import os,sys,random,threading #sys.exit() 退出程序 from random import randint,choice,shuffle #randint(a,b)从[a,b]范围随机选择一个数 #choice(seq)seq可以是一个列表,元组或字符串,从seq中随机选取一个元素 #shuffle(x)将一个可变的序列x中的元素打乱 from copy import deepcopy from io import BytesIO,IOBase from types import GeneratorType from functools import lru_cache,reduce #reduce(op,迭代对象) from bisect import bisect_left,bisect_right #bisect_left(x) 大于等于x的第一个下标 #bisect_right(x) 大于x的第一个下标 from collections import Counter,defaultdict,deque from itertools import accumulate,combinations,permutations #accumulate(a)用a序列生成一个累积迭代器,一般list化前面放个[0]做前缀和用 #combinations(a,k)a序列选k个 组合迭代器 #permutations(a,k)a序列选k个 排列迭代器 from heapq import heapify,heappop,heappush #heapify将列表转为堆 from typing import Generic,Iterable,Iterator,TypeVar,Union,List from string import ascii_lowercase,ascii_uppercase,digits #小写字母,大写字母,十进制数字 from math import ceil,floor,sqrt,pi,factorial,gcd,log,log10,log2,inf #ceil向上取整,floor向下取整 ,sqrt开方 ,factorial阶乘 from decimal import Decimal,getcontext #Decimal(s) 实例化Decimal对象,一般使用字符串 #getcontext().prec=100 修改精度 from sys import stdin, stdout, setrecursionlimit input = lambda: sys.stdin.readline().rstrip("\r\n") MI = lambda :map(int,input().split()) li = lambda :list(MI()) ii = lambda :int(input()) mod = int(1e9 + 7) #998244353 inf = int(1e20) py = lambda :print("YES") pn = lambda :print("NO") DIRS = [(0, 1), (1, 0), (0, -1), (-1, 0)] # 右下左上 DIRS8 = [(0, 1), (1, 1), (1, 0), (1, -1), (0, -1), (-1, -1), (-1, 0),(-1, 1)] # →↘↓↙←↖↑↗ """单点更新,前缀最值查询""" class BIT: def __init__(self, n): self.n = n self.max_tree = [0] * (n + 1) def update(self, idx, val): while idx <= self.n: self.max_tree[idx] = max(self.max_tree[idx], val) idx += idx & (-idx) def query(self, idx): res = 0 while idx > 0: res = max(res, self.max_tree[idx]) idx -= idx & (-idx) return res n=ii() a=li() d1=sorted(set(a)) d2=sorted(set(a),reverse=True) d1={x:i+1 for i,x in enumerate(d1)} d2={x:i+1 for i,x in enumerate(d2)} b1=BIT(len(d1)+5) b2=BIT(len(d2)+5) res=0 for x in a: q1=b1.query(d1[x]-1) q2=b2.query(d2[x]-1) res=max(res,q1+1,q2+1) b1.update(d1[x],q2+1) b2.update(d2[x],q1+1) if res<3: print(0) else: print(res)