#include #pragma GCC optimize("Ofast") #pragma GCC optimize("unroll-loops") #pragma GCC target("sse,sse2,sse3,ssse3,sse4,fma,abm,mmx,avx,avx2") #define rep(i, n) for (ll i = 0; i < (int)(n); i++) #define rrep(i, n) for (ll i = (int)(n) - 1; i >= 0; i--) #define all(x) (x).begin(), (x).end() #define sz(x) ll(x.size()) #define yn(joken) cout<<((joken) ? "Yes" : "No")<<"\n" #define YN(joken) cout<<((joken) ? "YES" : "NO")<<"\n" #define UNIQUE(x) sort(all(x)), x.erase(unique(all(x)), x.end()) using namespace std; using ll = long long; using pii = pair; using pll = pair; using vi = vector; using vl = vector; using vpi = vector>; using vpl = vector>; using vs = vector; using vc = vector; using vd = vector; using vld = vector; using vvi = vector>; using vvl = vector>; using vvs = vector>; using vvc = vector>; using vvd = vector>; using vvld = vector>; using vvvi = vector>>; using vvvl = vector>>; using vvvvi = vector>>>; using vvvvl = vector>>>; template using priq = priority_queue; template using priqg = priority_queue, greater>; const int INF = 1e9; const ll LINF = 2e18; template inline bool chmax(T &a, const S &b) { return (a < b ? a = b, 1 : 0); } template inline bool chmin(T &a, const S &b) { return (a > b ? a = b, 1 : 0); } template vi iota(int n) { vi a(n); return iota(a.begin(), a.end(), 0), a; } template vi iota(const vector &a, bool greater = false) { vi ret(a.size()); iota(ret.begin(), ret.end(), 0); sort(ret.begin(), ret.end(), [&](int i, int j) { if(greater) return a[i] > a[j]; return a[i] < a[j]; }); return ret; } template void rearrange(const vector &id) {} template void rearrange_exec(const vector &id, vector &v) { vector w(v.size()); rep(i, sz(id)) w[i] = v[id[i]]; v.swap(w); } // 並び替える順番, 並び替えるvector template void rearrange(const vector &id, Head &a, Tail &...tail) { rearrange_exec(id, a); rearrange(id, tail...); } template vector RUI(const vector &v) { vector res(v.size() + 1); for(int i = 0; i < v.size(); i++) res[i + 1] = res[i] + v[i]; return res; } // 反時計周りに 90 度回転 template void roth(vector> &v) { if(empty(v)) return; int n = v.size(), m = v[0].size(); vector> res(m, vector(n)); rep(i, n) rep(j, m) res[m - 1 - j][i] = v[i][j]; v.swap(res); } // 時計周りに 90 度回転 template void rott(vector> &v) { if(empty(v)) return; int n = v.size(), m = v[0].size(); vector> res(m, vector(n)); rep(i, n) rep(j, m) res[j][n - 1 - i] = v[i][j]; v.swap(res); } bool ispow2(int i) { return i && (i & -i) == i; } bool ispow2(ll i) { return i && (i & -i) == i; } template T ceil(T x, S y) { // x/y以上の最小の整数を返す assert(y); return (y < 0 ? ceil(-x, -y) : (x > 0 ? (x + y - 1) / y : x / y)); } template T floor(T x, S y) { // x/y以下の最大の整数を返す assert(y); return (y < 0 ? floor(-x, -y) : (x > 0 ? x / y : x / y - (x % y == 0 ? 0 : 1))); } template vector> RunLength(const vector &v) { vector> res; for(auto &e : v) { if(res.empty() || res.back().first != e) res.emplace_back(e, 1); else res.back().second++; } return res; } vector> RunLength(const string &v) { vector> res; for(auto &e : v) { if(res.empty() || res.back().first != e) res.emplace_back(e, 1); else res.back().second++; } return res; } template T bin_search(T ok, T ng, const F &f) { while(abs(ok - ng) > 1) { T mid = ok + ng >> 1; (f(mid) ? ok : ng) = mid; } return ok; } template T bin_search_double(T ok, T ng, const F &f, int iter = 80) { while(iter--) { T mid = (ok + ng) / 2; (f(mid) ? ok : ng) = mid; } return ok; } template istream& operator>>(istream& is, vector& v) { for (int i = 0; i < int(v.size()); i++) { is >> v[i]; } return is; } namespace aux { template struct tp { static void output(std::ostream &os, const T &v) { os << std::get(v) << (&os == &cerr ? ", " : " "); tp::output(os, v); } }; template struct tp { static void output(std::ostream &os, const T &v) { os << std::get(v); } }; } // namespace aux template std::ostream &operator<<(std::ostream &os, const std::tuple &t) { if(&os == &cerr) { os << '('; } aux::tp, 0, sizeof...(Ts) - 1>::output(os, t); if(&os == &cerr) { os << ')'; } return os; } template std::ostream &operator<<(std::ostream &os, const stack &_st) { auto st = _st; vector res; while(!empty(st)) res.emplace_back(st.top()), st.pop(); reverse(all(res)); return os << res; } template std::ostream &operator<<(std::ostream &os, const queue &_qu) { auto qu = _qu; vector res; while(!empty(qu)) res.emplace_back(qu.front()), qu.pop(); return os << res; } template std::ostream &operator<<(std::ostream &os, const deque &_dq) { auto dq = _dq; vector res; while(!empty(dq)) res.emplace_back(dq.front()), dq.pop_front(); return os << res; } template std::ostream &operator<<(std::ostream &os, const priority_queue &_pq) { auto pq = _pq; vector res; while(!empty(pq)) res.emplace_back(pq.top()), pq.pop(); return os << res; } template ostream &operator<<(ostream &os, const pair &p) { if(&os == &cerr) { return os << "(" << p.first << ", " << p.second << ")"; } return os << p.first << " " << p.second; } template std::basic_ostream &operator<<(std::basic_ostream &os, const Container &x) { bool f = true; if(&os == &cerr) os << "["; for(auto &y : x) { if(&os == &cerr) os << (f ? "" : ", ") << y; else os << (f ? "" : " ") << y; f = false; } if(&os == &cerr) os << "]"; return os; } static uint32_t RandXor(){ static uint32_t x=123456789; static uint32_t y=362436069; static uint32_t z=521288629; static uint32_t w=88675123; uint32_t t; t=x^(x<<11); x=y; y=z; z=w; return w=(w^(w>>19))^(t^(t>>8)); } static double Rand01(){ return (RandXor()+0.5)*(1.0/UINT_MAX); } template void rshuffle(vector &V){ random_device seed_gen; mt19937 engine(seed_gen()); shuffle(V.begin(),V.end(),engine); } // auto seg=get_dual_segment_tree(N,h,OM0,commutative); のように宣言する // N: 元配列の要素数 // h: 作用fと要素aに対して, f*f->f および f*a->a のはず // OM0: 単位元 // commutative: 作用が可換かどうか, デフォルトはtrue // update(l,r,x): 半開区間[l,r)にxを作用させる // seg[k]でk番目の要素を取得できる template struct DualSegmentTree{ DualSegmentTree(int n, const H h, const OperatorMonoid &OM0, bool commutative) : h(h), OM0(OM0), commutative(commutative){ sz = 1; height = 0; while (sz < n) sz <<= 1, height++; lazy.assign(2 * sz, OM0); } void update(int a, int b, const OperatorMonoid &x){ a+=sz; b+=sz-1; if(!commutative) thrust(a); if(!commutative) thrust(b); for (int l = a, r = b + 1; l < r; l >>= 1, r >>= 1){ if (l & 1) lazy[l] = h(lazy[l], x), ++l; if (r & 1) --r, lazy[r] = h(lazy[r], x); } } vector get_all(){ for(int i=1;i(lazy.begin()+sz,lazy.end()); } OperatorMonoid operator[](int k){ if(commutative){ OperatorMonoid ret=OM0; k+=sz; while(k){ ret=h(ret,lazy[k]); k>>=1; } return ret; } else{ thrust(k += sz); return lazy[k]; } } private: int sz, height; vector lazy; const H h; const OperatorMonoid OM0; bool commutative; inline void propagate(int k){ if (lazy[k] != OM0){ lazy[2 * k] = h(lazy[2 * k], lazy[k]); lazy[2 * k + 1] = h(lazy[2 * k + 1], lazy[k]); lazy[k] = OM0; } } inline void thrust(int k){ for (int i = height; i > 0; i--) propagate(k >> i); } }; template DualSegmentTree get_dual_segment_tree(int N, const H &h, const OperatorMonoid &OM0,bool commutative=true){ return {N, h, OM0, commutative}; } // DynamicLiChaoTree LCT(ll min_index,ll max_index); などする // xの動きうる最大範囲が[min_index,max_index) // void add_line(T a,T b): 直線 ax+b を追加 // void add_segment_line(T Llim,T Rlim,T a,T b): [Llim,Rlim]の線分 ax+b を追加 // T get(T x): min(ax+b) を返す template struct DynamicLiChaoTree{ private: struct node { node *left, *right; static const T inf=numeric_limits::max(); T a,b,l,r; node():node(0,inf){} node(const T _a,const T _b,const T _l,const T _r): left(nullptr),right(nullptr),a(_a),b(_b),l(_l),r(_r) {} T f(const T x){return (l<=x && xa,y->a); std::swap(x->b,y->b); std::swap(x->l,y->l); std::swap(x->r,y->r); } void _add_segment(node* cur,node* nw,T l,T r){ while(true){ const T m=(l+r)>>1; // nwがnwの全域でcurに負けてる if(cur->f(nw->l)<=nw->g(nw->l) && cur->f(nw->r-1)<=nw->g(nw->r-1)) break; // curがcurの全域でnwに負けてる if(cur->g(cur->l)>=nw->f(cur->l) && cur->g(cur->r-1)>=nw->f(cur->r-1)){ swap(cur,nw); break; } if(cur->same(l,r) && nw->same(l,r)){ // curもnwも[l,r)を覆ってる if(nw->g(l)g(l)) swap(cur,nw); if(cur->g(m)<=nw->g(m)){ if(!cur->right){ cur->right=new node(nw->a,nw->b,m,r); break; } else{ cur=cur->right; l=m; nw->l=m; } } else{ swap(cur,nw); if(!cur->left){ cur->left=new node(nw->a,nw->b,l,m); break; } else{ cur=cur->left; r=m; nw->r=m; } } continue; } // curが[l,r)を覆ってる状態にする if(nw->same(l,r)) swap(cur,nw); if(nw->r<=m){ if(!cur->left){ cur->left=new node(*nw); break; } else{ cur=cur->left; r=m; } } else if(m<=nw->l){ if(!cur->right){ cur->right=new node(*nw); break; } else{ cur=cur->right; l=m; } } else{ node _nw(nw->a,nw->b,m,nw->r); nw->r=m; if(!cur->left){ cur->left=new node(*nw); } else{ _add_segment(cur->left,nw,l,m); } if(!cur->right){ cur->right=new node(_nw); } else{ _add_segment(cur->right,&_nw,m,r); } break; } } } T _get(node *cur,const T x,T l,T r) const { T ret=numeric_limits::max(); while(cur){ ret=min(ret,cur->f(x)); const T m=(l+r)>>1; if(xleft; r=m; } else{ cur=cur->right; l=m; } } return ret; } public: DynamicLiChaoTree(const T min_index,const T max_index): min_index(min_index), max_index(max_index), root(new node(0,numeric_limits::max(),min_index,max_index)){} void add_line(const T a, const T b){ node nw(a,b,min_index,max_index); _add_segment(root,&nw,min_index,max_index); } void add_segment(const T a,const T b,const T l,const T r){ node nw(a,b,l,r); _add_segment(root,&nw,min_index,max_index); } T get(T x){ return _get(root,x,min_index,max_index); } }; void solve(){ ll N; cin>>N; vl A(N); cin>>A; auto h=[&](ll l,ll r){ return min(l,r); }; auto seg=get_dual_segment_tree(N,h,LINF); auto calc=[&](auto &&self,ll l,ll r)->void{ if(r-l<=0) return; if(r-l==1){ seg.update(l,r,1+A[l]); return; } ll m=(l+r)/2; self(self,l,m); self(self,m,r); DynamicLiChaoTree DLC1(1,m-l+1); ll smy=0; for(ll i=m;i=l;i--){ smx+=A[i]; seg.update(i,m,DLC1.get(m-i)+(m-i)*(m-i)+smx); } DynamicLiChaoTree DLC2(1,r-m+1); smx=0; for(ll i=m-1;i>=l;i--){ smx+=A[i]; DLC2.add_line(2*(m-i),smx+(m-i)*(m-i)); } smy=0; for(ll i=m;i