結果
問題 | No.2360 Path to Integer |
ユーザー | cureskol |
提出日時 | 2023-06-24 17:49:02 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 93 ms / 2,500 ms |
コード長 | 10,512 bytes |
コンパイル時間 | 4,735 ms |
コンパイル使用メモリ | 271,896 KB |
実行使用メモリ | 19,520 KB |
最終ジャッジ日時 | 2024-07-01 20:47:24 |
合計ジャッジ時間 | 6,356 ms |
ジャッジサーバーID (参考情報) |
judge5 / judge4 |
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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
5,248 KB |
testcase_01 | AC | 2 ms
5,376 KB |
testcase_02 | AC | 2 ms
5,376 KB |
testcase_03 | AC | 2 ms
5,376 KB |
testcase_04 | AC | 2 ms
5,376 KB |
testcase_05 | AC | 2 ms
5,376 KB |
testcase_06 | AC | 2 ms
5,376 KB |
testcase_07 | AC | 2 ms
5,376 KB |
testcase_08 | AC | 7 ms
5,376 KB |
testcase_09 | AC | 83 ms
15,928 KB |
testcase_10 | AC | 61 ms
15,928 KB |
testcase_11 | AC | 62 ms
16,060 KB |
testcase_12 | AC | 52 ms
15,936 KB |
testcase_13 | AC | 81 ms
16,060 KB |
testcase_14 | AC | 91 ms
18,872 KB |
testcase_15 | AC | 84 ms
15,984 KB |
testcase_16 | AC | 93 ms
19,520 KB |
ソースコード
#pragma region template #pragma GCC optimize("Ofast") #include <bits/stdc++.h> using namespace std; using ll=long long; using ld=long double; using vi=vector<int>; using vll=vector<ll>; using pi=pair<int,int>; using pll=pair<ll,ll>; #define overload2(a,b,c,...) c #define overload3(a,b,c,d,...) d #define overload4(a,b,c,d,e,...) e #define overload5(a,b,c,d,e,f,...) f #define TYPE1(T) template<typename T> #define TYPE2(T,U) template<typename T,typename U> #define TYPE(...) overload2(__VA_ARGS__,TYPE2,TYPE1)(__VA_ARGS__) #define TYPES1(T) template<typename... T> #define TYPES2(H,T) template<typename H,typename... T> #define TYPES(...) overload2(__VA_ARGS__,TYPES2,TYPES1)(__VA_ARGS__) #define REP4(i,s,n,d) for(int i=(s);i<(n);i+=(d)) #define REP3(i,s,n) REP4(i,s,n,1) #define REP2(i,n) REP3(i,0,n) #define REP1(n) REP2(tomato,n) #define REP(...) overload4(__VA_ARGS__,REP4,REP3,REP2,REP1)(__VA_ARGS__) #define RREP4(i,n,s,d) for(int i=(n)-1;i>=(s);i-=(d)) #define RREP3(i,n,s) RREP4(i,n,s,1) #define RREP2(i,n) RREP3(i,n,0) #define RREP1(n) RREP2(tomato,n) #define RREP(...) overload4(__VA_ARGS__,RREP4,RREP3,RREP2,RREP1)(__VA_ARGS__) #define FOR4(a,b,c,d,v) for(auto [a,b,c,d]:v) #define FOR3(a,b,c,v) for(auto [a,b,c]:v) #define FOR2(a,b,v) for(auto [a,b]:v) #define FOR1(a,v) for(auto a:v) #define FOR(...) overload5(__VA_ARGS__,FOR4,FOR3,FOR2,FOR1)(__VA_ARGS__) #define AFOR4(a,b,c,d,v) for(auto&[a,b,c,d]:v) #define AFOR3(a,b,c,v) for(auto&[a,b,c]:v) #define AFOR2(a,b,v) for(auto&[a,b]:v) #define AFOR1(a,v) for(auto&a:v) #define AFOR(...) overload5(__VA_ARGS__,AFOR4,AFOR3,AFOR2,AFOR1)(__VA_ARGS__) #define CFOR4(a,b,c,d,v) for(const auto&[a,b,c,d]:v) #define CFOR3(a,b,c,v) for(const auto&[a,b,c]:v) #define CFOR2(a,b,v) for(const auto&[a,b]:v) #define CFOR1(a,v) for(const auto&a:v) #define CFOR(...) overload5(__VA_ARGS__,CFOR4,CFOR3,CFOR2,CFOR1)(__VA_ARGS__) #define PFOR(v) for(bool f=true; (f ? exchange(f,false) : next_permutation(ALL(v)));) #define ALL(v) v.begin(),v.end() #define RALL(v) v.rbegin(),v.rend() #define SORT(v) sort(ALL(v)) #define RSORT(v) sort(RALL(v)) #define REVERSE(v) reverse(ALL(v)) #define UNIQUE(v) SORT(v),v.erase(unique(ALL(v)),v.end()) #define SZ(v) int(v.size()) TYPES(T) void input(T&... a){ (cin>>...>>a); } #define DECLARE(T,...) T __VA_ARGS__;input(__VA_ARGS__); #define INT(...) DECLARE(int,__VA_ARGS__) #define STR(...) DECLARE(string,__VA_ARGS__) #define LL(...) DECLARE(long long,__VA_ARGS__) #define CHR(...) DECLARE(char,__VA_ARGS__) #define DBL(...) DECLARE(double,__VA_ARGS__) #define VI(n,v) vi v(n);cin>>v; #define VLL(n,v) vll v(n);cin>>v; #define VS(n,s) vector<string> s(n);cin>>s; TYPE(T) istream&operator>>(istream&is,vector<T>&v){ for(auto&a:v)cin>>a; return is; } TYPE(T) ostream&operator<<(ostream&os,const vector<T>&v){ if(&os==&cerr)os<<"["; REP(i,v.size()){ os<<v[i]; if(i+1<v.size())os<<(&os==&cerr?",":" "); } if(&os==&cerr)os<<"]"; return os; } TYPE(T,S) istream&operator>>(istream&is,pair<T,S>&p){ cin>>p.first>>p.second; return is; } #ifdef __DEBUG #include <debug> #else #define debug(...) void(0) #endif void print(){ cout << '\n'; } TYPES(T,Ts) void print(const T& a,const Ts&... b){ cout<<a; (cout<<...<<(cout<< ' ',b)); cout << '\n'; } TYPE(T) using pq=priority_queue<T>; TYPE(T) using pqg=priority_queue<T,vector<T>,greater<T>>; TYPE(T) T pick(queue<T>& que){assert(que.size()); T a=que.front();que.pop();return a;} TYPE(T) T pick(pq<T>& que){assert(que.size()); T a=que.top();que.pop();return a;} TYPE(T) T pick(pqg<T>& que){assert(que.size()); T a=que.top();que.pop();return a;} TYPE(T) T pick(stack<T>& sta){assert(sta.size()); T a=sta.top();sta.pop();return a;} TYPE(T) void clear(T&v){ v=decltype(v)(); } string YES(bool f=true){return (f?"YES":"NO");} string Yes(bool f=true){return (f?"Yes":"No");} string yes(bool f=true){return (f?"yes":"no");} constexpr int INF=1e9+7; constexpr ll LINF=ll(1e18)+7; constexpr ld EPS=1e-10; vi iota(int n){vi a(n);iota(ALL(a),0);return a;} TYPE(T) vector<pair<T,int>> query_sort(const vector<T>&v){ vector<pair<T,int>> res(v.size()); REP(i,v.size())res[i]={v[i],i}; SORT(res); return res; } TYPE(T) void add(vector<T>&v,T a=1){ AFOR(p,v)p+=a; } TYPE(T) T rev(T a){ REVERSE(a);return a; } TYPE(T) void fin(T a){cout<<a<<'\n';exit(0);} TYPE(T) bool chmax(T &a,T b){return (a<b&&(a=b,true));} TYPE(T) bool chmin(T &a,T b){return (a>b&&(a=b,true));} TYPES(T,Ns) auto make_vector(T x,int n,Ns ...ns){ if constexpr(sizeof...(ns)==0)return vector<T>(n,x); else return vector(n,make_vector<T>(x,ns...)); } bool in(const ll S,const int a){return (S>>a)&1;} int popcount(const ll S){return __builtin_popcountll(S);} int digit(char c){ return (c>='0' and c<='9' ? c-'0' : -1);} ll sqrtll(ll a){ for(ll b=sqrt(a);b*b<=a;b++)if(b*b==a)return b; for(ll b=sqrt(a);b>=0 and b*b>=a;b--)if(b*b==a)return b; return -1; } #pragma endregion template struct Edge{ int from,to; Edge()=default; Edge(int from,int to):from(from),to(to){} operator int()const{ return to; } }; struct Graph{ int n; using edge_type=Edge; vector<edge_type> edges; protected: vector<int> in_deg; bool prepared; class OutgoingEdges{ Graph* g; int l,r; public: OutgoingEdges(Graph* g,int l,int r):g(g),l(l),r(r){} edge_type* begin(){ return &(g->edges[l]); } edge_type* end(){ return &(g->edges[r]); } edge_type& operator[](int i){ return g->edges[l+i]; } int size()const{ return r-l; } }; class ConstOutgoingEdges{ const Graph* g; int l,r; public: ConstOutgoingEdges(const Graph* g,int l,int r):g(g),l(l),r(r){} const edge_type* begin()const{ return &(g->edges[l]); } const edge_type* end()const{ return &(g->edges[r]); } const edge_type& operator[](int i)const{ return g->edges[l+i]; } int size()const{ return r-l; } }; public: OutgoingEdges operator[](int v){ assert(prepared); return { this,in_deg[v],in_deg[v+1] }; } const ConstOutgoingEdges operator[](int v)const{ assert(prepared); return { this,in_deg[v],in_deg[v+1] }; } bool is_prepared()const{ return prepared; } Graph():n(0),in_deg(1,0),prepared(false){} Graph(int n):n(n),in_deg(n+1,0),prepared(false){} Graph(int n,int m,bool directed=false,int indexed=1): n(n),in_deg(n+1,0),prepared(false){ scan(m,directed,indexed); } void resize(int n){n=n;} void add_arc(int from,int to){ assert(!prepared); assert(0<=from and from<n and 0<=to and to<n); edges.emplace_back(from,to); in_deg[from+1]++; } void add_edge(int u,int v){ add_arc(u,v); add_arc(v,u); } void add_arc(const edge_type&e){ add_arc(e.from,e.to); } void add_edge(const edge_type&e){ add_edge(e.from,e.to); } void scan(int m,bool directed=false,int indexed=1){ edges.reserve(directed?m:2*m); while(m--){ int u,v;cin>>u>>v;u-=indexed;v-=indexed; if(directed)add_arc(u,v); else add_edge(u,v); } build(); } void build(){ assert(!prepared);prepared=true; for(int v=0;v<n;v++)in_deg[v+1]+=in_deg[v]; vector<edge_type> new_edges(in_deg.back()); auto counter=in_deg; for(auto&&e:edges)new_edges[ counter[e.from]++ ]=e; edges=new_edges; } void graph_debug()const{ #ifndef __LOCAL return; #endif assert(prepared); for(int from=0;from<n;from++){ cerr<<from<<";"; for(int i=in_deg[from];i<in_deg[from+1];i++) cerr<<edges[i].to<<" "; cerr<<"\n"; } } }; struct Tree:Graph{ using Graph::Graph; Tree()=default; int root=-1; vector<int> DFS,BFS,depth; void scan_root(int indexed=1){ for(int i=1;i<n;i++){ int p;cin>>p; add_edge(p-indexed,i); } build(); } void scan(int indexed=1){ Graph::scan(n-1,false,indexed); build(); } edge_type& parent(int v){ assert(~root and root!=v); return (*this)[v][0]; } OutgoingEdges son(int v){ assert(~root); if(v==root)return {this,in_deg[v],in_deg[v+1]}; return {this,in_deg[v]+1,in_deg[v+1]}; } private: void dfs(int v,int pre=-1){ for(auto&e:(*this)[v]){ if(e.to==pre)swap((*this)[v][0],e); else{ depth[e.to]=depth[v]+1; dfs(e.to,v); } } DFS.push_back(v); } public: void build(int r=0){ if(!is_prepared())Graph::build(); if(~root){ assert(r==root); return; } root=r; depth=vector<int>(n,0); DFS.reserve(n);BFS.reserve(n); dfs(root); queue<int> que; que.push(root); while(que.size()){ int p=que.front();que.pop(); BFS.push_back(p); for(const auto&e:son(p))que.push(e.to); } } }; template<typename TREE,typename Data> class ReRooting{ int n; TREE T; public: ReRooting(const TREE&T):T(T),n(T.n){} template<typename F1,typename F2> vector<Data> build(const F1&score,const F2&merge,const Data&unit){ if(!~T.root)T.build(0); vector<Data> dp1(n,unit),dp2(n); for(int v:T.DFS) for(const auto&e:T.son(v)){ dp2[e.to]=score(dp1[e.to],e); merge(dp1[v],dp2[e.to]); } vector<Data> top(n,unit),res(n); for(int v:T.BFS){ Data now=(T.root==v?unit:score(top[v],T.parent(v))); for(int to:T.son(v)){ top[to]=now; merge(now,dp2[to]); } res[v]=now; now=unit; for(int i=T.son(v).size()-1;i>=0;i--){ int to=T.son(v)[i]; merge(top[to],now); merge(now,dp2[to]); } } return res; } }; #include <atcoder/modint> #include <atcoder/convolution> using namespace atcoder; using mint=modint998244353; namespace atcoder{ ostream& operator<<(ostream &os,mint a){os<<a.val();return os;} istream& operator>>(istream &is,mint &a){ long long b;is>>b;a=b; return is; } } int main(){ ios::sync_with_stdio(false); cin.tie(nullptr); INT(n); vector<string> s(n); cin>>s; Tree t(n); t.scan(); using Data = pair<mint,int>; ReRooting<Tree,Data> RR(t); auto score=[&](Data now,auto&e){ int v=e.to; auto [val,cnt]=now; return make_pair(val*mint(10).pow(s[v].size()) + (cnt+1)*stoll(s[v]), cnt+1); }; auto merge=[&](Data&now,const Data&add){ now.first += add.first; now.second += add.second; }; Data unit = {0,0}; auto ans = RR.build(score,merge,unit); mint fans=0; REP(v,n){ auto [val,cnt] = ans[v]; mint x = val * mint(10).pow(s[v].size()) + (cnt+1) * stoll(s[v]); debug(v,x); fans += x; } fin(fans); }