hello-algo/codes/csharp/chapter_divide_and_conquer/build_tree.cs
hpstory 56b20eff36
feat(csharp) .NET 8.0 code migration (#966)
* .net 8.0 migration

* update docs

* revert change

* revert change and update appendix docs

* remove static

* Update binary_search_insertion.cs

* Update binary_search_insertion.cs

* Update binary_search_edge.cs

* Update binary_search_insertion.cs

* Update binary_search_edge.cs

---------

Co-authored-by: Yudong Jin <krahets@163.com>
2023-11-26 23:18:44 +08:00

49 lines
1.6 KiB
C#

/**
* File: build_tree.cs
* Created Time: 2023-07-18
* Author: hpstory (hpstory1024@163.com)
*/
namespace hello_algo.chapter_divide_and_conquer;
public class build_tree {
/* 构建二叉树:分治 */
TreeNode? DFS(int[] preorder, Dictionary<int, int> inorderMap, int i, int l, int r) {
// 子树区间为空时终止
if (r - l < 0)
return null;
// 初始化根节点
TreeNode root = new(preorder[i]);
// 查询 m ,从而划分左右子树
int m = inorderMap[preorder[i]];
// 子问题:构建左子树
root.left = DFS(preorder, inorderMap, i + 1, l, m - 1);
// 子问题:构建右子树
root.right = DFS(preorder, inorderMap, i + 1 + m - l, m + 1, r);
// 返回根节点
return root;
}
/* 构建二叉树 */
TreeNode? BuildTree(int[] preorder, int[] inorder) {
// 初始化哈希表,存储 inorder 元素到索引的映射
Dictionary<int, int> inorderMap = [];
for (int i = 0; i < inorder.Length; i++) {
inorderMap.TryAdd(inorder[i], i);
}
TreeNode? root = DFS(preorder, inorderMap, 0, 0, inorder.Length - 1);
return root;
}
[Test]
public void Test() {
int[] preorder = [3, 9, 2, 1, 7];
int[] inorder = [9, 3, 1, 2, 7];
Console.WriteLine("前序遍历 = " + string.Join(", ", preorder));
Console.WriteLine("中序遍历 = " + string.Join(", ", inorder));
TreeNode? root = BuildTree(preorder, inorder);
Console.WriteLine("构建的二叉树为:");
PrintUtil.PrintTree(root);
}
}