题目:输入一棵二叉搜索树,将该二叉搜索树转换成一个排序的双向链表。要求不能创建任何新的结点,只能调整树中结点指针的指向。
方法一:非递归
1.核心是中序遍历的非递归算法。2.修改当前遍历节点与前一遍历节点的指针指向。/** public class TreeNode { int val = 0; TreeNode left = null; TreeNode right = null; public TreeNode(int val) { this.val = val; } } */ import java.util.Stack; public class Solution { public TreeNode Convert(TreeNode pRootOfTree) { if(pRootOfTree==null) return null; TreeNode p = pRootOfTree; TreeNode pre = null;// 用于保存中序遍历序列的上一节点 boolean isHead = true; //记录是否是链表起始节点 Stack<TreeNode> stack = new Stack<>(); while(p!=null || !stack.isEmpty()){ while(p!=null){ stack.push(p); p = p.left; } p = stack.pop(); if(isHead){ //起始节点 pRootOfTree = p; pre = pRootOfTree; isHead = false; }else{ pre.right = p; p.left = pre; pre = p; } p = p.right; } return pRootOfTree; } }
方法二:递归
解题思路:1.将左子树构造成双链表,并返回链表头节点。2.定位至左子树双链表最后一个节点。3.如果左子树链表不为空的话,将当前root追加到左子树链表。4.将右子树构造成双链表,并返回链表头节点。5.如果右子树链表不为空的话,将该链表追加到root节点之后。6.根据左子树链表是否为空确定返回的节点。/** public class TreeNode { int val = 0; TreeNode left = null; TreeNode right = null; public TreeNode(int val) { this.val = val; } } */ import java.util.Stack; public class Solution { public TreeNode Convert(TreeNode pRootOfTree) { if(pRootOfTree==null) return null; if(pRootOfTree.left==null&&pRootOfTree.right==null){ return pRootOfTree; } //1、将左子树构造成双链表,并返回链表头结点 TreeNode left = Convert(pRootOfTree.left); TreeNode p = left; //2、定位置左子树双链表最后一个节点 while(p!=null&&p.right!=null){ p = p.right; } //3、如果左子树链表不为空的话,将挡墙pRootOfTree添加到左子树链表 if(left!=null){ p.right = pRootOfTree; pRootOfTree.left = p; } //4、将右子树构造出双链表,并返回链表头结点 TreeNode right = Convert(pRootOfTree.right); //5、如果左子树链表不为空,将该链表追加到pRootOfTree节点之后 if(right!=null){ right.left = pRootOfTree; pRootOfTree.right = right; } return left!=null?left:pRootOfTree; } }
方法三:直接中序遍历
/** public class TreeNode { int val = 0; TreeNode left = null; TreeNode right = null; public TreeNode(int val) { this.val = val; } } */ import java.util.Stack; public class Solution { TreeNode pre = null; TreeNode head = null; //输入一棵二叉搜索树,将该二叉搜索树转换成一个排序的双向链表。要求不能创建任何新的结点,只能调整树中结点指针的指向。 public TreeNode Convert(TreeNode pRootOfTree) { if(pRootOfTree==null) return null; ConvertTree(pRootOfTree); return head; } public void ConvertTree(TreeNode pRootOfTree){ if(pRootOfTree == null) return; ConvertTree(pRootOfTree.left); if(pre == null){ //记录起始节点 pre = pRootOfTree; head = pRootOfTree; }else{ pre.right = pRootOfTree; pRootOfTree.left = pre; pre = pRootOfTree; } ConvertTree(pRootOfTree.right); } }