HDU4718 The LCIS on the Tree(LCT)

又是一枚LCT,写一发加深一下对LCT的理解。本题的坑爹之处就在于，它实在是太坑爹了。询问的是树路径上的最长连续上升的子串，考验的是怎么样去维护。一开始的想法是维护三个变量 ls,rs,mxl,分别表示左起最长上升，右末最长上升，以及总的最长上升，那么最长上升一定是可以在下面的条件下求到的，

mxl=max(ch[0]->mxl,ch[1]->mxl) 以及

令temp=1 存一下左右区间的左右lval,rval,

if val>ch[0]->rval temp+=ch[0]->rs

if val<ch[1]->lval temp+=ch[1]->ls

但是由于提路径的时候必须要转根，转根的时候区间要有翻转标记，所以要维护信息必须还要知道左起最长下降ld，右末最长下降rd,以及区间总的最长下降mxd.那么每次reverse的时候就可以:

swap(lval,rval) swap(ls,rd) swap(rs,ld) swap(mxl,mxd)。

但是坑爹就在于我们还要特别处理一下各种null，所以本题的坑爹之处很大在于怎么写好这个upd函数。反正我的upd写了100行。。我心都碎了。。。

#pragma warning(disable:4996)
#include <iostream>
#include <cstring>
#include <string>
#include <vector>
#include <cmath>
#include <cstdio>
#include <algorithm>
using namespace std;

#define ll long long
#define maxn 150000
#define INF 1500000000
#define NINF -1

struct Node
{
	Node *p, *ch[2];
	bool rev;
	int val,size;
	int lval, rval;
	int ls, rs, mxl;
	int ld, rd, mxd;
	bool isRoot;
	Node *fa;
	Node(){
		val = 0;
		size = 0;
		ls = rs = mxl = 0;
		ld = rd = mxd = 0;
		lval = INF; rval = NINF;
		isRoot = 0;
	}
	void setc(Node *c, int d){
		ch[d] = c;
		c->p = this;
	}
	bool d(){
		return p->ch[1] == this;
	}
	void upd();
	void relax();
	void revIt();
	void setRoot(Node *f);
}Tnull,*null=&Tnull;

void Node::upd(){
	size = ch[0]->size + ch[1]->size + 1;
	lval = ch[0] != null ? ch[0]->lval : val;
	rval = ch[1] != null ? ch[1]->rval : val;

	if (ch[0] == null){
		if (ch[1] == null) ls = ld = 1;
		else{
			ls = 1; ld = 1;
			if (val < ch[1]->lval) ls += ch[1]->ls;
			if (val > ch[1]->lval) ld += ch[1]->ld;
		}
	}
	else{
		if (ch[0]->ls == ch[0]->size){
			ls = ch[0]->size;
			if (ch[0]->rval < val){
				ls += 1;
				if (val < ch[1]->lval){
					ls += ch[1]->ls;
				}
			}
		}
		else{
			ls = ch[0]->ls;
		}
		if (ch[0]->ld == ch[0]->size){
			ld = ch[0]->size;
			if (ch[0]->rval > val){
				ld += 1;
				if (val > ch[1]->lval){
					ld += ch[1]->ld;
				}
			}
		}
		else {
			ld = ch[0]->ld;
		}
	}

	if (ch[1] == null){
		if (ch[0] == null) rd = rs = 1;
		else{
			rd = rs = 1;
			if (val > ch[0]->rval) rs += ch[0]->rs;
			if (val < ch[0]->rval) rd += ch[0]->rd;
		}
	}
	else{
		if (ch[1]->rs == ch[1]->size){
			rs = ch[1]->size;
			if (val < ch[1]->lval){
				rs += 1;
				if (val>ch[0]->rval){
					rs += ch[0]->rs;
				}
			}
		}
		else{
			rs = ch[1]->rs;
		}

		if (ch[1]->rd == ch[1]->size){
			rd = ch[1]->size;
			if (val > ch[1]->lval){
				rd += 1;
				if (val < ch[0]->rval){
					rd += ch[0]->rd;
				}
			}
		}
		else{
			rd = ch[1]->rd;
		}
	}

	mxl = max(ch[0]->mxl, ch[1]->mxl);
	mxd = max(ch[0]->mxd, ch[1]->mxd);
	int temp = 1;
	if (ch[0] != null&&val > ch[0]->rval) temp += ch[0]->rs;
	if (ch[1] != null&&val < ch[1]->lval) temp += ch[1]->ls;
	mxl = max(mxl, temp);

	temp = 1;
	if (ch[0] != null&&val < ch[0]->rval) temp += ch[0]->rd;
	if (ch[1] != null&&val>ch[1]->lval) temp += ch[1]->ld;
	mxd = max(mxd, temp);

}

void Node::revIt(){
	swap(ch[0], ch[1]);
	swap(lval, rval);
	swap(ls, rd);
	swap(rs, ld);
	swap(mxl, mxd);
	rev ^= 1;
}

void Node::setRoot(Node *f){
	fa = f;
	isRoot = true;
	p = null;
}

void Node::relax(){
	if (rev){
		for (int i = 0; i < 2; i++){
			if (ch[i] != null) ch[i]->revIt();
		}
		rev = 0;
	}
}

Node mem[maxn], *C = mem;

Node *make(int v){
	C->lval = C->rval = C->val = v;
	C->ls = C->rs = C->mxl = 1;
	C->ld = C->rd = C->mxd = 1;
	C->rev = 0;
	C->ch[0] = C->ch[1] = null;
	C->isRoot = true;
	C->p = C->fa = null;
	return C++;
}

void rot(Node *t){
	Node *p = t->p;
	p->relax();
	t->relax();
	bool d = t->d();
	p->p->setc(t, p->d());
	p->setc(t->ch[!d], d);
	t->setc(p, !d);
	p->upd();
	if (p->isRoot){
		p->isRoot = false;
		t->isRoot = true;
		t->fa = p->fa;
	}
}

void pushTo(Node *t){
	static Node *stk[maxn];
	int top = 0;
	while (t != null){
		stk[top++] = t;
		t = t->p;
	}
	for (int i = top - 1; i >= 0; i--)
		stk[i]->relax();
}

void splay(Node *u, Node *f = null){
	pushTo(u);
	while (u->p != f){
		if (u->p->p == f)
			rot(u);
		else u->d() == u->p->d() ? (rot(u->p), rot(u)) : (rot(u), rot(u));
	}
	u->upd();
}

Node *v[maxn];
vector<int> G[maxn];
int n, nQ;

int que[maxn], fa[maxn], qh = 0, qt = 0;
int wht[maxn];

void bfs(){
	qh = qt = 0;
	que[qt++] = 1;
	while (qh < qt){
		int u = que[qh++]; int e;
		for (int i = 0; i < G[u].size(); i++){
			e = G[u][i];
			if (e != fa[u]){
				v[e]->fa = v[u]; que[qt++] = e;
			}
		}
	}
}

Node *expose(Node *u){
	Node *v;
	for (v = null; u != null; v = u, u = u->fa){
		splay(u);
		u->ch[1]->setRoot(u);
		u->setc(v, 1);
		v->fa = u;
	}
	return v;
}

void makeRoot(Node *u){
	expose(u);
	splay(u);
	u->revIt();
}

int main()
{
	int T; cin >> T; int ca = 0;
	while (T--){
		scanf("%d", &n);
		C = mem;
		for (int i = 1; i <= n; i++){
			scanf("%d", wht + i);
			v[i] = make(wht[i]);
			G[i].clear();
		}
		fa[1] = -1; int ti;
		for (int i = 2; i <= n; i++){
			scanf("%d", &ti);
			fa[i] = ti;
			G[i].push_back(ti); G[ti].push_back(i);
		}
		bfs();
		scanf("%d", &nQ); int ui, vi;
		Node *nu, *nv;
		printf("Case #%d:\n", ++ca);
		for (int i = 0; i < nQ; i++){
			scanf("%d%d", &ui, &vi);
			nu = v[ui]; nv = v[vi];
			makeRoot(nu);
			expose(nv);
			splay(nv);
			printf("%d\n", nv->mxl);
		}
		if (T != 0) puts("");
	}
	return 0;
}