結果
問題 | No.695 square1001 and Permutation 4 |
ユーザー | eQe |
提出日時 | 2024-10-10 03:18:03 |
言語 | C++23 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 1,885 ms / 7,000 ms |
コード長 | 9,492 bytes |
コンパイル時間 | 6,580 ms |
コンパイル使用メモリ | 336,288 KB |
実行使用メモリ | 42,436 KB |
最終ジャッジ日時 | 2024-10-10 03:18:20 |
合計ジャッジ時間 | 15,978 ms |
ジャッジサーバーID (参考情報) |
judge4 / judge5 |
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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 | 2 ms
6,816 KB |
testcase_01 | AC | 66 ms
6,816 KB |
testcase_02 | AC | 99 ms
12,948 KB |
testcase_03 | AC | 71 ms
12,944 KB |
testcase_04 | AC | 309 ms
13,008 KB |
testcase_05 | AC | 323 ms
13,112 KB |
testcase_06 | AC | 637 ms
22,724 KB |
testcase_07 | AC | 617 ms
22,800 KB |
testcase_08 | AC | 707 ms
22,800 KB |
testcase_09 | AC | 967 ms
22,796 KB |
testcase_10 | AC | 127 ms
7,136 KB |
testcase_11 | AC | 1,885 ms
42,436 KB |
testcase_12 | AC | 1,501 ms
42,296 KB |
testcase_13 | AC | 1,289 ms
42,240 KB |
ソースコード
#include<bits/stdc++.h> #include<atcoder/all> namespace my{ void main(); void solve(); } int main(){my::main();} namespace my{ #define eb emplace_back #define LL(...) ll __VA_ARGS__;lin(__VA_ARGS__) #define FO(n) for(ll ij=0;ij<n;++ij) #define FOR(i,...) for(auto[i,i##stop,i##step]=range(0,__VA_ARGS__);i<i##stop;i+=i##step) #define fo(i,...) FO##__VA_OPT__(R)(i __VA_OPT__(,__VA_ARGS__)) #define fe(a,i,...) for(auto&&__VA_OPT__([)i __VA_OPT__(,__VA_ARGS__]):a) using namespace std; using ll=int64_t; using ull=uint64_t; using ulll=__uint128_t; using lll=__int128_t; istream&operator>>(istream&i,ulll&x){ull t;i>>t;x=t;return i;} ostream&operator<<(ostream&o,const ulll&x){return(x<10?o:o<<x/10)<<ll(x%10);} istream&operator>>(istream&i,lll&x){ll t;i>>t;x=t;return i;} ostream&operator<<(ostream&o,const lll&x){return o<<string(x<0,'-')<<ulll(x>0?x:-x);} auto range(bool s,ll a,ll b=1e18,ll c=1){if(b==1e18)b=a,(s?b:a)=0;return array{a-s,b,c};} constexpr char nl=10; constexpr char sp=32; lll pw(lll x,ll n,ll m=0){assert(n>=0);lll r=1;while(n)n&1?r*=x:r,x*=x,m?r%=m,x%=m:r,n>>=1;return r;} bool in(auto l,auto m,auto r){return l<=m&&m<r;} template<class...A>auto max(const A&...a){return max(initializer_list<common_type_t<A...>>{a...});} template<class A,class B>struct pair{ A a;B b; pair()=default; pair(A a,B b):a(a),b(b){} pair(const std::pair<A,B>&p):a(p.first),b(p.second){} bool operator==(const pair&p)const{return a==p.a&&b==p.b;} auto operator<=>(const pair&p)const{return a!=p.a?a<=>p.a:b<=>p.b;} friend ostream&operator<<(ostream&o,const pair&p){return o<<p.a<<sp<<p.b;} }; template<class F=less<>>auto&sort(auto&a,const F&f={}){ranges::sort(a,f);return a;} auto pop_back(auto&a){assert(a.size());auto r=*a.rbegin();a.pop_back();return r;} template<class T,class U>ostream&operator<<(ostream&o,const std::pair<T,U>&p){return o<<p.first<<sp<<p.second;} template<class T,class U>ostream&operator<<(ostream&o,const unordered_map<T,U>&m){fe(m,e)o<<e.first<<sp<<e.second<<nl;return o;} template<class V>concept vectorial=is_base_of_v<vector<typename V::value_type>,V>; template<class T>struct core_type{using type=T;}; template<vectorial V>struct core_type<V>{using type=typename core_type<typename V::value_type>::type;}; template<class V>istream&operator>>(istream&i,vector<V>&v){fe(v,e)i>>e;return i;} template<class V>ostream&operator<<(ostream&o,const vector<V>&v){fe(v,e)o<<e<<string(&e!=&v.back(),vectorial<V>?nl:sp);return o;} template<class V>struct vec:vector<V>{ using vector<V>::vector; vec(const vector<V>&v){this->reserve(v.size());fe(v,e)this->eb(e);} vec&operator+=(const vec&u){vec&v=*this;fo(i,v.size())v[i]+=u[i];return v;} vec&operator-=(const vec&u){vec&v=*this;fo(i,v.size())v[i]-=u[i];return v;} vec&operator^=(const vec&u){this->insert(this->end(),u.begin(),u.end());return*this;} vec operator+(const vec&u)const{return vec{*this}+=u;} vec operator-(const vec&u)const{return vec{*this}-=u;} vec operator^(const vec&u)const{return vec{*this}^=u;} vec&operator++(){fe(*this,e)++e;return*this;} vec&operator--(){fe(*this,e)--e;return*this;} vec operator-()const{vec v=*this;fe(v,e)e=-e;return v;} auto scan(const auto&f)const{pair<typename core_type<V>::type,bool>r{};fe(*this,e)if constexpr(!vectorial<V>)r.b?f(r.a,e),r:r={e,1};else if(auto s=e.scan(f);s.b)r.b?f(r.a,s.a),r:r=s;return r;} auto max()const{return scan([](auto&a,const auto&b){a<b?a=b:0;}).a;} }; template<bool is_negative=false>struct infinity{ template<integral T>constexpr operator T()const{return numeric_limits<T>::max()*(1-is_negative*2);} template<floating_point T>constexpr operator T()const{return static_cast<ll>(*this);} template<class T>constexpr bool operator==(T x)const{return static_cast<T>(*this)==x;} constexpr auto operator-()const{return infinity<!is_negative>();} template<class A,class B>constexpr operator pair<A,B>()const{return pair<A,B>{*this,*this};} }; constexpr infinity oo; void io(){cin.tie(nullptr)->sync_with_stdio(0);cout<<fixed<<setprecision(15);} void lin(auto&...a){(cin>>...>>a);} template<char c=sp>void pp(const auto&...a){ll n=sizeof...(a);((cout<<a<<string(--n>0,c)),...);cout<<nl;} template<class T,class U=T>auto rle(const vec<T>&a){vec<pair<T,U>>r;fe(a,e)r.size()&&e==r.back().a?++r.back().b:r.eb(e,1).b;return r;} template<class T,class U=T>auto rce(vec<T>a){return rle<T,U>(sort(a));} struct montgomery64{ using i64=__int64_t; using u64=__uint64_t; using u128=__uint128_t; static inline u64 N=998244353; static inline u64 N_inv; static inline u64 R2; static void set_mod(u64 N){ assert(N<(1ULL<<63)); assert(N&1); montgomery64::N=N; R2=-u128(N)%N; N_inv=N; fo(5)N_inv*=2-N*N_inv; assert(N*N_inv==1); } static u64 mod(){ return N; } u64 a; montgomery64(const i64&a=0):a(reduce((u128)(a%(i64)N+N)*R2)){} static u64 reduce(const u128&T){ u128 r=(T+u128(u64(T)*-N_inv)*N)>>64; return r>=N?r-N:r; } auto&operator+=(const montgomery64&b){if((a+=b.a)>=N)a-=N;return*this;} auto&operator-=(const montgomery64&b){if(i64(a-=b.a)<0)a+=N;return*this;} auto&operator*=(const montgomery64&b){a=reduce(u128(a)*b.a);return*this;} auto&operator/=(const montgomery64&b){*this*=b.inv();return*this;} auto operator+(const montgomery64&b)const{return montgomery64(*this)+=b;} auto operator-(const montgomery64&b)const{return montgomery64(*this)-=b;} auto operator*(const montgomery64&b)const{return montgomery64(*this)*=b;} auto operator/(const montgomery64&b)const{return montgomery64(*this)/=b;} bool operator==(const montgomery64&b)const{return a==b.a;} auto operator-()const{return montgomery64()-montgomery64(*this);} montgomery64 pow(u128 n)const{ montgomery64 r{1},x{*this}; while(n){ if(n&1)r*=x; x*=x; n>>=1; } return r; } montgomery64 inv()const{ u64 a=this->a,b=N,u=1,v=0; while(b)u-=a/b*v,swap(u,v),a-=a/b*b,swap(a,b); return u; } u64 val()const{ return reduce(a); } friend istream&operator>>(istream&i,montgomery64&b){ ll t;i>>t;b=t; return i; } friend ostream&operator<<(ostream&o,const montgomery64&b){ return o<<b.val(); } }; ll rand(ll l=oo,ll r=oo){if(l!=oo&&r==oo)r=l,l=0;static ll a=495;a^=a<<7,a^=a>>9;ll t=a;return l<r?((t%=(r-l))<0?t+r-l:t)+l:a;} template<class modular>bool miller_rabin(ll n,vec<ll>as){ ll d=n-1; while(~d&1)d>>=1; if(modular::mod()!=n)modular::set_mod(n); modular one=1,minus_one=n-1; fe(as,a){ if(a%n==0)continue; ll t=d; modular y=modular(a).pow(t); while(t!=n-1&&y!=one&&y!=minus_one)y*=y,t<<=1; if(y!=minus_one&&~t&1)return 0; } return 1; } bool is_prime(ll n){ if(~n&1)return n==2; if(n<=1)return 0; if(n<4759123141LL)return miller_rabin<montgomery64>(n,{2,7,61}); return miller_rabin<montgomery64>(n,{2,325,9375,28178,450775,9780504,1795265022}); } template<class modular>ll pollard_rho(ll n){ if(~n&1)return 2; if(is_prime(n))return n; if(modular::mod()!=n)modular::set_mod(n); modular R,one=1; auto f=[&](const modular&x){return x*x+R;}; while(1){ modular x,y,ys,q=one; R=rand(2,n),y=rand(2,n); ll g=1; constexpr ll m=128; for(ll r=1;g==1;r<<=1){ x=y; fo(r)y=f(y); for(ll k=0;g==1&&k<r;k+=m){ ys=y; for(ll i=0;i<m&&i<r-k;++i)q*=x-(y=f(y)); g=std::gcd(q.val(),n); } } if(g==n)do g=std::gcd((x-(ys=f(ys))).val(),n);while(g==1); if(g!=n)return g; } } auto factorize(ll n){ auto f=[](auto&f,ll m){ if(m==1)return vec<ll>{}; ll d=pollard_rho<montgomery64>(m); return d==m?vec<ll>{d}:f(f,d)^f(f,m/d); }; return rce(f(f,n)); } template<class T>T mod(T a,T m){return(a%=m)<0?a+m:a;} template<class T>T gcd(T a,T b){return b?gcd(b,a%b):a;} template<class...A>auto gcd(const A&...a){common_type_t<A...>r=0;((r=gcd(r,a)),...);return r;} template<class T>pair<T,T>ax_by_g(T a,T b){ if(b==0)return{1,0}; auto[s,t]=ax_by_g(b,a%b); return{t,s-a/b*t}; } ll inv_mod(ll a,ll m){ assert(gcd(a,m)==1); auto[x,y]=ax_by_g(a,m); return mod(x,m); } template<class T>T chinese_remainder_theorem_coprime(const vec<T>&a,vec<T>&m,T M=0){ ll K=a.size(); m.eb(M); vec<T>t(K),S(K+1),P(K+1,1); fo(i,K){ t[i]=mod((a[i]-S[i])*inv_mod(P[i],m[i]),m[i]); fo(j,i+1,K+1){ S[j]+=t[i]*P[j]; P[j]*=m[i]; if(m[j])S[j]%=m[j],P[j]%=m[j]; } } ll r=S.back(); m.pop_back(); return S.back(); } template<class T>T chinese_remainder_theorem(const vec<T>&a,const vec<T>&m,T M=0){ ll K=a.size(); fo(i,K)fo(j,i+1,K)if((a[i]-a[j])%gcd(m[i],m[j]))return-1; unordered_map<T,pair<T,T>>exponent_max_congruence; fo(i,K)fe(factorize(m[i]),p,b)if(exponent_max_congruence[p].b<b)exponent_max_congruence[p]={a[i],b}; vec<T>a_mod_prime_pow,m_mod_prime_pow; fe(exponent_max_congruence,p,v){ T pq=pw(p,v.b); a_mod_prime_pow.eb(v.a%pq); m_mod_prime_pow.eb(pq); } return chinese_remainder_theorem_coprime(a_mod_prime_pow,m_mod_prime_pow,M); } void main(){io();ll T=1;fo(T)solve();} void solve(){ LL(N,K); vec<int>a(K);lin(a); vec<ll>r(2); vec<ll>M{168647939,592951213}; ll N2=(N+1)/2; vec<int>dp; fo(f,2){ dp.assign(N2,0); dp[0]=1; fo(i,N2){ fo(j,K)if(i+a[j]<N2)(dp[i+a[j]]+=dp[i])%=M[f]; } fo(i,N2){ fo(j,K){ if(in(N2,i+a[j],N))(r[f]+=(ll)dp[i]*dp[N-1-i-a[j]]%M[f])%=M[f]; } } } pp(chinese_remainder_theorem(r,M)); }}