题目传送门

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题目大意

　　给定一个$n$个点$m$条边的带权有向图，问从$1$到$n$的距离不超过最短路长度$K$的路径数。

 /**

  * Uoj

  * Problem#331

  * Accepted

  * Time: 2392ms

  * Memory: 28196k

  */

 #include <iostream>

 #include <cassert>

 #include <cstdlib>

 #include <cstdio>

 #include <vector>

 #include <queue>

 using namespace std;

 typedef bool boolean;

 typedef pair<int, int> pii;

 const int N = 1e5 + , M = 2e5 + , Kmx = ;

 const signed int inf = (signed) (~0u >> );

 template <typename T>

 void pfill(T* pst, const T* ped, T val) {

     for ( ; pst != ped; *(pst++) = val);

 }

 typedef class Edge {

     public:

         int ed, nx, w;

         Edge(int ed = , int nx = , int w = ):ed(ed), nx(nx), w(w) {    }

 }Edge;

 typedef class MapManager {

     public:

         int *h;

         vector<Edge> es;

         MapManager(int n) {

             h = new int[(n + )];

         }

         void init(int n) {

             pfill(h + , h + n + , -);

             es.clear();

         }    

         void addEdge(int u, int v, int w) {

             es.push_back(Edge(v, h[u], w));

             h[u] = (signed) es.size() - ;

         }

         Edge& operator [] (int p) {

             return es[p];

         }

 }MapManager;

 typedef class Node {

     public:

         int p, dis;

         Node(int p = , int dis = ):p(p), dis(dis) {    }

         boolean operator < (Node b) const {

             return dis > b.dis;

         }

 }Node;

 int n, m, K, P;

 MapManager g(N), _g(N);

 int add(int a, int b) {

     return ((a += b) >= P) ? (a - P) : (a);

 }

 inline void init() {

     scanf("%d%d%d%d", &n, &m, &K, &P);

     g.init(n + ), _g.init(n + );

     for (int i = , u, v, w; i <= m; i++) {

         scanf("%d%d%d", &u, &v, &w);

         g.addEdge(u, v, w);

         _g.addEdge(v, u, w);

     }

 }

 int f[N];

 priority_queue<Node> que;

 int& operator * (Node p) {

     return f[p.p];

 }

 void dijstra() {

     pfill(f + , f + n + , inf);

     que.push(Node(, f[] = ));

     while (!que.empty()) {

         Node e = que.top();

         que.pop();

         if (*e != e.dis)

             continue;

         for (int i = g.h[e.p]; ~i; i = g[i].nx)

             if (*e + g[i].w < f[g[i].ed])

                 que.push(Node(g[i].ed, f[g[i].ed] = *e + g[i].w));

     }

 }

 int h[N][Kmx];

 unsigned char vis[N][Kmx];

 boolean cir = false;

 int dp(int p, int dif) {

     if (dif > K)

         return ;

     if (dif < )

         return ;

     assert(dif >= );

     if (vis[p][dif] & )

         return cir = true;

     if (vis[p][dif] & )

         return h[p][dif];

     vis[p][dif] |= , h[p][dif] = (p ==  && dif == );

     for (int i = _g.h[p], e, nd; ~i; i = _g[i].nx) {

         e = _g[i].ed;

         if (f[e] == inf)

             continue;

         nd = f[p] + dif - _g[i].w - f[e];

         h[p][dif] = add(h[p][dif], dp(e, nd));

         if (cir)

             return ;

     }

     vis[p][dif] ^= ;

     return h[p][dif];

 }

 inline void solve() {

     dijstra();

     if (f[n] == inf) {

         puts("");

         return;

     }

     cir = false;

     pfill(vis[], vis[n + ], (unsigned char));

     int rt = dp(n, );

     for (int i = ; i <= K && !cir; i++)

         rt = add(rt, dp(n, i));

     printf("%d\n", (cir) ? (-) : (rt));

 }

 int T;

 int main() {

     scanf("%d", &T);

     while (T--) {

         init();

         solve();

     }

     return ;

 }