Submission #371056

#TimeUsernameProblemLanguageResultExecution timeMemory
371056Bench0310Treasure Hunt (CEOI11_tre)C++17
90 / 100
4032 ms262144 KiB
#include <bits/stdc++.h> //#include "treasure.h" using namespace std; typedef long long ll; struct Node; using twoNodes=array<Node*,2>; struct Node { int val; int l,r; int sum; int sz; int flip; twoNodes kids; Node *p; Node *pathp; twoNodes neighbours; Node(int a,int b){val=(b-a+1);l=a;r=b;sum=val;sz=1;flip=0;kids[0]=kids[1]=p=pathp=nullptr;} }; int sz(Node *me){return (me?me->sz:0);} int side(Node *me){return (me->p?(me->p->kids[1]==me):0);} void recalc(Node *me) { if(!me) return; me->sz=1; me->sum=me->val; for(Node *to:me->kids) if(to) {me->sz+=to->sz;me->sum+=to->sum;} } void apply(Node *me) { if(!me) return; swap(me->kids[0],me->kids[1]); me->flip^=1; } void prop(Node *me) { if(me&&me->flip==1) { for(Node *to:me->kids) apply(to); me->flip=0; } } void make_parent(Node *me,int id,Node *kid) { if(me) me->kids[id]=kid; recalc(me); if(kid) kid->p=me; } void unmake_parent(Node *me,int id) { make_parent(nullptr,0,me->kids[id]); make_parent(me,id,nullptr); } void rotate_up(Node *me) { Node *p=me->p; int id=side(me); if(!p->p) swap(me->pathp,p->pathp); make_parent(p->p,side(p),me); make_parent(p,id,me->kids[id^1]); make_parent(me,id^1,p); } void splay(Node *me) { while(me->p) { prop(me->p->p); prop(me->p); prop(me); if(me->p->p) { if(side(me)==side(me->p)) rotate_up(me->p); else rotate_up(me); } rotate_up(me); } prop(me); recalc(me); } Node* find_kth(Node *me,int cnt) { prop(me); if(sz(me->kids[0])>=cnt) return find_kth(me->kids[0],cnt); else if(sz(me->kids[0])==cnt-1) return me; else return find_kth(me->kids[1],cnt-sz(me->kids[0])-1); } void detach_path(Node *me) { if(me->kids[1]) me->kids[1]->pathp=me; unmake_parent(me,1); } Node* access(Node *me) { Node *up=me; splay(me); detach_path(me); while(me->pathp) { up=me->pathp; me->pathp=nullptr; splay(up); detach_path(up); make_parent(up,1,me); splay(me); } return up; } void make_root(Node *me) { access(me); apply(me); } void cut(Node *me) { access(me); unmake_parent(me,0); } void link(Node *me,Node *up) { access(me); access(up); make_parent(me,0,up); } map<int,Node*> m; int id; void init() { m[1]=new Node(1,1); id=1; } map<int,Node*>::iterator find_it(int a) { auto it=m.lower_bound(a+1); it--; return it; } Node* find_node(int a) { return (find_it(a)->second); } void split(int a) { auto it=find_it(a); Node *now=(it->second); int l=now->l; int r=now->r; if(l==r) return; Node *prv=(now->neighbours[0]); Node *nxt=(now->neighbours[1]); make_root(now); cut(prv); cut(nxt); auto it_pos=m.erase(it); vector<Node*> v={prv}; if(l<a) v.push_back(new Node(l,a-1)); v.push_back(new Node(a,a)); if(a<r) v.push_back(new Node(a+1,r)); v.push_back(nxt); for(int i=1;i<(int)v.size()-1;i++) m.insert(it_pos,{v[i]->l,v[i]}); for(int i=0;i<(int)v.size()-1;i++) { make_root(v[i]); link(v[i],v[i+1]); if(i>0) v[i]->neighbours={v[i-1],v[i+1]}; } } void path(int a,int s) { int b=id+s; Node *e=new Node(b,b); auto it_pos=m.insert({b,e}).first; split(a); if(s==1) link(e,find_node(a)); else { Node *mid=new Node(id+1,b-1); m.insert(it_pos,{id+1,mid}); mid->neighbours={find_node(a),e}; link(mid,find_node(a)); link(e,mid); } id=b; // cout << "after op:" << endl; // for(auto [x,p]:m) // { // cout << "[" << x[0] << "," << x[1] << "]: " << p << endl; // } } void pr(Node *me) { if(!me) return; prop(me); pr(me->kids[0]); cout << "[" << me->l << "," << me->r << "] "; pr(me->kids[1]); } Node* descend(Node *me,int cnt) { prop(me); int l=(me->kids[0]?me->kids[0]->sum:0); if(l>=cnt) return descend(me->kids[0],cnt); cnt-=l; if(me->val>=cnt) return me; cnt-=(me->val); return descend(me->kids[1],cnt); } Node* find_prv(Node *me) { prop(me); me=me->kids[0]; prop(me); while(me->kids[1]) { me=me->kids[1]; prop(me); } splay(me); return me; } int dig(int a,int b) { split(a); split(b); Node *one=find_node(a); Node *two=find_node(b); make_root(one); access(two); splay(one); // cout << "path a->b: "; // pr(one); // cout << endl; int path_len=(one->sum); int half_len=(path_len+1)/2; // cout << "path_len=" << path_len << endl; Node *t=descend(one,half_len); splay(t); if(t->val==1) return (t->l); Node *prv=find_prv(t); int src=(prv->l); int here_len=(prv->val+(prv->kids[0]?prv->kids[0]->sum:0)); splay(t); int kth=(half_len-here_len); int c=t->l; int d=t->r; if(src<c) return c+kth-1; else return d-kth+1; // int l=0,r=num_nodes; // while(l<r-1) // { // int mid=(l+r)/2; // splay(one); // Node* t=find_kth(one,mid); // splay(t); // int here_len=(t->val+(t->kids[0]?t->kids[0]->sum:0)); // if(here_len>=half_len) r=mid; // else l=mid; // } //// cout << "r=" << r << endl; // splay(one); // Node *t=find_kth(one,r); // if(t->val==1) return (t->l); // else // { // splay(one); // t=find_kth(one,r-1); // splay(t); // int src=(t->l); // assert(t->val==1); // int here_len=(t->val+(t->kids[0]?t->kids[0]->sum:0)); //// cout << "here_len=" << here_len << endl; // splay(one); // t=find_kth(one,r); // splay(t); // int kth=(half_len-here_len); // int c=t->l; // int d=t->r; // if(src<c) return c+kth-1; // else return d-kth+1; // } } //int main() //{ // ios::sync_with_stdio(0); // cin.tie(0); // int n; // cin >> n; // while(n--) // { // char t; // int a,b; // cin >> t >> a >> b; // if(t=='i') init(); // else if(t=='p') path(a,b); // else if(t=='d') cout << dig(a,b) << endl; // } // return 0; //}
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