题意
在区间[0,50000]上有一些整点,并且满足n个约束条件:在区间[ui, vi]上至少有ci个整点,问区间[0, 50000]上至少要有几个整点。
思路
差分约束求最小值。把不等式都转换为>=形式,那么显然有x
vi >= x
ui-1 + ci,那么就在约束图中连一条(ui-1, vi, ci)的边;当然不要忘记隐含的不等式:x
i >= x
i-1 + 0; x
i-1 >= x
i -1. 建完图后SPFA求最长路径即可
代码
[cpp] #include <iostream> #include <cstdio> #include <cmath> #include <vector> #include <algorithm> #include <string> #include <queue> #include <cstring> #define MID(x,y) ((x+y)/2) #define MEM(a,b) memset(a,b,sizeof(a)) #define REP(i, begin, m) for (int i = begin; i < begin+m; i ++) using namespace std; const int MAXN = 50005; const int oo = 0x3fffffff; struct Edge{ int to; int w; Edge(){} Edge(int _to, int _w){ to = _to; w = _w; } }; struct Gragh{ vector <Edge> adj[MAXN]; queue <int> q; int vn; int dist[MAXN], inq_num[MAXN]; bool inq[MAXN]; void init(int n){ vn = n; for (int i = 0; i <= n; i ++) adj[i].clear(); } //if xj >= xi + c, add (i, j, c) void add_edge(int u, int v, int w){ adj[u].push_back(Edge(v, w)); } //spfa calculate longest path bool solve(int s, int t){ while(!q.empty()) q.pop(); MEM(inq, false); MEM(inq_num, 0); MEM(dist, -1); //Note : dist shouldn't initially be 0 dist[s] = 0; inq[s] = true; inq_num[s] ++; q.push(s); while(!q.empty()){ int u = q.front(); q.pop(); inq[u] = false; for (int i = 0; i < adj[u].size(); i ++){ int v = adj[u][i].to; if (dist[v] < dist[u] + adj[u][i].w){ dist[v] = dist[u] + adj[u][i].w; if (!inq[v]){ inq[v] = true; inq_num[v] ++; if (inq_num[v] > vn) return false; q.push(v); } } } } if (dist[t] < oo){ return true; } } }spfa; struct intervals{ int u, v, w; }inte[MAXN]; int main(){ //freopen("test.in", "r", stdin); //freopen("test.out", "w", stdout); int n; while(scanf("%d", &n) != EOF){ int maxn = 0; REP(i, 1, n){ scanf("%d %d %d", &inte[i].u, &inte[i].v, &inte[i].w); inte[i].u ++, inte[i].v ++; maxn = max(maxn, inte[i].v); } spfa.init(maxn+1); REP(i, 1, maxn){ spfa.add_edge(i-1, i, 0); spfa.add_edge(i, i-1, -1); } REP(i, 1, n){ spfa.add_edge(inte[i].u-1, inte[i].v, inte[i].w); } if (spfa.solve(0, maxn)){ printf("%d\n", spfa.dist[maxn]); } } return 0; } [/cpp]
