• 【HDOJ】1688 Sightseeing


    Dijkstra求解次短路径,使用cnt和dis数组记录最小、次小的个数和长度。重写更新操作。

      1 /* 1688 */
      2 #include <iostream>
      3 #include <string>
      4 #include <map>
      5 #include <queue>
      6 #include <set>
      7 #include <vector>
      8 #include <algorithm>
      9 #include <cstdio>
     10 #include <cmath>
     11 #include <cstring>
     12 #include <climits>
     13 #include <cctype>
     14 using namespace std;
     15 
     16 #define MAXN 1005
     17 #define INF  0x3f3f3f3f
     18 
     19 typedef struct Edge_t {
     20     int v, w;
     21     Edge_t() {}
     22     Edge_t(int u, int ww) {
     23         v = u; w = ww;
     24     }
     25 } Edge_t;
     26 
     27 vector<Edge_t> vc[MAXN];
     28 bool visit[MAXN][2];
     29 int dis[MAXN][2];
     30 int cnt[MAXN][2];
     31 int n, m;
     32 
     33 void init() {
     34     int i;
     35     
     36     for (i=1; i<=n; ++i)
     37         vc[i].clear();
     38     memset(cnt, 0, sizeof(cnt));
     39 }
     40 
     41 int dijkstra(int s, int f) {
     42     int i, j, k, tmp, r;
     43     int u, v, w, mmin;
     44     int ret = 0;
     45     Edge_t e;
     46     
     47     memset(visit, false, sizeof(visit));
     48     memset(dis, 0x3f, sizeof(dis));
     49     dis[s][0] = 0;
     50     cnt[s][0] = 1;
     51     
     52     for (r=0; r<n*2; ++r) {
     53         mmin = INF;
     54         u = -1;
     55         for (j=1; j<=n; ++j) {
     56             if (!visit[j][0] && dis[j][0]<mmin) {
     57                 mmin = dis[j][0];
     58                 u = j;
     59                 k = 0;
     60             } else if  (!visit[j][1] && dis[j][1]<mmin) {
     61                 mmin = dis[j][1];
     62                 u = j;
     63                 k = 1;
     64             }
     65         }
     66         if (u == -1)
     67             break;
     68         visit[u][k] = true;
     69         for (i=0; i<vc[u].size(); ++i) {
     70             e = vc[u][i];
     71             v = e.v;
     72             w = e.w;
     73             tmp = w + dis[u][k];
     74             if (tmp < dis[v][0]) {
     75                 dis[v][1] = dis[v][0];
     76                 cnt[v][1] = cnt[v][0];
     77                 dis[v][0] = tmp;
     78                 cnt[v][0] = cnt[u][k];
     79             } else if (tmp == dis[v][0]) {
     80                 cnt[v][0] += cnt[u][k];
     81             } else if (tmp < dis[v][1]) {
     82                 dis[v][1] = tmp;
     83                 cnt[v][1] = cnt[u][k];
     84             } else if (tmp == dis[v][1]) {
     85                 cnt[v][1] += cnt[u][k];
     86             }
     87         }
     88     }
     89     
     90     ret += cnt[f][0];
     91     if (dis[f][0]+1 == dis[f][1])
     92         ret += cnt[f][1];
     93     return ret;
     94 }
     95 
     96 int main() {
     97     int t;
     98     int i, j, k;
     99     Edge_t e;
    100     
    101     #ifndef ONLINE_JUDGE
    102         freopen("data.in", "r", stdin);
    103         freopen("data.out", "w", stdout);
    104     #endif
    105     
    106     scanf("%d", &t);
    107     while (t--) {
    108         scanf("%d %d", &n, &m);
    109         init();
    110         while (m--) {
    111             scanf("%d %d %d", &i, &e.v, &e.w);
    112             vc[i].push_back(e);
    113         }
    114         scanf("%d %d", &i, &j);
    115         k = dijkstra(i, j);
    116         printf("%d
    ", k);
    117     }
    118     
    119     return 0;
    120 }
  • 相关阅读:
    简易模拟点击自动化测试工具介绍
    HttpRunner 使用简介
    postman生成测试报告
    Java 多态
    Java 接口与接口的多继承关系
    Java 类实现接口
    Java 接口内容小结
    Java 接口
    Java 抽象
    Java 继承
  • 原文地址:https://www.cnblogs.com/bombe1013/p/4379184.html
Copyright © 2020-2023  润新知