平衡树是平衡的二叉搜索树,平衡树能够很好地解决暴力BST的一大缺点:某些子树肥大臃肿导致了查询速度的退化。
其中旋转操作是灵魂,能够通过旋转操作做到平衡两个子树的结点数量。当一方比较肥大的时候就会进行zig左旋 / zag右旋 /zigzag双旋/zagzig双旋来平衡;
同时添加size维护子树大小,还有插入的数字大小一样的时候,开一个cnt记录数量。
Code:
#include <iostream>
#include <algorithm>
#include <cstdio>
#include <cmath>
#include <cstring>
#include <string>
#include <climits>
#include <queue>
#include <stack>
#include <map>
#include <set>
#include <bitset>
#include <iomanip>
#include <ctime>
//
using namespace std;
const int INF = 0x3f3f3f3f;//1.06e9大小
const int mod1 = 1e9 +7;
const int mod2 = 998244353;
const int mod3 = 1e9;
const double PI = acos(-1);
const double eps =1e-3;
typedef unsigned long long ull;
typedef long long ll;
typedef unsigned uint;
const int sq5=616991993;
#define ms(x, n) memset(x,n,sizeof(x))
#define debug(x) printf("%d\n",x);
#define pii pair<int ,int>
#define X first
#define Y second
#define pb push_back
#define lsk k<<1
#define rsk k<<1|1
#define lowbit(a) a&(-a)
const int maxn = 1e5+10;
int tt;
struct node
{//AVL - tree
int lc;
int rc;
int h;
int v;//value
int sz;
int tot;//cnt域
}tr[maxn];
int rt;
int pos,delta,low,now,leave;
int right_rotate (int k)//zig右旋
{
int t = tr[k].lc;
tr[k].lc = tr[t].rc;
tr[t].rc = k;
tr[k].h = max(tr[tr[k].lc ].h , tr[tr[k].rc ].h)+1;
tr[t].h = max(tr[tr[t].lc ].h , tr[tr[t].rc ].h)+1;
tr[k].sz = tr[tr[k].lc ].sz + tr[tr[k].rc ].sz + tr[k].tot;
tr[t].sz = tr[tr[t].lc ].sz + tr[tr[t].rc ].sz + tr[t].tot;
return t;
}
int left_rotate(int k)//zag左旋
{
int t = tr[k].rc;
tr[k].rc = tr[t].lc;
tr[t].lc = k;
tr[k].h = max(tr[tr[k].lc ].h , tr[tr[k].rc ].h)+1;
tr[t].h = max(tr[tr[t].lc ].h , tr[tr[t].rc ].h)+1;
tr[k].sz = tr[tr[k].lc ].sz + tr[tr[k].rc ].sz + tr[k].tot;
tr[t].sz = tr[tr[t].lc ].sz + tr[tr[t].rc ].sz + tr[t].tot;
return t;
}
int right_left_rotate(int k)//zigzag双旋
{
tr[k].rc = right_rotate(tr[k].rc);
return left_rotate(k);
}
int left_right_rotate(int k)//zagzig双旋
{
tr[k].lc = left_rotate(tr[k].lc);
return right_rotate(k);
}
void maintain(int &k)
{
if(tr[tr[k].lc ].h == tr[tr[k].rc ].h+2)
{//左子树高了
int t=tr[k].lc;
if(tr[tr[t].lc ].h == tr[tr[k].rc ].h+1)
k = right_rotate(k);//左子树的左儿子
else if(tr[tr[t].rc ].h == tr[tr[k].rc ].h+1)
k = left_right_rotate(k);
}
else if(tr[tr[k].rc ].h == tr[tr[k].lc ].h+2)
{
int t = tr[k].rc;
if(tr[tr[t].rc ].h == tr[tr[k].lc ].h+1)
k = left_rotate(k);
else if(tr[tr[t].lc ].h == tr[tr[k].lc ].h+1)
k = right_left_rotate(k);
}
tr[k].h = max(tr[tr[k].lc ].h , tr[tr[k].rc ].h)+1;
tr[k].sz = tr[tr[k].lc ].sz + tr[tr[k].rc ].sz + tr[k].tot;
}
int _insert(int k,int x)
{
if(k == 0)
{
tr[++pos].h = 1;
tr[pos].v = x;
tr[pos].sz = 1;
tr[pos].tot = 1;
return pos;
}
if(x < tr[k].v)tr[k].lc = _insert(tr[k].lc,x);
else if(x > tr[k].v)tr[k].rc = _insert(tr[k].rc,x);
else tr[k].sz++ ,tr[k].tot++;
maintain(k);
return k;
}
int _rank(int k,int x)
{
if(x>=tr[tr[k].rc ].sz+1&&x<=tr[tr[k].rc ].sz+tr[k].tot)return tr[k].v;
if(x<tr[tr[k].rc ].sz+1)return _rank(tr[k].rc,x);
else return _rank(tr[k].lc , x-tr[tr[k].rc ].sz-tr[k].tot);
}
int least_money(int k)
{//返回当前最少的工资
int res = INF;
while(k)
{
res = tr[k].v;
k = tr[k].lc;
}
return res;
}
pii delt(int &k,int x)
{
int tv ,ttot;
pii t;
if(x == tr[k].v||(x < tr[k].v&&tr[k].lc == 0)||(x > tr[k].v&&tr[k].rc == 0))
{
if(tr[k].lc == 0||tr[k].rc == 0)
{
tv =tr[k].v;
ttot = tr[k].tot;
k = tr[k].lc + tr[k].rc;
return make_pair(tv,ttot);
}
else
{
t = delt(tr[k].lc , x);//左子树的最大值代替
tr[k].v = t.X;
tr[k].tot = t.Y;
}
}
else
{
if(x < tr[k].v)t = delt(tr[k].lc,x);
else t = delt(tr[k].rc,x);
}
maintain(k);
return t;
}
int main()
{
int n,low;
scanf("%d%d",&n,&low);
while(n--)
{
char op;
int x;
scanf(" %c %d",&op,&x);
if(op=='I'&&x>=low)
{
rt = _insert(rt,x-delta);
now++;
}
else if(op=='A')delta += x;
else if(op=='S')
{
int tx;
pii t;
delta -= x;
while( (tx = least_money(rt) )+delta < low)
{
t = delt(rt,tx);
now -= t.Y;
leave += t.Y;
}
}
else if(op=='F')
{
if(now>=x)printf("%d\n",_rank(rt,x)+delta);
else printf("-1\n");
}
}
printf("%d\n",leave);
return 0;
}
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