Problem 2675 --Binary search trees - Binary Search Tree I

2675: Binary search trees - Binary Search Tree I

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Time Limit $2$ 秒/Second(s) Memory Limit $512$ 兆字节/Megabyte(s)
提交总数 $5$ 正确数量 $1$
裁判形式 标准裁判/Standard Judge 我的状态 尚未尝试
难度 分类标签 STL

Binary Search Tree I 

Search trees are data structures that support dynamic set operations including insert, search, delete and so on. Thus a search tree can be used both as a dictionary and as a priority queue.

Binary search tree is one of fundamental search trees. The keys in a binary search tree are always stored in such a way as to satisfy the following binary search tree property: 

Let x be a node in a binary search tree. If y is a node in the left subtree of x, then y.key≤x.key. If y is a node in the right subtree of x, then x.key≤y.key. 

The following figure shows an example of the binary search tree.

For example, keys of nodes which belong to the left sub-tree of the node containing 80 are less than or equal to 80, and keys of nodes which belong to the right sub-tree are more than or equal to 80. The binary search tree property allows us to print out all the keys in the tree in sorted order by an inorder tree walk. 

A binary search tree should be implemented in such a way that the binary search tree property continues to hold after modifications by insertions and deletions. A binary search tree can be represented by a linked data structure in which each node is an object. In addition to a key field and satellite data, each node contains fields left, right, and p that point to the nodes corresponding to its left child, its right child, and its parent, respectively. 

To insert a new value v into a binary search tree T, we can use the procedure insert as shown in the following pseudo code. The insert procedure is passed a node z for which z.key=v,  z.left=NIL, and z.right=NIL. The procedure modifies T and some of the fields of z in such a way that z is inserted into an appropriate position in the tree.

1 insert(T, z)

2        y = NIL // parent of x

3        x = 'the root of T'

4        while x ≠ NIL 

5            y = x // set the parent 

6            if z.key < x.key 

7                 x = x.left // move to the left child 

8          else 

9                    x = x.right // move to the right child 

10       z.p = y 

11 

12          if y == NIL // T is empty 

13                 'the root of T' = z 

14            else if   z.key < y.key 

15                     y.left = z // z is the left child of y 

16                 else 

17                     y.right = z // z is the right child of y 

Write a program which performs the following operations to a binary search tree T.

insert k: Insert a node containing k as key into T.

print: Print the keys of the binary search tree by inorder tree walk and preorder tree walk respectively.

You should use the above pseudo code to implement the insert operation. T is empty at the initial state.

In the first line, the number of operations mm is given. In the following m lines, operations represented by insert kor print are given.
For each print operation, print a list of keys obtained by inorder tree walk and preorder tree walk in a line respectively. Put a space character before each key.
8
insert 30
insert 88
insert 12
insert 1
insert 20
insert 17
insert 25
print
 1 12 17 20 25 30 88
 30 12 1 20 17 25 88

The number of operations ≤500,000

The number of print operations ≤10

−2,000,000,000≤key≤2,000,000,000 

The height of the binary tree does not exceed 100 if you employ the above pseudo code. 

The keys in the binary search tree are all different.

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本题记录 用 户(点击查看用户) 运行号(点击购买题解) 时 间
算法最快[$514 $ms] 王天驰 807849 2022-01-21 11:38:40
内存最少[$17656 $KB] 王天驰 807849 2022-01-21 11:38:40
第一AC 王天驰 807849 2022-01-21 11:38:40
第一挑战 王天驰 807848 2022-01-21 11:36:46

赛题来源/所属竞赛 会津大学《挑战数据结构与算法》 挑战数据结构与算法

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