starting on given {@code node}. *

* Note: the stream is not parallel. * * @param node node ot walk through * @return stream of nodes in correct order. */ public static Stream postorderStream(TreeNode node) { return postorderStream(node, false); } /** * Creates a stream of tree node using the Depth-first search (DSF) algorithm with postorder vertex ordering * starting on given {@code node}. * * @param node node ot walk through * @param parallel to set parallel on the stream * @return stream of nodes in correct order. */ public static Stream postorderStream(TreeNode node, boolean parallel) { return Enumerations.stream(new PostorderEnumeration(node), parallel); } /** * Creates a stream of tree node using the Breadth-first search (BFS) algorithm with preorder vertex ordering * starting on given {@code node}. *

* Note: the stream is not parallel. * * @param node node ot walk through * @return stream of nodes in correct order. */ public static Stream breadthFirstStream(TreeNode node) { return breadthFirstStream(node, false); } /** * Creates a stream of tree node using the Breadth-first search (BFS) algorithm with preorder vertex ordering * starting on given {@code node}. * * @param node node ot walk through * @param parallel to set parallel on the stream * @return stream of nodes in correct order. */ public static Stream breadthFirstStream(TreeNode node, boolean parallel) { return Enumerations.stream(new BreadthFirstEnumeration(node), parallel); } private static final class PreorderEnumeration implements Enumeration { private final Stack stack = new Stack<>(); public PreorderEnumeration(TreeNode rootNode) { stack.push(Enumerations.singleton(rootNode)); } public boolean hasMoreElements() { return (!stack.empty() && stack.peek().hasMoreElements()); } public TreeNode nextElement() { Enumeration currentEnumeration = stack.peek(); TreeNode node = (TreeNode) currentEnumeration.nextElement(); if (!currentEnumeration.hasMoreElements()) { stack.pop(); } Enumeration children = node.children(); if (children.hasMoreElements()) { stack.push(children); } return node; } } private static final class PostorderEnumeration implements Enumeration { private TreeNode root; private Enumeration children; private Enumeration subtree; @SuppressWarnings("unchecked") public PostorderEnumeration(TreeNode rootNode) { Objects.requireNonNull(rootNode); root = rootNode; children = (Enumeration) root.children(); subtree = Collections.emptyEnumeration(); } @Override public boolean hasMoreElements() { return root != null; } @Override public TreeNode nextElement() { TreeNode returnValue; if (subtree.hasMoreElements()) { returnValue = subtree.nextElement(); } else if (children.hasMoreElements()) { subtree = new PostorderEnumeration(children.nextElement()); returnValue = subtree.nextElement(); } else { returnValue = root; root = null; } return returnValue; } } private static final class BreadthFirstEnumeration implements Enumeration { private Queue queue; public BreadthFirstEnumeration(TreeNode rootNode) { Objects.requireNonNull(rootNode); queue = new Queue(); queue.enqueue(Enumerations.singleton(rootNode)); } @Override public boolean hasMoreElements() { return (!queue.isEmpty() && queue.peek().hasMoreElements()); } @Override public TreeNode nextElement() { Enumeration currentEnumeration = queue.peek(); TreeNode node = (TreeNode) currentEnumeration.nextElement(); if (!currentEnumeration.hasMoreElements()) { queue.pop(); } Enumeration children = node.children(); if (children.hasMoreElements()) { queue.enqueue(children); } return node; } // A simple queue with a linked list data structure. public final class Queue { Queue.QNode head; // null if empty Queue.QNode tail; public void enqueue(Enumeration anObject) { if (head == null) { head = tail = new Queue.QNode(anObject, null); } else { tail.next = new Queue.QNode(anObject, null); tail = tail.next; } } public void pop() { if (head == null) { throw new NoSuchElementException("No more elements"); } Queue.QNode oldHead = head; head = head.next; if (head == null) { tail = null; } else { oldHead.next = null; } } public Enumeration peek() { if (head == null) { throw new NoSuchElementException("No more elements"); } return head.object; } public boolean isEmpty() { return head == null; } final class QNode { public Enumeration object; public Queue.QNode next; // null if end public QNode(Enumeration object, Queue.QNode next) { this.object = object; this.next = next; } } } } }





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