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| #include<algorithm>
#include<iostream>
#include<iomanip>
#include<cstring>
#include<cstdlib>
#include<climits>
#include<vector>
#include<cstdio>
#include<cmath>
#include<queue>
using namespace std;
inline const int Get_Int() {
int num=0,bj=1;
char x=getchar();
while(x<'0'||x>'9') {
if(x=='-')bj=-1;
x=getchar();
}
while(x>='0'&&x<='9') {
num=num*10+x-'0';
x=getchar();
}
return num*bj;
}
const int maxn=5005;
const double eps=1e-8;
int dcmp(double x) {
if(fabs(x)<=eps)return 0;
if(x>eps)return 1;
return -1;
}
struct Tree {
Tree *ls,*rs;
int dist;
double val;
int back;
Tree(int d=0,double v=0,int b=0):dist(d),val(v),back(b) {
ls=rs=NULL;
}
};
struct Left_Side_Tree {
Tree* merge(Tree *x,Tree *y) {
if(!x||!y)return x?x:y;
if(x->val>y->val)swap(x,y);
Tree *New=new Tree;
*New=*x;
New->rs=merge(New->rs,y);
if(!New->ls||New->rs->dist>New->ls->dist)swap(New->ls,New->rs);
if(New->rs)New->dist=New->rs->dist+1;
return New;
}
Tree* push(Tree *x,double v,int b) {
Tree *New=new Tree(0,v,b);
return merge(x,New);
}
} heap;
Tree *root[maxn];
struct Edge {
int from,to;
double dist;
};
int n,m,father[maxn],father_e[maxn];
double energy,dist[maxn];
bool vst[maxn];
vector<Edge> edges,fedges;
vector<int> G[maxn],fG[maxn];
void AddEdge(int x,int y,double v) {
edges.push_back((Edge) {x,y,v});
G[x].push_back(edges.size()-1);
fedges.push_back((Edge) {y,x,v});
fG[y].push_back(fedges.size()-1);
}
#define pii pair<double,int>
#define mp make_pair
void Dijkstra() {
for(int i=1; i<=n; i++)dist[i]=1e18,vst[i]=0;
dist[n]=0;
father_e[n]=-1;
priority_queue<pii,vector<pii>,greater<pii> > Q;
Q.push(mp(0,n));
while(!Q.empty()) {
int Now=Q.top().second;
Q.pop();
if(vst[Now])continue;
vst[Now]=1;
for(int id:fG[Now]) {
Edge& e=fedges[id];
int Next=e.to;
if(dcmp(dist[Next]-dist[Now]-e.dist)>0) {
dist[Next]=dist[Now]+e.dist;
father[Next]=Now;
father_e[Next]=id;
Q.push(mp(dist[Next],Next));
}
}
}
}
void Dfs(int Now) {
if(father[Now])root[Now]=root[father[Now]];
for(int id:G[Now]) {
if(id==father_e[Now])continue;
Edge& e=edges[id];
int Next=e.to;
root[Now]=heap.push(root[Now],e.dist+dist[Next]-dist[Now],Next);
}
for(int id:fG[Now]) {
Edge& e=fedges[id];
int Next=e.to;
if(id==father_e[Next])Dfs(Next);
}
}
#undef pii
#define pii pair<double,Tree *>
int main() {
n=Get_Int();
m=Get_Int();
scanf("%lf",&energy);
for(int i=1; i<=m; i++) {
int x=Get_Int(),y=Get_Int();
double v;
scanf("%lf",&v);
AddEdge(x,y,v);
}
Dijkstra();
int ans=0;
if(dcmp(energy-dist[1])>=0) {
ans++;
energy-=dist[1];
} else {
puts("0");
return 0;
}
Dfs(n);
priority_queue<pii,vector<pii>,greater<pii> > Q;
if(root[1])Q.push(mp(dist[1]+root[1]->val,root[1]));
while(!Q.empty()) {
pii Now=Q.top();
double len=Now.first;
Tree *rt=Now.second;
Q.pop();
if(dcmp(energy-len)>=0) {
ans++;
energy-=len;
} else break;
Tree *next=root[rt->back],*ls=rt->ls,*rs=rt->rs;
if(next)Q.push(mp(len+next->val,next));
if(ls)Q.push(mp(len+ls->val-rt->val,ls));
if(rs)Q.push(mp(len+rs->val-rt->val,rs));
}
printf("%d\n",ans);
return 0;
}
|
