#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define X first #define Y second #define pb push_back #define rep(X,Y) for (int (X) = 0;(X) < (Y);++(X)) #define reps(X,S,Y) for (int (X) = S;(X) < (Y);++(X)) #define rrep(X,Y) for (int (X) = (Y)-1;(X) >=0;--(X)) #define rreps(X,S,Y) for (int (X) = (Y)-1;(X) >= (S);--(X)) #define repe(X,Y) for ((X) = 0;(X) < (Y);++(X)) #define peat(X,Y) for (;(X) < (Y);++(X)) #define all(X) (X).begin(),(X).end() #define rall(X) (X).rbegin(),(X).rend() #define eb emplace_back #define UNIQUE(X) (X).erase(unique(all(X)),(X).end()) #define Endl endl using namespace std; typedef long long ll; typedef pair pii; typedef pair pll; template using vv=vector>; template ostream& operator<<(ostream &os, const vector &t) { os<<"{"; rep(i,t.size()) {os< ostream& operator<<(ostream &os, const pair &t) { return os<<"("< inline bool MX(T &l,const T &r){return l inline bool MN(T &l,const T &r){return l>r?l=r,1:0;} #define out(args...){vector a_r_g_s=s_p_l_i_t(#args, ','); e_r_r(a_r_g_s.begin(), args); } vector s_p_l_i_t(const string &s, char c){vector v;int d=0,f=0;string t;for(char c:s){if(!d&&c==',')v.pb(t),t="";else t+=c;if(c=='\"'||c=='\'')f^=1;if(!f&&c=='(')++d;if(!f&&c==')')--d;}v.pb(t);return move(v);} void e_r_r(vector::iterator it) {} template void e_r_r(vector::iterator it, T a, Args... args){ if(*it==" 1"||*it=="1") cerr< substr((*it)[0] == ' ', it -> length()) << " = " << a << ", "; e_r_r(++it, args...);} const ll MOD=1e9+7; struct RMQ{ const int INF=MOD; vv mn; int D; void upd(const vector &v){ mn.clear(); D=0; for(int i=v.size();i;i/=2) ++D; mn.resize(D+1,vector(1<>(D-i)|1)<<(D-i); mn[i][j]=j>>(D-i)&1?get(b,j+1):get(j,b); } } RMQ(){} RMQ(const vector &v){upd(v);} int get(int l,int r){ //[l,r) --r; if(l==r)return mn[D][l]; if(l>r) return INF; int d=__builtin_clz(l^r)+D-31; return min(mn[d][l],mn[d][r]); } }; // Larsson-Sadakane's Suffix array Construction: O(n (log n)^2) struct SA:public vector{ struct SAComp { const int h; const vector &g; SAComp(int h, const vector &g) : h(h), g(g) {} bool operator() (int a, int b) { return a == b ? false : g[a] != g[b] ? g[a] < g[b] : g[a+h] < g[b+h]; } }; vector inv,lcp; string str; RMQ rmq; SA(){} SA(const string &str):str(str){build(str);} void build(const string &s){ str=s; buildSA(); buildLCP(); rmq.upd(lcp); inv.resize(size()); rep(i,size()) inv[at(i)]=i; } void buildSA(){ int n=str.size(); vector g(n+1),b(n+1); resize(n+1); rep(i,n+1) at(i)=i, g[i]=str[i]; sort(all(*this), SAComp(0,g)); for(int h=1; b[n]!=n; h*=2) { SAComp comp(h,g); sort(all(*this),comp); rep(i,n) b[i+1]=b[i]+comp(at(i),at(i+1)); rep(i,n+1) g[at(i)]=b[i]; } } void buildLCP(){ int n=str.size(); int h=0; vector b(n+1); lcp.resize(n+1); rep(i,n+1) b[at(i)]=i; rep(i,n+1) { if(b[i]){ for (int j=at(b[i]-1); j+h0) --h; } } int getMn(int l,int r){return rmq.get(min(l,r)+1,max(l,r)+1);} }; ostream& operator<<(ostream &os,const SA &sa){ rep(i,sa.size()) os<>n; vector ss(n); rep(i,n) cin>>ss[i]; string s; vector inds(n); rep(i,n){ inds[i]=s.size(); s+=ss[i]+"_"; } SA sa(s); //cout<>m>>x>>d; rep(_,m){ int l=x/(n-1)+1; int r=x%(n-1)+1; if(l>r) swap(l,r); else ++r; //out(l,r,x,1); x=(x+d)%(n*(n-1)); --l; --r; //out(inds[l],inds[r],sa.getMn(sa.inv[inds[l]],sa.inv[inds[r]]),1); re+=min({(int)ss[l].size(),(int)ss[r].size(),sa.getMn(sa.inv[inds[l]],sa.inv[inds[r]])}); } cout<