LeetCode:Unique Binary Search Trees I II

时间:2022-07-17 08:12:53

LeetCode:Unique Binary Search Trees

Given n, how many structurally unique BST's (binary search trees) that store values 1...n?

For example,
Given n = 3, there are a total of 5 unique BST's.

   1         3     3      2      1

    \       /     /      / \      \

     3     2     1      1   3      2

    /     /       \                 \

   2     1         2                 3

分析:依次把每个节点作为根节点,左边节点作为左子树,右边节点作为右子树,那么总的数目等于左子树数目*右子树数目,实际只要求出前半部分节点作为根节点的树的数目,然后乘以2(奇数个节点还要加上中间节点作为根的二叉树数目)

递归代码:为了避免重复计算子问题,用数组保存已经计算好的结果

 class Solution {

 public:

     int numTrees(int n) {

         // IMPORTANT: Please reset any member data you declared, as

         // the same Solution instance will be reused for each test case.

         int nums[n+]; //nums[i]表示i个节点的二叉查找树的数目

         memset(nums, , sizeof(nums));

         return numTreesRecur(n, nums);

     }

     int numTreesRecur(int n, int nums[])

     {

         if(nums[n] != )return nums[n];

         if(n == ){nums[] = ; return ;}

         int tmp = (n>>);

         for(int i = ; i <= tmp; i++)

         {

             int left,right;

             if(nums[i-])left = nums[i-];

             else left = numTreesRecur(i-, nums);

             if(nums[n-i])right = nums[n-i];

             else right = numTreesRecur(n-i, nums);

             nums[n] += left*right;

         }

         nums[n] <<= ;

         if(n %  != )

         {

             int val;

             if(nums[tmp])val = nums[tmp];

             else val = numTreesRecur(tmp, nums);

             nums[n] += val*val;

         }

         return nums[n];

     }

 };

非递归代码:从0个节点的二叉查找树数目开始自底向上计算,dp方程为nums[i] = sum(nums[k-1]*nums[i-k]) (k = 1,2,3...i)

 class Solution {

 public:

     int numTrees(int n) {

         // IMPORTANT: Please reset any member data you declared, as

         // the same Solution instance will be reused for each test case.

         int nums[n+]; //num[i]表示i个节点的二叉查找树数目

         memset(nums, , sizeof(nums));

         nums[] = ;

         for(int i = ; i <= n; i++)

         {

             int tmp = (i>>);

             for(int j = ; j <= tmp; j++)

                 nums[i] += nums[j-]*nums[i-j];

             nums[i] <<= ;

             if(i %  != )

                 nums[i] += nums[tmp]*nums[tmp];

         }

         return nums[n];

     }

 };

LeetCode:Unique Binary Search Trees II

Given n, generate all structurally unique BST's (binary search trees) that store values 1...n.

For example,
Given n = 3, your program should return all 5 unique BST's shown below.

   1         3     3      2      1

    \       /     /      / \      \

     3     2     1      1   3      2

    /     /       \                 \

   2     1         2                 3

按照上一题的思路,我们不仅仅要保存i个节点对应的BST树的数目,还要保存所有的BST树,而且1、2、3和4、5、6虽然对应的BST数目和结构一样,但是BST树是不一样的,因为节点值不同。

我们用数组btrees[i][j][]保存节点i, i+1,...j-1,j构成的所有二叉树,从节点数目为1的的二叉树开始自底向上最后求得节点数目为n的所有二叉树                                                                               本文地址

 /**

  * Definition for binary tree

  * struct TreeNode {

  *     int val;

  *     TreeNode *left;

  *     TreeNode *right;

  *     TreeNode(int x) : val(x), left(NULL), right(NULL) {}

  * };

  */

 class Solution {

 public:

     vector<TreeNode *> generateTrees(int n) {

         // IMPORTANT: Please reset any member data you declared, as

         // the same Solution instance will be reused for each test case.

         vector<vector<vector<TreeNode*> > > btrees(n+, vector<vector<TreeNode*> >(n+, vector<TreeNode*>()));

         for(int i = ; i <= n+; i++)

             btrees[i][i-].push_back(NULL); //为了下面处理btrees[i][j]时 i > j的边界情况

         for(int k = ; k <= n; k++)//k表示节点数目

             for(int i = ; i <= n-k+; i++)//i表示起始节点

             {

                 for(int rootval = i; rootval <= k+i-; rootval++)

                 {//求[i,i+1,...i+k-1]序列对应的所有BST树

                     for(int m = ; m < btrees[i][rootval-].size(); m++)//左子树

                         for(int n = ; n < btrees[rootval+][k+i-].size(); n++)//右子树

                         {

                             TreeNode *root = new TreeNode(rootval);

                             root->left = btrees[i][rootval-][m];

                             root->right = btrees[rootval+][k+i-][n];

                             btrees[i][k+i-].push_back(root);

                         }

                 }

             }

         return btrees[][n];

     }

 };

【版权声明】转载请注明出处:http://www.cnblogs.com/TenosDoIt/p/3448569.html

相关文章