BZOJ_2724_[Violet 6]蒲公英_分块
Description
![BZOJ_2724_[Violet 6]蒲公英_分块](https://image.miaokee.com:8440/aHR0cHM6Ly93d3cubHlkc3kuY29tL0p1ZGdlT25saW5lL3VwbG9hZC8yMDEyMDQvVDJkZXMoNikuZ2lm.gif?w=700&webp=1 "BZOJ_2724_[Violet 6]蒲公英_分块")
Input
![BZOJ_2724_[Violet 6]蒲公英_分块](https://image.miaokee.com:8440/aHR0cHM6Ly93d3cubHlkc3kuY29tL0p1ZGdlT25saW5lL3VwbG9hZC8yMDEyMDQvVDJpbnB1dCg2KS5naWY%3D.gif?w=700&webp=1 "BZOJ_2724_[Violet 6]蒲公英_分块")
修正一下
l = (l_0 + x - 1) mod n + 1, r = (r_0 + x - 1) mod n + 1
Output
![BZOJ_2724_[Violet 6]蒲公英_分块](https://image.miaokee.com:8440/aHR0cHM6Ly93d3cubHlkc3kuY29tL0p1ZGdlT25saW5lL3VwbG9hZC8yMDEyMDQvVDJvdXRwdXQoNSkuZ2lm.gif?w=700&webp=1 "BZOJ_2724_[Violet 6]蒲公英_分块")
Sample Input
6 3
1 2 3 2 1 2
1 5
3 6
1 5
1 2 3 2 1 2
1 5
3 6
1 5
Sample Output
1
2
1
2
1
HINT
n <= 40000, m <= 50000
对于众数,有一个性质。集合A和集合B的众数,要么是集合A的众数,要么是集合B中出现过的数。
根据这个性质我们考虑分块。
先将权值离散化,处理出前缀桶C[i][j]表示1~i块j数出现的次数。
在处理出mode[i][j]表示i块到j块的众数,这两个都可以在O(nsqrt(n))的时间内处理出来。
查询时众数来源有两个,所有整块的众数和零散块内出现过的数。
把零散的每个数统计一下,用桶可以O(1)得到答案。
代码:
#include <stdio.h>
#include <string.h>
#include <algorithm>
#include <math.h>
using namespace std;
#define N 40050
struct A {
int num,id,v;
}a[N];
bool cmp1(const A &x,const A &y){return x.num<y.num;}
bool cmp2(const A &x,const A &y){return x.id<y.id;}
int n,m,block,pos[N],L[250],R[250],size,mode[250][250],C[250][N],mp[N],times[250][250],ans;
int h[N];
void solve(int l,int r) {
int p=pos[l],q=pos[r];
int md=0,i;
if(p==q||p+1==q) {
for(i=l;i<=r;i++) {
h[a[i].v]++;
if(h[a[i].v]>h[md]||(h[a[i].v]==h[md]&&a[i].v<md))
md=a[i].v;
}
for(i=l;i<=r;i++) {
h[a[i].v]=0;
}
ans=mp[md];
return ;
}
int nowmode=mode[p+1][q-1],mtimes=times[p+1][q-1];
h[nowmode]=mtimes;
int tmp=nowmode;
//printf("nowmode=%d, mtimes=%d\n",nowmode,mtimes);
for(i=l;i<=R[p];i++) {
if(!h[a[i].v]) {
h[a[i].v]=C[q-1][a[i].v]-C[p][a[i].v];
}
h[a[i].v]++;
//printf("a[i].v=%d h[a[i].v]=%d\n",a[i].v,h[a[i].v]);
if(h[a[i].v]>mtimes||(h[a[i].v]==mtimes&&a[i].v<nowmode)) {
mtimes=h[a[i].v]; nowmode=a[i].v;
}
}
for(i=L[q];i<=r;i++) {
if(!h[a[i].v]) {
h[a[i].v]=C[q-1][a[i].v]-C[p][a[i].v];
}
h[a[i].v]++;
if(h[a[i].v]>mtimes||(h[a[i].v]==mtimes&&a[i].v<nowmode)) {
mtimes=h[a[i].v]; nowmode=a[i].v;
}
}
for(i=l;i<=R[p];i++) h[a[i].v]=0;
for(i=L[q];i<=r;i++) h[a[i].v]=0;
h[tmp]=0;
ans=mp[nowmode];
}
int main() {
scanf("%d%d",&n,&m);
int i,j,k,x,y;
for(i=1;i<=n;i++) scanf("%d",&a[i].num),a[i].id=i;
sort(a+1,a+n+1,cmp1); a[0].num=342344354;
for(i=1,j=0;i<=n;i++) {
if(a[i].num!=a[i-1].num) j++;
a[i].v=j;
mp[j]=a[i].num;
}
sort(a+1,a+n+1,cmp2);
size=sqrt(n);
block=n/size;
for(i=1;i<=block;i++) {
L[i]=R[i-1]+1; R[i]=i*size;
for(j=L[i];j<=R[i];j++) {
pos[j]=i;
/*if(!C[i][a[j].v]) {
C[i][a[j].v]=C[i-1][a[j].v];
}*/
C[i][a[j].v]++;
}
for(j=1;j<=R[i];j++) {
C[i+1][a[j].v]=C[i][a[j].v];
}
}
if(R[block]!=n) {
block++; L[block]=R[block-1]+1; R[block]=n;
for(i=L[block];i<=n;i++) {
pos[i]=block;
/*if(!C[block][a[i].v]) {
C[block][a[i].v]=C[block-1][a[i].v];
}*/
C[block][a[i].v]++;
}
}
for(i=1;i<=block;i++) {
int md=0;
for(j=L[i];j<=R[i];j++) {
if(C[i][a[j].v]-C[i-1][a[j].v]>C[i][md]-C[i-1][md]||(C[i][a[j].v]-C[i-1][a[j].v]==C[i][md]-C[i-1][md]&&a[j].v<md))
md=a[j].v;
}
mode[i][i]=md; times[i][i]=C[i][md]-C[i-1][md];
for(j=i+1;j<=block;j++) {
int md=mode[i][j-1];
for(k=L[j];k<=R[j];k++) {
if(C[j][a[k].v]-C[i-1][a[k].v]>C[j][md]-C[i-1][md]||(C[j][a[k].v]-C[i-1][a[k].v]==C[j][md]-C[i-1][md]&&a[k].v<md))
md=a[k].v;
}
mode[i][j]=md; times[i][j]=C[j][md]-C[i-1][md];
}
}
//for(i=1;i<=n;i++) printf("i=%d pos[i]=%d\n",i,pos[i]);
while(m--) {
scanf("%d%d",&x,&y);
x=(x+ans-1)%n+1; y=(y+ans-1)%n+1;
if(x>y) swap(x,y);
solve(x,y);
printf("%d\n",ans);
}
}