在二叉树中找到一个节点的后继节点
2019-11-26 本文已影响0人
Ramsey16k
【题目】 现在有一种新的二叉树节点类型如下:
public class Node {
public int value;
public Node left;
public Node right;
public Node parent;
public Node(int data) { this.value = data; }
}
该结构比普通二叉树节点结构多了一个指向父节点的parent指针。假
设有一 棵Node类型的节点组成的二叉树,树中每个节点的parent指针
都正确地指向 自己的父节点,头节点的parent指向null。只给一个在
二叉树中的某个节点 node,请实现返回node的后继节点的函数。在二
叉树的中序遍历的序列中, node的下一个节点叫作node的后继节点。
public static Node getSuccessorNode(Node node) {
if (node == null) {
return null;
}
if (node.right != null) { //当前节点存在右子树
return getLeftMost(node.right); //找右子树最左的节点
} else { // 没有右子树
Node parent = node.parent; //找父节点
while (parent != null && parent.left != node) {
//当前节点没有父节点 or 当前节点是其父节点的左孩子时,循环结束
node = parent;
parent = node.parent;
}
return parent;
}
}
完整代码:
public class SuccessorNode {
public static class Node {
public int value;
public Node left;
public Node right;
public Node parent;
public Node(int data) {
this.value = data;
}
}
public static Node getSuccessorNode(Node node) {
if (node == null) {
return null;
}
if (node.right != null) { //当前节点存在右子树
return getLeftMost(node.right); //找右子树最左的节点
} else { // 没有右子树
Node parent = node.parent; //找父节点
while (parent != null && parent.left != node) {
node = parent;
parent = node.parent;
}
return parent;
}
}
public static Node getLeftMost(Node node) {
if (node == null) {
return null;
}
while (node.left != null) {
node = node.left;
}
return node;
}
public static void main(String[] args) {
Node head = new Node(6);
head.parent = null;
head.left = new Node(3);
head.left.parent = head;
head.left.left = new Node(1);
head.left.left.parent = head.left;
head.left.left.right = new Node(2);
head.left.left.right.parent = head.left.left;
head.left.right = new Node(4);
head.left.right.parent = head.left;
head.left.right.right = new Node(5);
head.left.right.right.parent = head.left.right;
head.right = new Node(9);
head.right.parent = head;
head.right.left = new Node(8);
head.right.left.parent = head.right;
head.right.left.left = new Node(7);
head.right.left.left.parent = head.right.left;
head.right.right = new Node(10);
head.right.right.parent = head.right;
Node test = head.left.left;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.left.left.right;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.left;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.left.right;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.left.right.right;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.right.left.left;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.right.left;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.right;
System.out.println(test.value + " next: " + getSuccessorNode(test).value);
test = head.right.right; // 10's next is null
System.out.println(test.value + " next: " + getSuccessorNode(test));
}
}
