UVa 12661 Funny Car Racing

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　　很简单的一道最短路问题。分情况处理赛道的打开和关闭。

Code

/**
 * UVa
 * Problem#12661
 * Accepted
 * Time:50ms
 */
#include<iostream>
#include<fstream>
#include<sstream>
#include<cstdio>
#include<cstdlib>
#include<cstring>
#include<ctime>
#include<cctype>
#include<cmath>
#include<algorithm>
#include<stack>
#include<queue>
#include<set>
#include<map>
#include<vector>
using namespace std;
typedef bool boolean;
#define smin(a, b)    (a) = min((a), (b))
#define smax(as, b)    (a) = max((a), (b))
template<typename T>
inline boolean readInteger(T& u){
    char x;
    int aFlag = 1;
    while(!isdigit((x = getchar())) && x != '-' && x != -1);
    if(x == -1)    return false;
    if(x == '-'){
        x = getchar();
        aFlag = -1;
    }
    for(u = x - '0'; isdigit((x = getchar())); u = (u << 3) + (u << 1) + x - '0');
    ungetc(x, stdin);
    u *= aFlag;
    return true;
}

typedef class Edge{
    public:
        int end;
        int next;
        int open;
        int close;
        int t;
        Edge(const int end = 0, const int next = 0, const int open = 0, const int close = 0, const int t = 0):end(end), next(next), open(open), close(close), t(t){        }
        int across(int arrived){
            int re = arrived % (open + close);
            if(re >= 0 && re + t <= open)    return     arrived + t;
            return (arrived / (open + close) + 1) * (open + close) + t;
        }
}Edge;

typedef class MapManager{
    public:
        int ce;
        Edge* edges;
        int* h;
        MapManager():ce(0), edges(NULL), h(NULL){        }
        MapManager(int points, int limit):ce(0){
            h = new int[(const int)(points + 1)];
            edges = new Edge[(const int)(limit + 1)];
            memset(h, 0, sizeof(int) * (points + 1));
        }
        inline void addEdge(int from, int end, int open, int close, int t){
            if(t > open)    return;        //无法通过 
            edges[++ce] = Edge(end, h[from], open, close, t);
            h[from] = ce;
        }
        Edge& operator [](int pos){
            return edges[pos];
        }
        void clear(){
            delete[] edges;
            delete[] h;
            ce = 0;
        }
}MapManager;

#define m_begin(g, i)    (g).h[(i)]

int n, m, from, _end;
MapManager g;

inline boolean init(){
    if(!readInteger(n))    return false;
    readInteger(m);
    readInteger(from);
    readInteger(_end);
    g = MapManager(n, m);
    for(int i = 1, u, v, a, b, t; i <= m; i++){
        readInteger(u);
        readInteger(v);
        readInteger(a);
        readInteger(b);
        readInteger(t);
        g.addEdge(u, v, a, b, t);
    }
    return true;
}

boolean* visited;
queue<int>    que;
int* f;
inline int spfa(int s, int t){
    que.push(s);
    visited[s] = true;
    f[s] = 0;
    while(!que.empty()){
        int e = que.front();
        que.pop();
        visited[e] = false;
        for(int i = m_begin(g, e); i != 0; i = g[i].next){
            int& eu = g[i].end;
            int cmp = g[i].across(f[e]);
            if(cmp < f[eu]){
                f[eu] = cmp;
                if(!visited[eu] && eu != t){
                    que.push(eu);
                    visited[eu] = true;
                }
            }
        }
    }
    return f[t];
}

inline void solve(){
    visited = new boolean[(const int)(n + 1)];
    f = new int[(const int)(n + 1)];
    memset(visited, false, sizeof(boolean) * (n + 1));
    memset(f, 0x7f, sizeof(int) * (n + 1));
    int res = spfa(from, _end);
    printf("%d
", res);
}

inline void clear(){
    g.clear();
    delete[] visited;
    delete[] f;
}

int main(){
    int kase = 1;
    while(init()){
        printf("Case %d: ", kase++);
        solve();
        clear();
    }
    return 0;
}