//單源最短路徑,dijkstra算法+映射二分堆,鄰接表形式,復(fù)雜度O(mlogn)
//求出源s到所有點(diǎn)的最短路經(jīng),傳入圖的大小n和鄰接表list
//返回到各點(diǎn)最短距離min[]和路徑pre[],pre[i]記錄s到i路徑上i的父結(jié)點(diǎn),pre[s]=-1
//可更改路權(quán)類型,但必須非負(fù)!
#define MAXN 200
#define inf 1000000000
typedef int elem_t;
struct edge_t{
	int from,to;
	elem_t len;
	edge_t* next;
};

#define _cp(a,b) ((a)<(b))
struct heap{
	elem_t h[MAXN+1];
	int ind[MAXN+1],map[MAXN+1],n,p,c;
	void init(){n=0;}
	void ins(int i,elem_t e){
		for (p=++n;p>1&&_cp(e,h[p>>1]);h[map[ind[p]=ind[p>>1]]=p]=h[p>>1],p>>=1);
		h[map[ind[p]=i]=p]=e;
	}
	int del(int i,elem_t& e){
		i=map[i];if (i<1||i>n) return 0;
		for (e=h[p=i];p>1;h[map[ind[p]=ind[p>>1]]=p]=h[p>>1],p>>=1);
		for (c=2;c<n&&_cp(h[c+=(c<n-1&&_cp(h[c+1],h[c]))],h[n]);h[map[ind[p]=ind[c]]=p]=h[c],p=c,c<<=1);
		h[map[ind[p]=ind[n]]=p]=h[n];n--;return 1;
	}
	int delmin(int& i,elem_t& e){
		if (n<1) return 0;i=ind[1];
		for (e=h[p=1],c=2;c<n&&_cp(h[c+=(c<n-1&&_cp(h[c+1],h[c]))],h[n]);h[map[ind[p]=ind[c]]=p]=h[c],p=c,c<<=1);
		h[map[ind[p]=ind[n]]=p]=h[n];n--;return 1;
	}
};

void dijkstra(int n,edge_t* list[],int s,elem_t* min,int* pre){
	heap h;
	edge_t* t;elem_t e;
	int v[MAXN],i;
	for (h.init(),i=0;i<n;i++)
		min[i]=((i==s)?0:inf),v[i]=0,pre[i]=-1,h.ins(i,min[i]);
	while (h.delmin(i,e))
		for (v[i]=1,t=list[i];t;t=t->next)
			if (!v[t->to]&&min[i]+t->len<min[t->to])
				pre[t->to]=i,h.del(t->to,e),min[t->to]=e=min[i]+t->len,h.ins(t->to,e);
}