#pragma GCC optimize("Ofast") //#pragma GCC optimize("unroll-loops") //#pragma GCC push_options //#pragma GCC target("sse,sse2,sse3,ssse3,sse4,popcnt,abm,mmx,avx,tune=native") #include #include #include using namespace::std; __attribute__((constructor))void init(){cin.tie(0);ios::sync_with_stdio(false);cout< #include #include #include // #include // #include // namespace mp = boost::multiprecision; // typedef mp::number> cdouble; // typedef mp::cpp_int cint; templateusing pbds=__gnu_pbds::tree,__gnu_pbds::rb_tree_tag,__gnu_pbds::tree_order_statistics_node_update>; templateusing pbds_map=__gnu_pbds::tree,__gnu_pbds::rb_tree_tag,__gnu_pbds::tree_order_statistics_node_update>; templateusing hash_map=__gnu_pbds::gp_hash_table; templateusing pqueue =__gnu_pbds::priority_queue,__gnu_pbds::rc_binomial_heap_tag>; typedef long long lint; #define INF (1LL<<60) #define IINF (1<<30) #define EPS (1e-10) //#define MOD 1000000007LL #define MOD 998244353LL typedef vector vec; typedef vector> mat; typedef vector>> mat3; typedef vector svec; typedef vector> smat; templateinline void numout(T t){bool f=0;for(auto i:t){cout<<(f?" ":"")<inline void numout2(T t){for(auto i:t)numout(i);} templateinline void output(T t){bool f=0;for(auto i:t){cout<<(f?" ":"")<inline void output2(T t){for(auto i:t)output(i);} templateinline void _output(T t){bool f=0;for(lint i=0;iinline void _output2(T t){for(lint i=0;i=0;--i) #define rrepi(i,a,b) for(lint i=lint(b)-1;i>=lint(a);--i) #define irep(i) for(lint i=0;;++i) #define all(n) begin(n),end(n) #define dist(a,b,c,d) sqrt(pow(a-c,2)+pow(b-d,2)) inline lint gcd(lint A,lint B){return B?gcd(B,A%B):A;} inline lint lcm(lint A,lint B){return A/gcd(A,B)*B;} // inline cint cgcd(cint A,cint B){return B?cgcd(B,A%B):A;} // inline cint clcm(cint A,cint B){return A/cgcd(A,B)*B;} //inline bool chmin(auto& s,const auto& t){bool res=s>t;s=min(s,t);return res;} //inline bool chmax(auto& s,const auto& t){bool res=s dx={1,0,-1,0,1,1,-1,-1}; const vector dy={0,1,0,-1,1,-1,1,-1}; #define SUM(v) accumulate(all(v),0LL) auto call=[](auto f,auto... args){return f(f,args...);}; template class dual_segment{ struct node; using np=node*; using lint=long long; struct node{ T val; np ch[2]={nullptr,nullptr}; node(T val):val(val){} }; np root=nullptr; lint n=1,sz; private: void eval(np& t){ if(t->val==e)return; if(!t->ch[0])t->ch[0]=new node(e); if(!t->ch[1])t->ch[1]=new node(e); t->ch[0]->val=f(t->ch[0]->val,t->val); t->ch[1]->val=f(t->ch[1]->val,t->val); t->val=e; } void set(lint a,lint b,T x,lint l,lint r,np& t){ if(!t)t=new node(e); if(r-l>1)eval(t); if(r<=a||b<=l)return; else if(a<=l&&r<=b)t->val=f(t->val,x); else if(r-l>1){ set(a,b,x,l,(l+r)/2,t->ch[0]); set(a,b,x,(l+r)/2,r,t->ch[1]); } } T get(lint x,lint l,lint r,np& t){ if(!t)t=new node(e); if(r-l>1)eval(t); if(xval; } else return f(get(x,l,(l+r)/2,t->ch[0]),get(x,(l+r)/2,r,t->ch[1])); } T e=0; T f(T s,T t){ return s+t; } public: dual_segment(lint sz):sz(sz){while(n>n>>q; vec a(n); rep(i,n){ cin>>a[i]; } dual_segmentseg(n); vec b(n,0); rep(i,q){ string s; cin>>s; if(s=="A"){ lint x,y; cin>>x>>y; x--; lint t=seg.get(x); b[x]+=t*a[x]; a[x]+=y; seg.set(x,x+1,-t); }else{ lint x,y; cin>>x>>y; x--; seg.set(x,y,1); } } rep(i,n){ b[i]+=seg.get(i)*a[i]; } output(b); }