重建二叉树
题目描述
输入某二叉树的前序遍历和中序遍历的结果,请重建出该二叉树。假设输入的前序遍历和中序遍历的结果中都不含重复的数字。例如输入前序遍历序列{1,2,4,7,3,5,6,8}和中序遍历序列{4,7,2,1,5,3,8,6},则重建二叉树并返回。
思路
1557478047042.png
比如上图,A:根节点、B:左节点、C:右节点,前序顺序是ABC(根节点排最先,然后同级先左后右);中序顺序是BAC(先左后根最后右);后序顺序是BCA(先左后右最后根)。可以根据前序顺序,得到根节点,然后根据根节点将中序分成两个子树。然后获取从前序获取子树的根节点,依次迭代。
代码
TreeNode.java
public class TreeNode {
int val;
TreeNode left;
TreeNode right;
TreeNode(int x) { val = x; }
}
Solution.java
import java.util.ArrayList;
public class Solution {
/***
* 根据前序和中序,重构二叉树
* @param pre 前序
* @param in 中序
* @return 返回头结点
*/
public TreeNode reConstructBinaryTree(int [] pre,int [] in) {
TreeNode root=new TreeNode(pre[0]);
ArrayList<Integer> AIn = new ArrayList<Integer>();
for (int x =0;x<in.length;x++){
AIn.add(in[x]);
}
ArrayList<Integer> APre = new ArrayList<Integer>();
for (int x =0;x<in.length;x++){
APre.add(pre[x]);
}
// this.shortPre(root);
APre.remove(0);
root=this.Construct(root,APre,AIn);
return root;
}
/***
* 重构二叉树的循环,划分子树
* @param root 头结点
* @param pre 前序
* @param in 中序
* @return 头结点
*/
public TreeNode Construct(TreeNode root,ArrayList<Integer> pre,ArrayList<Integer> in){
int value = root.val;
ArrayList<Integer> LIn = new ArrayList<Integer>();
ArrayList<Integer> RIn = new ArrayList<Integer>();
boolean state = true;
for(int x =0;x<in.size();x++){
if (in.get(x) == value){
state=false;
}else{
if (state){
LIn.add(in.get(x));
}else{
RIn.add(in.get(x));
}
}
}
if(LIn.size()==1){
TreeNode leftNode=new TreeNode(LIn.get(0));
root.left=leftNode;
if(pre.contains(LIn.get(0))){
pre.remove(LIn.get(0));
}
}
if(LIn.size()>1){
TreeNode newRoot=new TreeNode(pre.get(0));
pre.remove(0);
TreeNode leftNode=this.Construct(newRoot,pre,LIn);
root.left=leftNode;
}
if(RIn.size()==1){
TreeNode rightNode=new TreeNode(RIn.get(0));
root.right=rightNode;
if(pre.contains(RIn.get(0))){
pre.remove(RIn.get(0));
}
}
if(RIn.size()>1){
TreeNode newRoot=new TreeNode(pre.get(0));
pre.remove(0);
TreeNode rightNode=this.Construct(newRoot,pre,RIn);
root.right=rightNode;
}
return root;
}
/***
* 构建一个树的实例
* @return 头结点
*/
public TreeNode create(){
TreeNode root=new TreeNode(1);
root.left=new TreeNode(2);
root.right=new TreeNode(5);
root.left.right=new TreeNode(3);
root.right.right=new TreeNode(6);
root.left.right.left=new TreeNode(4);
root.right.right.left=new TreeNode(7);
root.right.right.left.left=new TreeNode(8);
root.right.right.left.right=new TreeNode(9);
return root;
}
/***
* 打印前序序列
* @param root 头结点
*/
public void printQian(TreeNode root){
ArrayList<Integer> result=new ArrayList<Integer>();
result=this.loopQian(root,result);
for (int x = 0;x<result.size();x++){
System.out.print(result.get(x));
System.out.print(",");
}
}
/***
* 根据头结点,进行前序遍历的循环体
* @param root 头结点
* @param leaf 前序序列
* @return 前序序列
*/
public ArrayList<Integer> loopQian(TreeNode root,ArrayList<Integer> leaf){
leaf.add(root.val);
if(root.left != null){
leaf=this.loopQian(root.left,leaf);
}
if(root.right != null){
leaf=this.loopQian(root.right,leaf);
}
return leaf;
}
}
