Given a tree, you are supposed to tell if it is a complete binary tree.
Input Specification:
Each input file contains one test case. For each case, the first line gives a positive integer N (≤) which is the total number of nodes in the tree -- and hence the nodes are numbered from 0 to N−1. Then N lines follow, each corresponds to a node, and gives the indices of the left and right children of the node. If the child does not exist, a - will be put at the position. Any pair of children are separated by a space.
Output Specification:
For each case, print in one line YES and the index of the last node if the tree is a complete binary tree, or NO and the index of the root if not. There must be exactly one space separating the word and the number.
Sample Input 1:
9
7 8
- -
- -
- -
0 1
2 3
4 5
- -
- -
Sample Output 1:
YES 8
Sample Input 2:
8
- -
4 5
0 6
- -
2 3
- 7
- -
- -
Sample Output 2:
NO 1完全二叉树的判定,我们可以通过层序遍历,看看有无空缺即可,如果是完全二叉树,打印层序最后一个节点,否则打印第一个。
#include <iostream> #include <vector> #include <queue> using namespace std; struct node { int v; string left, right; }n[30]; int N, root = 0, last; bool isComplete(int root) { queue<int> que; que.push(root); bool flag = 1, ret = true; while(!que.empty()) { node tmp = n[que.front()]; que.pop(); last = tmp.v; if(tmp.left != "-") que.push(stoi(tmp.left)); if(tmp.right != "-") que.push(stoi(tmp.right)); if(flag) { if(tmp.left != "-" && tmp.right != "-") { } else if(tmp.left != "-") { flag = 0; } else if(tmp.right != "-") { ret = false; } else { flag = 0; } } else { if(tmp.left != "-" || tmp.right != "-") ret = false; } } return ret; } int main() { cin >> N; vector<int> find_root(N, 0); for(int i = 0; i < N; i++) { n[i].v = i; cin >> n[i].left >> n[i].right; if(n[i].left != "-") find_root[stoi(n[i].left)] = 1; if(n[i].right != "-") find_root[stoi(n[i].right)] = 1; } while(root < N && find_root[root]) root++; bool complete = isComplete(root); printf("%s %d ", complete ? "YES": "NO", complete ? last: root); return 0; }