Merge pull request #29 from Reanon/feature/support-go-chapter-tree
Support go code in chapter-tree
This commit is contained in:
commit
62c40fdf1b
@ -1,5 +1,5 @@
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// File: binary_search_tree.go
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// File: binary_search_tree.go
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// Created Time: 2022-11-25
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// Created Time: 2022-11-26
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// Author: Reanon (793584285@qq.com)
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// Author: Reanon (793584285@qq.com)
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package chapter_tree
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package chapter_tree
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@ -14,7 +14,166 @@ type BinarySearchTree struct {
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}
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}
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func NewBinarySearchTree(nums []int) *BinarySearchTree {
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func NewBinarySearchTree(nums []int) *BinarySearchTree {
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// 排序数组
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// sorting array
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sort.Ints(nums)
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sort.Ints(nums)
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return nil
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root := buildBinarySearchTree(nums, 0, len(nums)-1)
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return &BinarySearchTree{
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root: root,
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}
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}
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// GetRoot Get the root node of binary search tree
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func (bst *BinarySearchTree) GetRoot() *TreeNode {
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return bst.root
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}
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// GetMin Get node with the min value
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func (bst *BinarySearchTree) GetMin(node *TreeNode) *TreeNode {
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if node == nil {
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return node
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}
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// 循环访问左子结点,直到叶结点时为最小结点,跳出
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for node.Left != nil {
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node = node.Left
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}
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return node
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}
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// GetInorderNext Get node inorder next
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func (bst *BinarySearchTree) GetInorderNext(node *TreeNode) *TreeNode {
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if node == nil || node.Right == nil {
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return node
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}
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node = node.Right
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// 循环访问左子结点,直到叶结点时为最小结点,跳出
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for node.Left != nil {
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node = node.Left
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}
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return node
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}
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// Search node of binary search tree
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func (bst *BinarySearchTree) Search(num int) *TreeNode {
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node := bst.root
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// 循环查找,越过叶结点后跳出
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for node != nil {
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if node.Val < num {
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// 目标结点在 root 的右子树中
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node = node.Right
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} else if node.Val > num {
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// 目标结点在 root 的左子树中
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node = node.Left
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} else {
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// 找到目标结点,跳出循环
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break
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}
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}
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// 返回目标结点
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return node
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}
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// Insert node of binary search tree
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func (bst *BinarySearchTree) Insert(num int) *TreeNode {
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cur := bst.root
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// 若树为空,直接提前返回
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if cur == nil {
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return nil
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}
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// 待插入结点之前的结点位置
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var prev *TreeNode = nil
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// 循环查找,越过叶结点后跳出
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for cur != nil {
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if cur.Val == num {
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return nil
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}
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prev = cur
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if cur.Val < num {
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cur = cur.Right
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} else {
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cur = cur.Left
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}
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}
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// 插入结点
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node := NewTreeNode(num)
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if prev.Val < num {
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prev.Right = node
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} else {
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prev.Left = node
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}
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return cur
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}
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// Remove node of binary search tree
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func (bst *BinarySearchTree) Remove(num int) *TreeNode {
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cur := bst.root
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// 若树为空,直接提前返回
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if cur == nil {
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return nil
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}
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// 待删除结点之前的结点位置
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var prev *TreeNode = nil
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// 循环查找,越过叶结点后跳出
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for cur != nil {
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if cur.Val == num {
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break
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}
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prev = cur
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// 待删除结点在右子树中
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if cur.Val < num {
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cur = cur.Right
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} else {
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// 待删除结点在左子树中
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cur = cur.Left
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}
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}
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// 若无待删除结点,则直接返回
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if cur == nil {
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return nil
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}
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// 子结点数为 0 或 1
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if cur.Left == nil || cur.Right == nil {
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var child *TreeNode = nil
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// 取出待删除结点的子结点
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if cur.Left != nil {
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child = cur.Left
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} else {
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child = cur.Right
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}
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// 将子结点替换为待删除结点
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if prev.Left == cur {
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prev.Left = child
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} else {
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prev.Right = child
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}
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} else { // 子结点数为 2
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// 获取中序遍历中待删除结点 cur 的下一个结点
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next := bst.GetInorderNext(cur)
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temp := next.Val
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// 递归删除结点 next
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bst.Remove(next.Val)
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// 将 next 的值复制给 cur
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cur.Val = temp
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}
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// TODO: add error handler, don't return node
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return cur
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}
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// buildBinarySearchTree Build a binary search tree from array.
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func buildBinarySearchTree(nums []int, left, right int) *TreeNode {
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if left > right {
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return nil
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}
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// 将数组中间结点作为根结点
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middle := left + (right-left)>>1
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root := NewTreeNode(nums[middle])
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// 递归构建左子树和右子树
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root.Left = buildBinarySearchTree(nums, left, middle-1)
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root.Right = buildBinarySearchTree(nums, middle+1, right)
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return root
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}
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// Print binary search tree
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func (bst *BinarySearchTree) Print() {
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PrintTree(bst.root)
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}
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}
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41
codes/go/chapter_tree/binary_search_tree_test.go
Normal file
41
codes/go/chapter_tree/binary_search_tree_test.go
Normal file
@ -0,0 +1,41 @@
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// File: binary_search_tree_test.go
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// Created Time: 2022-11-26
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// Author: Reanon (793584285@qq.com)
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package chapter_tree
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import "testing"
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func TestBinarySearchTree(t *testing.T) {
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nums := []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15}
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bst := NewBinarySearchTree(nums)
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t.Log("初始化的二叉树为: ")
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bst.Print()
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// 获取根结点
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node := bst.GetRoot()
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t.Log("二叉树的根结点为: ", node.Val)
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// 获取最小的结点
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node = bst.GetMin(bst.GetRoot())
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t.Log("二叉树的最小结点为: ", node.Val)
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// 查找结点
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node = bst.Search(5)
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t.Log("查找到的结点对象为", node, ",结点值 = ", node.Val)
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// 插入结点
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node = bst.Insert(16)
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t.Log("插入结点后 16 的二叉树为: ")
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bst.Print()
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// 删除结点
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bst.Remove(1)
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t.Log("删除结点 1 后的二叉树为: ")
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bst.Print()
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bst.Remove(2)
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t.Log("删除结点 2 后的二叉树为: ")
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bst.Print()
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bst.Remove(4)
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t.Log("删除结点 4 后的二叉树为: ")
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bst.Print()
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}
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35
codes/go/chapter_tree/binary_tree_bfs.go
Normal file
35
codes/go/chapter_tree/binary_tree_bfs.go
Normal file
@ -0,0 +1,35 @@
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// File: binary_tree_bfs.go
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// Created Time: 2022-11-26
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// Author: Reanon (793584285@qq.com)
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package chapter_tree
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import (
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"container/list"
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. "github.com/krahets/hello-algo/pkg"
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)
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// levelOrder Breadth First Search
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func levelOrder(root *TreeNode) []int {
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// Let container.list as queue
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queue := list.New()
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// 初始化队列,加入根结点
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queue.PushBack(root)
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// 初始化一个切片,用于保存遍历序列
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nums := make([]int, 0)
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for queue.Len() > 0 {
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// poll
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node := queue.Remove(queue.Front()).(*TreeNode)
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// 保存结点
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nums = append(nums, node.Val)
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if node.Left != nil {
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// 左子结点入队
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queue.PushBack(node.Left)
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}
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if node.Right != nil {
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// 右子结点入队
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queue.PushBack(node.Right)
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}
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}
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return nums
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}
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22
codes/go/chapter_tree/binary_tree_bfs_test.go
Normal file
22
codes/go/chapter_tree/binary_tree_bfs_test.go
Normal file
@ -0,0 +1,22 @@
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// File: binary_tree_bfs_test.go
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// Created Time: 2022-11-26
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// Author: Reanon (793584285@qq.com)
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package chapter_tree
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import (
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. "github.com/krahets/hello-algo/pkg"
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"testing"
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)
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func TestLevelOrder(t *testing.T) {
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/* 初始化二叉树 */
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// 这里借助了一个从数组直接生成二叉树的函数
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root := ArrayToTree([]int{1, 2, 3, 4, 5, 6, 7})
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t.Log("初始化二叉树: ")
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PrintTree(root)
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// 层序遍历
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nums := levelOrder(root)
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t.Log("层序遍历的结点打印序列 = ", nums)
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}
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63
codes/go/chapter_tree/binary_tree_dfs.go
Normal file
63
codes/go/chapter_tree/binary_tree_dfs.go
Normal file
@ -0,0 +1,63 @@
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// File: binary_tree_dfs.go
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// Created Time: 2022-11-26
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// Author: Reanon (793584285@qq.com)
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package chapter_tree
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import (
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. "github.com/krahets/hello-algo/pkg"
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)
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// preOrder 前序遍历
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func preOrder(root *TreeNode) (nums []int) {
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var preOrderHelper func(node *TreeNode)
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// 匿名函数
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preOrderHelper = func(node *TreeNode) {
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if node == nil {
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return
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}
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// 访问优先级:根结点 -> 左子树 -> 右子树
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nums = append(nums, node.Val)
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preOrderHelper(node.Left)
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preOrderHelper(node.Right)
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}
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// 函数调用
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preOrderHelper(root)
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return
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}
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// inOrder 中序遍历
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func inOrder(root *TreeNode) (nums []int) {
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var inOrderHelper func(node *TreeNode)
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// 匿名函数
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inOrderHelper = func(node *TreeNode) {
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if node == nil {
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return
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}
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// 访问优先级:左子树 -> 根结点 -> 右子树
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inOrderHelper(node.Left)
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nums = append(nums, node.Val)
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inOrderHelper(node.Right)
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}
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// 函数调用
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inOrderHelper(root)
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return
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}
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// postOrder 后序遍历
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func postOrder(root *TreeNode) (nums []int) {
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var postOrderHelper func(node *TreeNode)
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// 匿名函数
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postOrderHelper = func(node *TreeNode) {
|
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|
if node == nil {
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|
return
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}
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// 访问优先级:左子树 -> 右子树 -> 根结点
|
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postOrderHelper(node.Left)
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postOrderHelper(node.Right)
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nums = append(nums, node.Val)
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}
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// 函数调用
|
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postOrderHelper(root)
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return
|
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|
}
|
30
codes/go/chapter_tree/binary_tree_dfs_test.go
Normal file
30
codes/go/chapter_tree/binary_tree_dfs_test.go
Normal file
@ -0,0 +1,30 @@
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|||||||
|
// File: binary_tree_dfs_test.go
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||||||
|
// Created Time: 2022-11-26
|
||||||
|
// Author: Reanon (793584285@qq.com)
|
||||||
|
|
||||||
|
package chapter_tree
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|
|
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|
import (
|
||||||
|
. "github.com/krahets/hello-algo/pkg"
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|
"testing"
|
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|
)
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|
|
||||||
|
func TestPreInPostOrderTraversal(t *testing.T) {
|
||||||
|
/* 初始化二叉树 */
|
||||||
|
// 这里借助了一个从数组直接生成二叉树的函数
|
||||||
|
root := ArrayToTree([]int{1, 2, 3, 4, 5, 6, 7})
|
||||||
|
t.Log("初始化二叉树: ")
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|
PrintTree(root)
|
||||||
|
|
||||||
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// 前序遍历
|
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nums := preOrder(root)
|
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t.Log("前序遍历的结点打印序列 = ", nums)
|
||||||
|
|
||||||
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// 中序遍历
|
||||||
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nums = inOrder(root)
|
||||||
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t.Log("中序遍历的结点打印序列 = ", nums)
|
||||||
|
|
||||||
|
// 后序遍历
|
||||||
|
nums = postOrder(root)
|
||||||
|
t.Log("后序遍历的结点打印序列 = ", nums)
|
||||||
|
}
|
@ -11,7 +11,7 @@ import (
|
|||||||
|
|
||||||
func TestBinaryTree(t *testing.T) {
|
func TestBinaryTree(t *testing.T) {
|
||||||
/* 初始化二叉树 */
|
/* 初始化二叉树 */
|
||||||
// 初始化节点
|
// 初始化结点
|
||||||
n1 := NewTreeNode(1)
|
n1 := NewTreeNode(1)
|
||||||
n2 := NewTreeNode(2)
|
n2 := NewTreeNode(2)
|
||||||
n3 := NewTreeNode(3)
|
n3 := NewTreeNode(3)
|
||||||
|
@ -51,11 +51,11 @@ func ArrayToTree(arr []int) *TreeNode {
|
|||||||
}
|
}
|
||||||
|
|
||||||
// TreeToArray Serialize a binary tree to a list
|
// TreeToArray Serialize a binary tree to a list
|
||||||
func TreeToArray(root *TreeNode) []int {
|
func TreeToArray(root *TreeNode) []any {
|
||||||
if root == nil {
|
if root == nil {
|
||||||
return []int{}
|
return []any{}
|
||||||
}
|
}
|
||||||
arr := make([]int, 16)
|
arr := make([]any, 0)
|
||||||
queue := list.New()
|
queue := list.New()
|
||||||
queue.PushBack(root)
|
queue.PushBack(root)
|
||||||
for queue.Len() > 0 {
|
for queue.Len() > 0 {
|
||||||
@ -65,7 +65,8 @@ func TreeToArray(root *TreeNode) []int {
|
|||||||
queue.PushBack(node.Left)
|
queue.PushBack(node.Left)
|
||||||
queue.PushBack(node.Right)
|
queue.PushBack(node.Right)
|
||||||
} else {
|
} else {
|
||||||
arr = append(arr, -1)
|
// node don't exist.
|
||||||
|
arr = append(arr, nil)
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
return arr
|
return arr
|
||||||
@ -73,19 +74,19 @@ func TreeToArray(root *TreeNode) []int {
|
|||||||
|
|
||||||
// PrintTree Print a binary tree
|
// PrintTree Print a binary tree
|
||||||
func PrintTree(root *TreeNode) {
|
func PrintTree(root *TreeNode) {
|
||||||
PrintTreeHelper(root, nil, false)
|
printTreeHelper(root, nil, false)
|
||||||
}
|
}
|
||||||
|
|
||||||
// PrintTreeHelper Help to print a binary tree, hide more details
|
// printTreeHelper Help to print a binary tree, hide more details
|
||||||
// This tree printer is borrowed from TECHIE DELIGHT
|
// This tree printer is borrowed from TECHIE DELIGHT
|
||||||
// https://www.techiedelight.com/c-program-print-binary-tree/
|
// https://www.techiedelight.com/c-program-print-binary-tree/
|
||||||
func PrintTreeHelper(root *TreeNode, prev *trunk, isLeft bool) {
|
func printTreeHelper(root *TreeNode, prev *trunk, isLeft bool) {
|
||||||
if root == nil {
|
if root == nil {
|
||||||
return
|
return
|
||||||
}
|
}
|
||||||
prevStr := " "
|
prevStr := " "
|
||||||
trunk := newTrunk(prev, prevStr)
|
trunk := newTrunk(prev, prevStr)
|
||||||
PrintTreeHelper(root.Right, trunk, true)
|
printTreeHelper(root.Right, trunk, true)
|
||||||
if prev == nil {
|
if prev == nil {
|
||||||
trunk.str = "———"
|
trunk.str = "———"
|
||||||
} else if isLeft {
|
} else if isLeft {
|
||||||
@ -101,7 +102,7 @@ func PrintTreeHelper(root *TreeNode, prev *trunk, isLeft bool) {
|
|||||||
prev.str = prevStr
|
prev.str = prevStr
|
||||||
}
|
}
|
||||||
trunk.str = " |"
|
trunk.str = " |"
|
||||||
PrintTreeHelper(root.Left, trunk, false)
|
printTreeHelper(root.Left, trunk, false)
|
||||||
}
|
}
|
||||||
|
|
||||||
// trunk Help to Print tree structure
|
// trunk Help to Print tree structure
|
||||||
|
@ -12,4 +12,7 @@ func TestTreeNode(t *testing.T) {
|
|||||||
|
|
||||||
// print tree
|
// print tree
|
||||||
PrintTree(node)
|
PrintTree(node)
|
||||||
|
|
||||||
|
// tree to arr
|
||||||
|
t.Log(TreeToArray(node))
|
||||||
}
|
}
|
||||||
|
@ -63,11 +63,11 @@ comments: true
|
|||||||
|
|
||||||
给定一个待插入元素 `num` ,为了保持二叉搜索树 “左子树 < 根结点 < 右子树” 的性质,插入操作分为两步:
|
给定一个待插入元素 `num` ,为了保持二叉搜索树 “左子树 < 根结点 < 右子树” 的性质,插入操作分为两步:
|
||||||
|
|
||||||
1. **查找插入位置:** 与查找操作类似,我们从根结点出发,根据当前节点值和 `num` 的大小关系循环向下搜索,直到越过叶结点(遍历到 $\text{null}$ )时跳出循环;
|
1. **查找插入位置:** 与查找操作类似,我们从根结点出发,根据当前结点值和 `num` 的大小关系循环向下搜索,直到越过叶结点(遍历到 $\text{null}$ )时跳出循环;
|
||||||
|
|
||||||
2. **在该位置插入结点:** 初始化结点 `num` ,将该结点放到 $\text{null}$ 的位置 ;
|
2. **在该位置插入结点:** 初始化结点 `num` ,将该结点放到 $\text{null}$ 的位置 ;
|
||||||
|
|
||||||
二叉搜索树不允许存在重复节点,否则将会违背其定义。因此若待插入结点在树中已经存在,则不执行插入,直接返回即可。
|
二叉搜索树不允许存在重复结点,否则将会违背其定义。因此若待插入结点在树中已经存在,则不执行插入,直接返回即可。
|
||||||
|
|
||||||
![bst_insert](binary_search_tree.assets/bst_insert.png)
|
![bst_insert](binary_search_tree.assets/bst_insert.png)
|
||||||
|
|
||||||
|
@ -24,7 +24,7 @@ comments: true
|
|||||||
|
|
||||||
<p align="center"> Fig. 子结点与子树 </p>
|
<p align="center"> Fig. 子结点与子树 </p>
|
||||||
|
|
||||||
需要注意,父结点、子结点、子树是可以向下递推的。例如,如果将上图的「结点 2」看作父结点,那么其左子节点和右子结点分别为「结点 4」和「结点 5」,左子树和右子树分别为「结点 4 以下的树」和「结点 5 以下的树」。
|
需要注意,父结点、子结点、子树是可以向下递推的。例如,如果将上图的「结点 2」看作父结点,那么其左子结点和右子结点分别为「结点 4」和「结点 5」,左子树和右子树分别为「结点 4 以下的树」和「结点 5 以下的树」。
|
||||||
|
|
||||||
## 二叉树常见术语
|
## 二叉树常见术语
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user