2648: SJY把件
Time Limit: 20 Sec Memory Limit: 128 MBSubmit: 1180 Solved: 391
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Description
和M<=500000个操作。
对于每一个白色棋子,输出距离这个白色棋子近期的黑色棋子的距离。同一个格子可能有多个棋子。
Input
Output
Sample Input
1 1
2 3
2 1 2
1 3 3
2 4 2
Sample Output
1
2
HINT
kdtree能够过
Source
提示中已有kd-tree了,那么百度一下
考虑平面上一堆点,先找出横坐标中位数的点。取出。对着切一刀,剩下点分为2半
然后对当中一边竖着切,再横着切。。。。
转自:http://www.cnblogs.com/slysky/archive/2011/11/08/2241247.html
#include<cstdio>
#include<cstring>
#include<cstdlib>
#include<algorithm>
#include<functional>
#include<iostream>
#include<cmath>
#include<cctype>
#include<ctime>
using namespace std;
#define For(i,n) for(int i=1;i<=n;i++)
#define Fork(i,k,n) for(int i=k;i<=n;i++)
#define Rep(i,n) for(int i=0;i<n;i++)
#define ForD(i,n) for(int i=n;i;i--)
#define RepD(i,n) for(int i=n;i>=0;i--)
#define Forp(x) for(int p=pre[x];p;p=next[p])
#define Forpiter(x) for(int &p=iter[x];p;p=next[p])
#define Lson (x<<1)
#define Rson ((x<<1)+1)
#define MEM(a) memset(a,0,sizeof(a));
#define MEMI(a) memset(a,127,sizeof(a));
#define MEMi(a) memset(a,128,sizeof(a));
#define INF (1000000000)
#define F (100000007)
#define MAXN (500000+10)
#define MAXM (500000+10)
typedef long long ll;
ll mul(ll a,ll b){return (a*b)%F;}
ll add(ll a,ll b){return (a+b)%F;}
ll sub(ll a,ll b){return (a-b+(a-b)/F*F+F)%F;}
void upd(ll &a,ll b){a=(a%F+b%F)%F;}
int n,m;
int cmp_d=0;
class node
{
public:
int x[2];
int l,r,minv[2],maxv[2];
node(){}
node(int a,int b){MEM(x) l=r=0; x[0]=a,x[1]=b; Rep(i,2) minv[i]=maxv[i]=x[i];}
int& operator[](int i){return x[i]; }
};
int dis(node a,node b){
int ans=0;
Rep(i,2) ans+=abs(a.x[i]-b.x[i]);
return ans;
}
int dis2(node p,node a) // 点p和方形区域a的欧几里德距离
{
int ans=0;
Rep(i,2)
{
if (p.x[i]<a.minv[i]) ans+=a.minv[i]-p.x[i];
else
if (p.x[i]>a.maxv[i]) ans+=p.x[i]-a.maxv[i];
}
return ans;
}
int cmp(node a,node b){return a[cmp_d]<b[cmp_d]; }
class KD_Tree
{
public:
node a[MAXN*3];
KD_Tree()
{
}
void mem()
{
}
void update(node& o)
{
if (o.l)
{
node p=a[o.l];
Rep(i,2) o.minv[i]=min(o.minv[i],p.minv[i]);
Rep(i,2) o.maxv[i]=max(o.maxv[i],p.maxv[i]);
}
if (o.r)
{
node p=a[o.r];
Rep(i,2) o.minv[i]=min(o.minv[i],p.minv[i]);
Rep(i,2) o.maxv[i]=max(o.maxv[i],p.maxv[i]);
}
}
int build(int L,int R,int nowd)
{
int m=(L+R)>>1;
cmp_d=nowd;
nth_element(a+L+1,a+m+1,a+R+1,cmp);
if (L^m) a[m].l=build(L,m-1,nowd^1);
if (R^m) a[m].r=build(m+1,R,nowd^1);
update(a[m]);
return m;
}
int root;
void _build(int L,int R,int nowd)
{
root=build(L,R,nowd);
}
void insert(int o,int k,int nowd)
{
int p=a[o].x[nowd];
int p2=a[k].x[nowd];
if (p2<=p)
{
if (a[o].l)
insert(a[o].l,k,nowd^1);
else a[o].l=k;
}
else
{
if (a[o].r)
insert(a[o].r,k,nowd^1);
else a[o].r=k;
}
update(a[o]);
}
void _insert(int k,int nowd)
{
int p=root;
insert(root,k,nowd);
}
node _p;
int _ans;
void ask_min_dis(int o)
{
if (o==0) return;
_ans=min(_ans,dis(a[o],_p));
int ans1=a[o].l ? dis2(_p,a[a[o].l]) : INF; // 点p到区域内随意一点的距离的最小值
int ans2=a[o].r ? dis2(_p,a[a[o].r]) : INF;
if (ans1<ans2)
{
if(ans1<_ans) ask_min_dis(a[o].l);
if(ans2<_ans) ask_min_dis(a[o].r);
}
else {
if(ans2<_ans) ask_min_dis(a[o].r);
if(ans1<_ans) ask_min_dis(a[o].l);
}
}
int _ask(node p)
{
_p=p;_ans=INF;
ask_min_dis(root);
return _ans;
}
}S;
int main()
{
// freopen("bzoj2648.in","r",stdin);
// freopen("bzoj2648.out","w",stdout);
cin>>n>>m;
For(i,n)
{
int x,y;
scanf("%d%d",&x,&y);
S.a[i]=node(x,y);
}
S.a[++n]=node(INF,INF);
S._build(1,n,0);
For(i,m)
{
int p,x,y;
scanf("%d%d%d",&p,&x,&y);
if (p==1)
{
S.a[++n]=node(x,y);
S._insert(n,0);
} else {
printf("%d
",S._ask(node(x,y)));
}
}
return 0;
}
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