Input Specification:
Each input file contains one test case. For each case, the first line gives two positive integers N and M (both no more than 104), being the total numbers of vertices and the edges, respectively. Then M lines follow, each describes an edge by giving the indices (from 0 to N-1) of the two ends of the edge.
After the graph, a positive integer K (<= 100) is given, which is the number of queries. Then K lines of queries follow, each in the format:Nv v[1] v[2] ... v[Nv]
where Nv is the number of vertices in the set, and v[i]'s are the indices of the vertices.
Output Specification:
For each query, print in a line "Yes" if the set is a vertex cover, or "No" if not.
Sample Input:
10 11
8 7
6 8
4 5
8 4
8 1
1 2
1 4
9 8
9 1
1 0
2 4
5
4 0 3 8 4
6 6 1 7 5 4 9
3 1 8 4
2 2 8
7 9 8 7 6 5 4 2
No
Yes
Yes
No
No
题目大意:n个顶点和m条边的图,分别给出m条边的两端顶点,然后对其进行k次查询,每次查询输入一个顶点集合,要求判断这个顶点集合是否能完成顶点覆盖,即图中的每一条边都至少有一个顶点在这个集合中。
主要思路:这道题最关键的就是图的建立,这里图的输入并不是给出的顶点及其邻接点的关系,而是给出所有边的两端顶点,如果仍然用二维矩阵的方法构造,后续的操作很容易就超时。这里用一个二维的vector容器,对于图中的每个点,添加其所有关联的边,用0 ~ m-1代表所有的m条边,图模型就构造好了。接着,对于点覆盖问题,可以转化成判断集合中每个点所关联的边加起来是否等于图的边数m,由于这里边不能重复,自然而然想到set容器,将要查询的集合中每个点的所有关联边加入set,如果数量等于图的边数m,则完成顶点覆盖,否则不能。
#include <iostream>
#include <vector>
#include <set>
using namespace std;
int main(void) {
int n, m, i, j;
cin >> n >> m;
vector<vector<int> > edge(n);
for (i = 0; i < m; i++) {
int v, w;
cin >> v >> w;
edge[v].push_back(i);
edge[w].push_back(i);
}
int k, nv, ver, t;
set<int> s;
cin >> k;
for (i = 0; i < k; i++) {
cin >> nv;
for (j = 0; j < nv; j++) {
cin >> ver;
for (t = 0; t < edge[ver].size(); t++)
s.insert(edge[ver][t]);
}
if (s.size() == m) cout << "Yes" << endl;
else cout << "No" << endl;
s.clear(); //清空set集合
}
return 0;
}
总结:构造模型时不要定式思维;关于查询,尽量用少的数据去多的数据里查,避免从多的数据往少的数据里查。