标签:void https str http build online can 平均值 pre
题目链接
这道题显然求边,因为题目是一条链,所以直接采用把边编上号.看成序列即可
\(1\)与\(2\)号点的边连得是. 编号为\(1\)的点.查询的时候把\(r - 1\)就好了.
这里的期望显然就是路径的平均值.
期望值: \[\dfrac{\sum_{i=l}^r\sum_{j=l}^{r}dis[i][j]}{C_{r-l+1}^2}\]
下面部分可以直接算出:
上面这一部分比较难维护.
考虑每一条边会被走过多少次.
\[ans = \sum_{i=l}^ra[i]*(r-i+1)(i-l+1)\]
相当于枚举这个点左右两条路.
然后拆开.
再化简一下式子.
形成下面这个模样.
\[ans = (r - l + 1 - r * l) * sum1 + (r + l) * sum2 - sum3\]
其中
\(sum1 = \sum_{i=l}^r a[i]\)
\(sum2 = \sum_{i=l}^r a[i]*i\)
\(sum3 = \sum_{i=l}^r a[i] * i * i\)
然后我们用线段树维护一下.
考虑合并.
\(sum1 = lson_{sum1} + rson_{sum1}\)
\(sum2 = lson_{sum2} + rson_{sum2}\)
\(sum3 = lson_{sum3} + rson_{sum3}\)
合并是比较简单了.
添加值得时候如何添加?
设添加的值为\(k\)
此时的式子就变成了.
\(sum1\)比较简单,直接加上区间的长度乘以\(k\)即可.
\(sum2\)要加上\(k*\sum i\)然后维护一下区间\(i\)的和.我们称它为\(sum5\),或者考虑等差数列求和的方法也可以.
\(sum3\)要加上\(k * \sum i ^2\)我们这里必须要维护\(sum4\),它代表\(\sum i^2\)
\(sum4\) 和 \(sum5\) 是一个定值.在建树的时候更新就行了.
然后这个题就完成了.
特别注意的是.由于我们设边为点.所以要\(r -= 1\)
如果直接\(r -=1\)的话,下面的分母要改成.\(C_{r-l + 2}^2\)
CODE:
#include <iostream>
#include <cstdio>
#define lson now << 1
#define rson now << 1 | 1
#define ll long long
const ll maxN = 100000 + 7;
inline ll read() {
ll x = 0,f = 1;char c = getchar();
while(c < '0' || c > '9') {if(c == '-')f = -1;c = getchar();}
while(c >= '0' && c <= '9') {x = x * 10 + c - '0';c = getchar();}
return x * f;
}
ll gcd(ll a,ll b) {
return !b ? a : gcd(b,a % b);
}
struct Node {
ll sum[6];
ll lazy;
ll l,r;
}tree[maxN << 2];
ll sum1,sum2,sum3;
void updata(ll now) {
tree[now].sum[1] = tree[lson].sum[1] + tree[rson].sum[1];
tree[now].sum[2] = tree[lson].sum[2] + tree[rson].sum[2];
tree[now].sum[3] = tree[lson].sum[3] + tree[rson].sum[3];
return ;
}
void build(ll l,ll r,ll now) {
tree[now].l = l;tree[now].r = r;
if(l == r) {
tree[now].sum[4] = l * l;
tree[now].sum[5] = l;
return ;
}
ll mid = (l + r) >> 1;
build(l,mid,lson);
build(mid + 1,r,rson);
tree[now].sum[4] = tree[lson].sum[4] + tree[rson].sum[4];
tree[now].sum[5] = tree[lson].sum[5] + tree[rson].sum[5];
return ;
}
void work(ll now,ll k) {
tree[now].sum[1] += (tree[now].r - tree[now].l + 1) * k;
tree[now].sum[2] += k * tree[now].sum[5];
tree[now].sum[3] += k * tree[now].sum[4];
tree[now].lazy += k;
}
void pushdown(ll now) {
work(lson,tree[now].lazy);
work(rson,tree[now].lazy);
tree[now].lazy = 0;
return ;
}
void modify(ll l,ll r,ll now,ll val) {
if(tree[now].l >= l && tree[now].r <= r) {
work(now,val);
return ;
}
if(tree[now].lazy) pushdown(now);
ll mid = (tree[now].l + tree[now].r) >> 1;
if(mid >= l) modify(l,r,lson,val);
if(mid < r) modify(l,r,rson,val);
updata(now);
return ;
}
void query(ll l,ll r,ll now) {
if(tree[now].l >= l && tree[now].r <= r) {
sum1 += tree[now].sum[1];
sum2 += tree[now].sum[2];
sum3 += tree[now].sum[3];
return ;
}
if(tree[now].lazy) pushdown(now);
ll mid = (tree[now].l + tree[now].r) >> 1;
if(mid >= l) query(l,r,lson);
if(mid < r) query(l,r,rson);
return ;
}
int main()
{
ll n,m,l,r,v;
char s[3];
n = read();m = read();
build(1,n,1);
while(m --) {
scanf("%s",&s);
l = read();r = read() - 1;
if(s[0] == 'C') {
v = read();
modify(l,r,1,v);
}
else {
ll a;
sum1 = sum2 = sum3 = 0;
query(l,r,1);
a = (r - l + 1 - r * l) * sum1 + (r + l) * sum2 - sum3;
ll b = ( r - l + 2 ) * (r - l + 1) / 2;
ll g = gcd(a,b);
printf("%lld/%lld\n", a / g,b / g);
}
}
return 0;
}
标签:void https str http build online can 平均值 pre
原文地址:https://www.cnblogs.com/tpgzy/p/9742355.html