結果
問題 | No.1080 Strange Squared Score Sum |
ユーザー | maroon_kuri |
提出日時 | 2020-06-13 00:31:19 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 435 ms / 5,000 ms |
コード長 | 19,797 bytes |
コンパイル時間 | 4,052 ms |
コンパイル使用メモリ | 246,092 KB |
実行使用メモリ | 15,484 KB |
最終ジャッジ日時 | 2024-06-24 06:11:03 |
合計ジャッジ時間 | 9,988 ms |
ジャッジサーバーID (参考情報) |
judge2 / judge1 |
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テストケース
テストケース表示入力 | 結果 | 実行時間 実行使用メモリ |
---|---|---|
testcase_00 | AC | 7 ms
6,816 KB |
testcase_01 | AC | 7 ms
6,940 KB |
testcase_02 | AC | 212 ms
11,344 KB |
testcase_03 | AC | 431 ms
15,364 KB |
testcase_04 | AC | 101 ms
8,576 KB |
testcase_05 | AC | 103 ms
8,756 KB |
testcase_06 | AC | 28 ms
6,940 KB |
testcase_07 | AC | 53 ms
7,460 KB |
testcase_08 | AC | 213 ms
11,184 KB |
testcase_09 | AC | 210 ms
11,132 KB |
testcase_10 | AC | 28 ms
6,940 KB |
testcase_11 | AC | 434 ms
15,232 KB |
testcase_12 | AC | 214 ms
11,128 KB |
testcase_13 | AC | 432 ms
15,252 KB |
testcase_14 | AC | 209 ms
11,156 KB |
testcase_15 | AC | 7 ms
6,940 KB |
testcase_16 | AC | 435 ms
15,484 KB |
testcase_17 | AC | 213 ms
10,744 KB |
testcase_18 | AC | 213 ms
10,868 KB |
testcase_19 | AC | 218 ms
10,616 KB |
testcase_20 | AC | 433 ms
15,352 KB |
testcase_21 | AC | 434 ms
15,208 KB |
ソースコード
#include <bits/stdc++.h> using namespace std; using ll=long long; #define int ll #define rng(i,a,b) for(int i=int(a);i<int(b);i++) #define rep(i,b) rng(i,0,b) #define gnr(i,a,b) for(int i=int(b)-1;i>=int(a);i--) #define per(i,b) gnr(i,0,b) #define pb push_back #define eb emplace_back #define a first #define b second #define bg begin() #define ed end() #define all(x) x.bg,x.ed #define si(x) int(x.size()) #ifdef LOCAL #define dmp(x) cerr<<__LINE__<<" "<<#x<<" "<<x<<endl #else #define dmp(x) void(0) #endif template<class t,class u> void chmax(t&a,u b){if(a<b)a=b;} template<class t,class u> void chmin(t&a,u b){if(b<a)a=b;} template<class t> using vc=vector<t>; template<class t> using vvc=vc<vc<t>>; using pi=pair<int,int>; using vi=vc<int>; template<class t,class u> ostream& operator<<(ostream& os,const pair<t,u>& p){ return os<<"{"<<p.a<<","<<p.b<<"}"; } template<class t> ostream& operator<<(ostream& os,const vc<t>& v){ os<<"{"; for(auto e:v)os<<e<<","; return os<<"}"; } #define mp make_pair #define mt make_tuple #define one(x) memset(x,-1,sizeof(x)) #define zero(x) memset(x,0,sizeof(x)) #ifdef LOCAL void dmpr(ostream&os){os<<endl;} template<class T,class... Args> void dmpr(ostream&os,const T&t,const Args&... args){ os<<t<<" "; dmpr(os,args...); } #define dmp2(...) dmpr(cerr,__LINE__,##__VA_ARGS__) #else #define dmp2(...) void(0) #endif using uint=unsigned; using ull=unsigned long long; template<class t,size_t n> ostream& operator<<(ostream&os,const array<t,n>&a){ return os<<vc<t>(all(a)); } template<int i,class T> void print_tuple(ostream&,const T&){ } template<int i,class T,class H,class ...Args> void print_tuple(ostream&os,const T&t){ if(i)os<<","; os<<get<i>(t); print_tuple<i+1,T,Args...>(os,t); } template<class ...Args> ostream& operator<<(ostream&os,const tuple<Args...>&t){ os<<"{"; print_tuple<0,tuple<Args...>,Args...>(os,t); return os<<"}"; } template<class t> void print(t x,int suc=1){ cout<<x; if(suc==1) cout<<"\n"; if(suc==2) cout<<" "; } ll read(){ ll i; cin>>i; return i; } vi readvi(int n,int off=0){ vi v(n); rep(i,n)v[i]=read()+off; return v; } template<class T> void print(const vector<T>&v,int suc=1){ rep(i,v.size()) print(v[i],i==int(v.size())-1?suc:2); } string readString(){ string s; cin>>s; return s; } template<class T> T sq(const T& t){ return t*t; } //#define CAPITAL void yes(bool ex=true){ #ifdef CAPITAL cout<<"YES"<<"\n"; #else cout<<"Yes"<<"\n"; #endif if(ex)exit(0); } void no(bool ex=true){ #ifdef CAPITAL cout<<"NO"<<"\n"; #else cout<<"No"<<"\n"; #endif if(ex)exit(0); } void possible(bool ex=true){ #ifdef CAPITAL cout<<"POSSIBLE"<<"\n"; #else cout<<"Possible"<<"\n"; #endif if(ex)exit(0); } void impossible(bool ex=true){ #ifdef CAPITAL cout<<"IMPOSSIBLE"<<"\n"; #else cout<<"Impossible"<<"\n"; #endif if(ex)exit(0); } constexpr ll ten(int n){ return n==0?1:ten(n-1)*10; } const ll infLL=LLONG_MAX/3; #ifdef int const int inf=infLL; #else const int inf=INT_MAX/2-100; #endif int topbit(signed t){ return t==0?-1:31-__builtin_clz(t); } int topbit(ll t){ return t==0?-1:63-__builtin_clzll(t); } int botbit(signed a){ return a==0?32:__builtin_ctz(a); } int botbit(ll a){ return a==0?64:__builtin_ctzll(a); } int popcount(signed t){ return __builtin_popcount(t); } int popcount(ll t){ return __builtin_popcountll(t); } bool ispow2(int i){ return i&&(i&-i)==i; } ll mask(int i){ return (ll(1)<<i)-1; } bool inc(int a,int b,int c){ return a<=b&&b<=c; } template<class t> void mkuni(vc<t>&v){ sort(all(v)); v.erase(unique(all(v)),v.ed); } ll rand_int(ll l, ll r) { //[l, r] #ifdef LOCAL static mt19937_64 gen; #else static mt19937_64 gen(chrono::steady_clock::now().time_since_epoch().count()); #endif return uniform_int_distribution<ll>(l, r)(gen); } template<class t> void myshuffle(vc<t>&a){ rep(i,si(a))swap(a[i],a[rand_int(0,i)]); } template<class t> int lwb(const vc<t>&v,const t&a){ return lower_bound(all(v),a)-v.bg; } using uint=unsigned; using ull=unsigned long long; struct modinfo{uint mod,root;}; template<modinfo const&ref> struct modular{ static constexpr uint const &mod=ref.mod; static modular root(){return modular(ref.root);} uint v; //modular(initializer_list<uint>ls):v(*ls.bg){} modular(ll vv=0){s(vv%mod+mod);} modular& s(uint vv){ v=vv<mod?vv:vv-mod; return *this; } modular operator-()const{return modular()-*this;} modular& operator+=(const modular&rhs){return s(v+rhs.v);} modular&operator-=(const modular&rhs){return s(v+mod-rhs.v);} modular&operator*=(const modular&rhs){ v=ull(v)*rhs.v%mod; return *this; } modular&operator/=(const modular&rhs){return *this*=rhs.inv();} modular operator+(const modular&rhs)const{return modular(*this)+=rhs;} modular operator-(const modular&rhs)const{return modular(*this)-=rhs;} modular operator*(const modular&rhs)const{return modular(*this)*=rhs;} modular operator/(const modular&rhs)const{return modular(*this)/=rhs;} modular pow(int n)const{ modular res(1),x(*this); while(n){ if(n&1)res*=x; x*=x; n>>=1; } return res; } modular inv()const{return pow(mod-2);} /*modular inv()const{ int x,y; int g=extgcd(v,mod,x,y); assert(g==1); if(x<0)x+=mod; return modular(x); }*/ friend modular operator+(int x,const modular&y){ return modular(x)+y; } friend modular operator-(int x,const modular&y){ return modular(x)-y; } friend modular operator*(int x,const modular&y){ return modular(x)*y; } friend modular operator/(int x,const modular&y){ return modular(x)/y; } friend ostream& operator<<(ostream&os,const modular&m){ return os<<m.v; } friend istream& operator>>(istream&is,modular&m){ ll x;is>>x; m=modular(x); return is; } bool operator<(const modular&r)const{return v<r.v;} bool operator==(const modular&r)const{return v==r.v;} bool operator!=(const modular&r)const{return v!=r.v;} explicit operator bool()const{ return v; } }; //#define USE_GOOD_MOD //size of input must be a power of 2 //output of forward fmt is bit-reversed //output elements are in the range [0,mod*4) //input of inverse fmt should be bit-reversed template<class mint> void inplace_fmt(const int n,mint*const f,bool inv){ static constexpr uint mod=mint::mod; static constexpr uint mod2=mod*2; static const int L=30; static mint g[L],ig[L],p2[L]; if(g[0].v==0){ rep(i,L){ mint w=-mint::root().pow(((mod-1)>>(i+2))*3); g[i]=w; ig[i]=w.inv(); p2[i]=mint(1<<i).inv(); } } if(!inv){ int b=n; if(b>>=1){//input:[0,mod) rep(i,b){ uint x=f[i+b].v; f[i+b].v=f[i].v+mod-x; f[i].v+=x; } } if(b>>=1){//input:[0,mod*2) mint p=1; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } while(b){ if(b>>=1){//input:[0,mod*3) mint p=1; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } if(b>>=1){//input:[0,mod*4) mint p=1; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j].v=(f[j].v<mod2?f[j].v:f[j].v-mod2); f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } } }else{ int b=1; if(b<n/2){//input:[0,mod) mint p=1; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ ull x=f[j].v+mod-f[j+b].v; f[j].v+=f[j+b].v; f[j+b].v=x*p.v%mod; } p*=ig[__builtin_ctz(++k)]; } b<<=1; } for(;b<n/2;b<<=1){ mint p=1; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b/2){//input:[0,mod*2) ull x=f[j].v+mod2-f[j+b].v; f[j].v+=f[j+b].v; f[j].v=(f[j].v)<mod2?f[j].v:f[j].v-mod2; f[j+b].v=x*p.v%mod; } rng(j,i+b/2,i+b){//input:[0,mod) ull x=f[j].v+mod-f[j+b].v; f[j].v+=f[j+b].v; f[j+b].v=x*p.v%mod; } p*=ig[__builtin_ctz(++k)]; } } if(b<n){//input:[0,mod*2) rep(i,b){ uint x=f[i+b].v; f[i+b].v=f[i].v+mod2-x; f[i].v+=x; } } mint z=p2[__lg(n)]; rep(i,n)f[i]*=z; } } template<class mint> void inplace_fmt(vector<mint>&f,bool inv){ inplace_fmt(si(f),f.data(),inv); } template<class mint> void half_fmt(const int n,mint*const f){ static constexpr uint mod=mint::mod; static constexpr uint mod2=mod*2; static const int L=30; static mint g[L],h[L]; if(g[0].v==0){ rep(i,L){ g[i]=-mint::root().pow(((mod-1)>>(i+2))*3); h[i]=mint::root().pow((mod-1)>>(i+2)); } } int b=n; int lv=0; if(b>>=1){//input:[0,mod) mint p=h[lv++]; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } if(b>>=1){//input:[0,mod*2) mint p=h[lv++]; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } while(b){ if(b>>=1){//input:[0,mod*3) mint p=h[lv++]; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } if(b>>=1){//input:[0,mod*4) mint p=h[lv++]; for(int i=0,k=0;i<n;i+=b*2){ rng(j,i,i+b){ uint x=(f[j+b]*p).v; f[j].v=(f[j].v<mod2?f[j].v:f[j].v-mod2); f[j+b].v=f[j].v+mod-x; f[j].v+=x; } p*=g[__builtin_ctz(++k)]; } } } } template<class mint> void half_fmt(vector<mint>&f){ half_fmt(si(f),f.data()); } #ifdef USE_GOOD_MOD template<class mint> vc<mint> multiply(vc<mint> x,const vc<mint>&y,bool same=false){ int n=si(x)+si(y)-1; int s=1; while(s<n)s*=2; x.resize(s);inplace_fmt(x,false); if(!same){ vc<mint> z(s); rep(i,si(y))z[i]=y[i]; inplace_fmt(z,false); rep(i,s)x[i]*=z[i]; }else{ rep(i,s)x[i]*=x[i]; } inplace_fmt(x,true);x.resize(n); return x; } #else //59501818244292734739283969-1=5.95*10^25 までの値を正しく計算 //最終的な列の大きさが 2^24 までなら動く //最終的な列の大きさが 2^20 以下のときは,下の 3 つの素数を使ったほうが速い(は?) //VERIFY: yosupo //Yukicoder No980 (same=true) namespace arbitrary_convolution{ //constexpr modinfo base0{167772161,3};//2^25 * 5 + 1 //constexpr modinfo base1{469762049,3};//2^26 * 7 + 1 //constexpr modinfo base2{754974721,11};//2^24 * 45 + 1 constexpr modinfo base0{1045430273,3};//2^20 * 997 + 1 constexpr modinfo base1{1051721729,6};//2^20 * 1003 + 1 constexpr modinfo base2{1053818881,7};//2^20 * 1005 + 1 using mint0=modular<base0>; using mint1=modular<base1>; using mint2=modular<base2>; template<class t,class mint> vc<t> sub(const vc<mint>&x,const vc<mint>&y,bool same=false){ int n=si(x)+si(y)-1; int s=1; while(s<n)s*=2; vc<t> z(s);rep(i,si(x))z[i]=x[i].v; inplace_fmt(z,false); if(!same){ vc<t> w(s);rep(i,si(y))w[i]=y[i].v; inplace_fmt(w,false); rep(i,s)z[i]*=w[i]; }else{ rep(i,s)z[i]*=z[i]; } inplace_fmt(z,true);z.resize(n); return z; } template<class mint> vc<mint> multiply(const vc<mint>&x,const vc<mint>&y,bool same=false){ auto d0=sub<mint0>(x,y,same); auto d1=sub<mint1>(x,y,same); auto d2=sub<mint2>(x,y,same); int n=si(d0); vc<mint> res(n); static const mint1 r01=mint1(mint0::mod).inv(); static const mint2 r02=mint2(mint0::mod).inv(); static const mint2 r12=mint2(mint1::mod).inv(); static const mint2 r02r12=r02*r12; static const mint w1=mint(mint0::mod); static const mint w2=w1*mint(mint1::mod); rep(i,n){ ull a=d0[i].v; ull b=(d1[i].v+mint1::mod-a)*r01.v%mint1::mod; ull c=((d2[i].v+mint2::mod-a)*r02r12.v+(mint2::mod-b)*r12.v)%mint2::mod; res[i].v=(a+b*w1.v+c*w2.v)%mint::mod; } return res; } } using arbitrary_convolution::multiply; #endif template<class mint> struct Poly:public vc<mint>{ template<class...Args> Poly(Args...args):vc<mint>(args...){} Poly(initializer_list<mint>init):vc<mint>(all(init)){} int size()const{ return vc<mint>::size(); } void ups(int s){ if(size()<s)this->resize(s,0); } Poly low(int s)const{ return Poly(this->bg,this->bg+min(max(s,int(1)),size())); } Poly rev()const{ auto r=*this; reverse(all(r)); return r; } Poly operator>>(int x)const{ assert(x<size()); Poly res(size()-x); rep(i,size()-x)res[i]=(*this)[i+x]; return res; } Poly operator<<(int x)const{ Poly res(size()+x); rep(i,size())res[i+x]=(*this)[i]; return res; } mint freq(int i)const{ return i<size()?(*this)[i]:0; } Poly operator-()const{ Poly res=*this; for(auto&v:res)v=-v; return res; } Poly& operator+=(const Poly&r){ ups(r.size()); rep(i,r.size()) (*this)[i]+=r[i]; return *this; } template<class T> Poly& operator+=(T t){ (*this)[0]+=t; return *this; } Poly& operator-=(const Poly&r){ ups(r.size()); rep(i,r.size()) (*this)[i]-=r[i]; return *this; } template<class T> Poly& operator-=(T t){ (*this)[0]-=t; return *this; } template<class T> Poly& operator*=(T t){ for(auto&v:*this) v*=t; return *this; } Poly& operator*=(const Poly&r){ return *this=multiply(*this,r); } Poly square()const{ return multiply(*this,*this,true); } #ifndef USE_GOOD_MOD Poly inv(int s)const{ Poly r{mint(1)/(*this)[0]}; for(int n=1;n<s;n*=2) r=r*2-(r.square()*low(2*n)).low(2*n); return r.low(s); } #else //source: Section 4 of "Removing redundancy from high-precision Newton iteration" // 5/3 Poly inv(int s)const{ Poly r(s); r[0]=mint(1)/(*this)[0]; for(int n=1;n<s;n*=2){ vc<mint> f=low(2*n); f.resize(2*n); inplace_fmt(f,false); vc<mint> g=r.low(2*n); g.resize(2*n); inplace_fmt(g,false); rep(i,2*n)f[i]*=g[i]; inplace_fmt(f,true); rep(i,n)f[i]=0; inplace_fmt(f,false); rep(i,2*n)f[i]*=g[i]; inplace_fmt(f,true); rng(i,n,min(2*n,s))r[i]=-f[i]; } return r; } #endif template<class T> Poly& operator/=(T t){ return *this*=mint(1)/mint(t); } Poly quotient(const Poly&r,const Poly&rri)const{ int m=r.size(); assert(r[m-1].v); int n=size(); int s=n-m+1; if(s<=0) return {0}; return (rev().low(s)*rri.low(s)).low(s).rev(); } Poly& operator/=(const Poly&r){ return *this=quotient(r,r.rev().inv(max(size()-r.size(),int(0))+1)); } Poly& operator%=(const Poly&r){ *this-=*this/r*r; return *this=low(r.size()-1); } Poly operator+(const Poly&r)const{return Poly(*this)+=r;} template<class T> Poly operator+(T t)const{return Poly(*this)+=t;} Poly operator-(const Poly&r)const{return Poly(*this)-=r;} template<class T> Poly operator-(T t)const{return Poly(*this)-=t;} template<class T> Poly operator*(T t)const{return Poly(*this)*=t;} Poly operator*(const Poly&r)const{return Poly(*this)*=r;} template<class T> Poly operator/(T t)const{return Poly(*this)/=t;} Poly operator/(const Poly&r)const{return Poly(*this)/=r;} Poly operator%(const Poly&r)const{return Poly(*this)%=r;} Poly dif()const{ Poly r(max(int(0),size()-1)); rep(i,r.size()) r[i]=(*this)[i+1]*(i+1); return r; } Poly inte(const mint invs[])const{ Poly r(size()+1,0); rep(i,size()) r[i+1]=(*this)[i]*invs[i+1]; return r; } //VERIFY: yosupo //opencupXIII GP of Peterhof H Poly log(int s,const mint invs[])const{ assert((*this)[0]==1); if(s==1)return {0}; return (low(s).dif()*inv(s-1)).low(s-1).inte(invs); } //Petrozavodsk 2019w mintay1 G //yosupo judge Poly exp(int s,const mint invs[])const{ return exp2(s,invs).a; } //2つほしいときはコメントアウトの位置ずらす pair<Poly,Poly> exp2(int s,const mint invs[])const{ assert((*this)[0]==mint(0)); Poly f{1},g{1}; for(int n=1;;n*=2){ //if(n>=s)break; g=g*2-(g.square()*f).low(n); if(n>=s)break; Poly q=low(n).dif(); q=q+g*(f.dif()-f*q).low(2*n-1); f=f+(f*(low(2*n)-q.inte(invs))).low(2*n); } return make_pair(f.low(s),g.low(s)); } #ifndef USE_GOOD_MOD //CF250 E Poly sqrt(int s)const{ assert((*this)[0]==1); static const mint half=mint(1)/mint(2); Poly r{1}; for(int n=1;n<s;n*=2) r=(r+(r.inv(n*2)*low(n*2)).low(n*2))*half; return r.low(s); } #else //11/6 //VERIFY: yosupo Poly sqrt(int s)const{ assert((*this)[0]==1); static const mint half=mint(1)/mint(2); vc<mint> f{1},g{1},z{1}; for(int n=1;n<s;n*=2){ rep(i,n)z[i]*=z[i]; inplace_fmt(z,true); vc<mint> delta(2*n); rep(i,n)delta[n+i]=z[i]-freq(i)-freq(n+i); inplace_fmt(delta,false); vc<mint> gbuf(2*n); rep(i,n)gbuf[i]=g[i]; inplace_fmt(gbuf,false); rep(i,2*n)delta[i]*=gbuf[i]; inplace_fmt(delta,true); f.resize(2*n); rng(i,n,2*n)f[i]=-half*delta[i]; if(2*n>=s)break; z=f; inplace_fmt(z,false); vc<mint> eps=gbuf; rep(i,2*n)eps[i]*=z[i]; inplace_fmt(eps,true); rep(i,n)eps[i]=0; inplace_fmt(eps,false); rep(i,2*n)eps[i]*=gbuf[i]; inplace_fmt(eps,true); g.resize(2*n); rng(i,n,2*n)g[i]=-eps[i]; } f.resize(s); return f; } #endif pair<Poly,Poly> divide(const Poly&r,const Poly&rri)const{ Poly a=quotient(r,rri); Poly b=*this-a*r; return make_pair(a,b.low(r.size()-1)); } //Yukicoder No.215 Poly pow_mod(int n,const Poly&r)const{ Poly rri=r.rev().inv(r.size()); Poly cur{1},x=*this%r; while(n){ if(n%2) cur=(cur*x).divide(r,rri).b; x=(x*x).divide(r,rri).b; n/=2; } return cur; } int lowzero()const{ rep(i,size())if((*this)[i]!=0)return i; return size(); } //VERIFY: yosupo Poly pow(int s,int p,const mint invs[])const{ assert(s>0); assert(p>0); int n=size(),z=0; for(;z<n&&(*this)[z]==0;z++); if(z*p>=s)return Poly(s,0); mint c=(*this)[z],cinv=c.inv(); mint d=c.pow(p); int t=s-z*p; Poly x(t); rng(i,z,min(z+t,n))x[i-z]=(*this)[i]*cinv; x=x.log(t,invs); rep(i,t)x[i]*=p; x=x.exp(t,invs); rep(i,t)x[i]*=d; Poly y(s); rep(i,t)y[z*p+i]=x[i]; return y; } mint eval(mint x)const{ mint r=0,w=1; for(auto v:*this){ r+=w*v; w*=x; } return r; } }; //extern constexpr modinfo base{998244353,3}; extern constexpr modinfo base{1000000009,0}; //modinfo base{1,0}; using mint=modular<base>; const int vmax=(1<<18)+10; mint fact[vmax],finv[vmax],invs[vmax]; void initfact(){ fact[0]=1; rng(i,1,vmax){ fact[i]=fact[i-1]*i; } finv[vmax-1]=fact[vmax-1].inv(); for(int i=vmax-2;i>=0;i--){ finv[i]=finv[i+1]*(i+1); } for(int i=vmax-1;i>=1;i--){ invs[i]=finv[i]*fact[i-1]; } } mint choose(int n,int k){ return fact[n]*finv[n-k]*finv[k]; } mint binom(int a,int b){ return fact[a+b]*finv[a]*finv[b]; } mint catalan(int n){ return binom(n,n)-(n-1>=0?binom(n-1,n+1):0); } template<class t> t pow_mod(t x,t n,t m){ t r=1; while(n){ if(n&1)r=(r*x)%m; x=(x*x)%m; n>>=1; } return r; } //assume p is a prime //yukicoder No.1025 bool is_primitiveroot(int r,int p){ if(!r)return false; int x=p-1; for(int i=2;i*i<=x;i++){ if(x%i==0){ int w=pow_mod<int>(r,(p-1)/i,p); if(w==1)return false; while(x%i==0) x/=i; } } if(x>1&&pow_mod<int>(r,(p-1)/x,p)==1)return false; return true; } //assume p is a prime //yukicoder No.1025 int get_primitiveroot(int p){ rng(w,1,p)if(is_primitiveroot(w,p))return w; assert(false); } vc<mint> dft(const vc<mint>&a,const mint w){ int n=si(a); vc<mint> b(n); mint z=1; rep(i,n){ mint cur=1; rep(j,n){ b[i]+=a[j]*cur; cur*=z; } z*=w; } return b; } signed main(){ cin.tie(0); ios::sync_with_stdio(0); cout<<fixed<<setprecision(20); initfact(); const mint w=mint(get_primitiveroot(mint::mod)).pow((mint::mod-1)/4); int n;cin>>n; Poly<mint> a(n+1); rng(j,1,n+1)a[j]=w*sq(j+1); Poly<mint> b,c; tie(b,c)=a.exp2(n+1,invs); const mint i2=mint(2).inv(); const mint iw=w.inv(); rng(i,1,n+1){ print(((b[i]+c[i])+(b[i]-c[i])*iw)*i2*fact[n]); } }