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
思路是每次一次选取一个结点为根,然后递归求解左右子树的所有结果,最后根据左右子树的返回的所有子树,依次选取然后接上(每个左边的子树跟所有右边的子树匹配,而每个右边的子树也要跟所有的左边子树匹配,总共有左右子树数量的乘积种情况),构造好之后作为当前树的结果返回。
C++代码如下:
#include<iostream> #include<new> #include<vector> using namespace std; //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) { return generate(1,n); } vector<TreeNode *> generate(int start,int end) { vector<TreeNode *> ret; if(start>end) { ret.push_back(NULL); return ret; } if(start==end) { TreeNode *root=new TreeNode(start); ret.push_back(root); return ret; } int i=start; for(i=start;i<=end;i++) { vector<TreeNode *> leftTree=generate(start,i-1); vector<TreeNode *> rightTree=generate(i+1,end); for(size_t j=0;j<leftTree.size();j++) { for(size_t k=0;k<rightTree.size();k++) { TreeNode *root=new TreeNode(i); root->left=leftTree[j]; root->right=rightTree[k]; ret.push_back(root); } } } return ret; } }; int main() { Solution s; vector<TreeNode*> vec=s.generateTrees(3); for(auto a:vec) cout<<a->val<<" "; cout<<endl; }
运行结果:
