#include using namespace atcoder; #include using namespace internal; #include using namespace std; #include #pragma GCC target("avx2") #pragma GCC optimize("O3") #pragma GCC optimize("unroll-loops") #define rep(i, n) for (int i = 0; i < (int)(n); i++) #define rep2(i,a,b) for (int i = (int)(a); i < (int)(b); i++) #define all(v) v.begin(),v.end() #define inc(x,l,r) ((l)<=(x)&&(x)<(r)) #define Unique(x) sort(all(x)), x.erase(unique(all(x)), x.end()) #define pcnt __builtin_popcountll #define pb push_back typedef long long ll; #define int ll using ld = long double; using vi = vector; using vs = vector; using P = pair; using vp = vector

; using ull = unsigned long long; using Bint = boost::multiprecision::cpp_int; template bool chmax(T1 &a, const T2 b) {if (a < b) {a = b; return true;} else return false; } template bool chmin(T1 &a, const T2 b) {if (a > b) {a = b; return true;} else return false; } template using priority_queue_greater = priority_queue, greater>; template ostream &operator<< (ostream &os, const pair &p){os << p.first <<" "<> (istream &is, modint1000000007 &m){ll in;is>>in;m=in;return is;} ostream &operator<< (ostream &os, const modint998244353 &m){os << m.val();return os;} istream &operator>> (istream &is, modint998244353 &m){ll in;is>>in;m=in;return is;} template istream &operator>>(istream& is,vector &v){for(T &in:v)is>>in;return is;} template void input(T&... a){(cin>> ... >> a);} #ifdef LOCAL template ostream &operator<<(ostream &os,const vector &v){os<<"\x1b[32m";rep(i,v.size())os< int print(T& a){cout << "\x1b[32m"<< a<< '\n' << "\x1b[0m";return 0;} template int print(const T&a, const Ts&... b){cout << "\x1b[32m" << a;(cout<<...<<(cout<<' ',b));cout<<'\n' << "\x1b[0m";return 0;} #else template ostream &operator<<(ostream &os,const vector &v){rep(i,v.size())os< int print(T& a){cout << a<< '\n';return 0;} template int print(const T&a, const Ts&... b){cout << a;(cout<<...<<(cout<<' ',b));cout<<'\n';return 0;} #endif #define VI(v,n) vi v(n); input(v) #define INT(...) int __VA_ARGS__; input(__VA_ARGS__) #define STR(...) string __VA_ARGS__; input(__VA_ARGS__) #define CHAR(...) char __VA_ARGS__; input(__VA_ARGS__) int sign(ll x){return x>0?1:x<0?-1:0;} ll ceil(ll x,ll y){assert(y!=0);if(sign(x)==sign(y))return (x+y-1)/y;return -((-x/y));} ll floor(ll x,ll y){assert(y!=0);if(sign(x)==sign(y))return x/y;if(y<0)x*=-1,y*=-1;return x/y-(x%y<0);} ll abs(ll x,ll y){return abs(x-y);} ll bit(int n){return 1ll< bool ins(string s,T t){return s.find(t)!=string::npos;} P operator+ (const P &p, const P &q){ return P{p.first+q.first,p.second+q.second};} P operator- (const P &p, const P &q){ return P{p.first-q.first,p.second-q.second};} int yesno(bool ok,string y="Yes",string n="No"){ cout<<(ok?y:n)< struct dynamic_lazy_segtree{ private: ll n; struct node{ ll lx, rx; node *l, *r; S d; F lz; node(ll lx, ll rx, S val): lx(lx), rx(rx), l(nullptr), r(nullptr), d(val), lz(id()){} }; node *root; node *make_node(ll lx, ll rx, S val = e()){ return new node(lx, rx, val); } void all_apply(node *v, F x){ v->d = mapping(x, v->d, v->lx, v->rx); v->lz = composition(x, v->lz); } void push(node *v){ if(v->lz == id()) return; ll mid = (v->lx + v->rx) >> 1; if(!v->l) v->l = make_node(v->lx, mid); if(!v->r) v->r = make_node(mid, v->rx); all_apply(v->l, v->lz); all_apply(v->r, v->lz); v->lz = id(); } S set(node *v, ll k, S x){ if(v->rx - v->lx == 1) return v->d = x; push(v); ll mid = (v->lx + v->rx) >> 1; if(mid <= k){ if(!v->r) v->r = make_node(mid, v->rx); if(!v->l) return v->d = set(v->r, k, x); else return v->d = op(v->l->d, set(v->r, k, x)); }else{ if(!v->l) v->l = make_node(v->lx, mid); if(!v->r) return v->d = set(v->l, k, x); else return v->d = op(set(v->l, k, x), v->r->d); } } S get(node *v, ll k){ if(!v) return e(); if(v->rx - v->lx == 1) return v->d; push(v); ll mid = (v->lx + v->rx) >> 1; if(mid <= k) return get(v->r, k); else return get(v->l, k); } S update(node *v, ll l, ll r, F x){ if(r <= v->lx || v->rx <= l) return v->d; if(l <= v->lx && v->rx <= r){ all_apply(v, x); return v->d; } push(v); ll mid = (v->lx + v->rx) >> 1; if(!v->l) v->l = make_node(v->lx, mid); if(!v->r) v->r = make_node(mid, v->rx); return v->d = op(update(v->l, l, r, x), update(v->r, l, r, x)); } S prod(node *v, ll l, ll r){ if(!v || r <= v->lx || v->rx <= l) return e(); if(l <= v->lx && v->rx <= r) return v->d; push(v); return op(prod(v->l, l, r), prod(v->r, l, r)); } template ll max_right(node *v, const ll l, const G &g, S &p){ if(v->rx <= l) return n; push(v); if(l <= v->lx){ S m = op(p, v->d); if(g(m)) { p = op(p, v->d); return n; } if(v->rx - v->lx == 1) return v->rx; } ll res = n; if(v->l) res = max_right(v->l, l, g, p); if(res != n) return res; if(v->r) res = max_right(v->r, l, g, p); return res; } template ll min_left(node *v, const ll r, const G &g, S &p){ if(r < v->lx) return 0; push(v); if(v->rx <= r + 1){ S m = op(v->d, p); if(g(m)) { p = op(v->d,p); return 0; } if(v->rx - v->lx == 1) return v->rx; } ll res = 0; if(v->r) res = min_left(v->r, r, g, p); if(res != 0) return res; if(v->l) res = min_left(v->l, r, g, p); return res; } public: dynamic_lazy_segtree(): root(nullptr),n(0){} dynamic_lazy_segtree(ll n):n(n){ root = make_node(0, n); } void set(ll k, S x){ assert(root); set(root, k, x); } S get(ll k){ assert(root); return get(root, k); } void apply(ll l, ll r, F x){ assert(root); assert(0<=l && l<=r &&r<=n); update(root, l, r, x); } S prod(ll l, ll r){ assert(root); assert(0<=l && l<=r &&r<=n); return prod(root, l, r); } S all_prod(){ assert(root); return root->d; } template ll max_right(ll l, const G &g){ assert(root && 0 <= l && l < n); auto p = e(); assert(g(p)); return max_right(root, l, g, p); } template ll min_left(ll r, const G &g){ --r; assert(root && 0 <= r && r < n); auto p = e(); assert(g(p)); return min_left(root, r, g, p); } }; using S = long long; using F = long long; S op(S a, S b){return max(a,b);} S e(){return -1;} F id(){return -1;} S mapping(F x, S s, ll l, ll r){return max(x,s);} F composition(F a, F b){return max(a,b);} signed main() { INT(n,a); vi x(n);cin>>x; dynamic_lazy_segtree seg(1e9+1); INT(t); rep(i,t){ INT(l,r); seg.apply(l,++r,i+1); } rep(i,n)print(seg.get(x[i])); return 0; }