#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; namespace { using Integer = long long; //__int128; template istream& operator >> (istream& is, pair& p){return is >> p.first >> p.second;} template istream& operator >> (istream& is, vector& vec){for(T& val: vec) is >> val; return is;} template istream& operator , (istream& is, T& val){ return is >> val;} template ostream& operator << (ostream& os, const pair& p){return os << p.first << " " << p.second;} template ostream& operator << (ostream& os, const vector& vec){for(size_t i=0; i ostream& operator , (ostream& os, const T& val){ return os << " " << val;} template void print(const H& head){ cout << head; } template void print(const H& head, const T& ... tail){ cout << head << " "; print(tail...); } template void println(const T& ... values){ print(values...); cout << endl; } template void eprint(const H& head){ cerr << head; } template void eprint(const H& head, const T& ... tail){ cerr << head << " "; eprint(tail...); } template void eprintln(const T& ... values){ eprint(values...); cerr << endl; } class range{ Integer start_, end_, step_; public: struct range_iterator{ Integer val, step_; range_iterator(Integer v, Integer step) : val(v), step_(step) {} Integer operator * (){return val;} void operator ++ (){val += step_;} bool operator != (range_iterator& x){return step_ > 0 ? val < x.val : val > x.val;} }; range(Integer len) : start_(0), end_(len), step_(1) {} range(Integer start, Integer end) : start_(start), end_(end), step_(1) {} range(Integer start, Integer end, Integer step) : start_(start), end_(end), step_(step) {} range_iterator begin(){ return range_iterator(start_, step_); } range_iterator end(){ return range_iterator( end_, step_); } }; inline string operator "" _s (const char* str, size_t size){ return move(string(str)); } constexpr Integer my_pow(Integer x, Integer k, Integer z=1){return k==0 ? z : k==1 ? z*x : (k&1) ? my_pow(x*x,k>>1,z*x) : my_pow(x*x,k>>1,z);} constexpr Integer my_pow_mod(Integer x, Integer k, Integer M, Integer z=1){return k==0 ? z%M : k==1 ? z*x%M : (k&1) ? my_pow_mod(x*x%M,k>>1,M,z*x%M) : my_pow_mod(x*x%M,k>>1,M,z);} constexpr unsigned long long operator "" _ten (unsigned long long value){ return my_pow(10,value); } inline int k_bit(Integer x, int k){return (x>>k)&1;} //0-indexed mt19937 mt(chrono::duration_cast(chrono::steady_clock::now().time_since_epoch()).count()); template string join(const vector& v, const string& sep){ stringstream ss; for(size_t i=0; i0) ss << sep; ss << v[i]; } return ss.str(); } inline string operator * (string s, int k){ string ret; while(k){ if(k&1) ret += s; s += s; k >>= 1; } return ret; } } constexpr long long mod = 9_ten + 7; class SA_IS{ //compress alphabets //return vector vector compress(vector& v){ set alph(v.begin(), v.end()); vector dic(alph.begin(), alph.end()); vector bucket_size(dic.size(),0); for(int i=0; i sa; vector lcp; struct substring{ int pos; int size; vector::iterator str; vector::iterator ls; substring(){ } substring(const int pos, const int size, const vector::iterator& str, const vector::iterator& ls){ this->pos = pos; this->size = size; this->str = str; this->ls = ls; } bool operator<(const substring& x) const { for(int i=0; isize, x.size); i++){ if(this->str[i] != x.str[i]){ return this->str[i] < x.str[i]; }else if(this->ls[i] != x.ls[i]){ return this->ls[i] == SA_IS::L; } } return this->size < x.size; } bool operator==(const substring& x) const { for(int i=0; isize, x.size); i++){ if(this->str[i] != x.str[i]){ return false; }else if(this->ls[i] != x.ls[i]){ return false; } } return this->size == x.size; } substring operator=(const substring& x){ this->pos = x.pos; this->size = x.size; this->str = x.str; this->ls = x.ls; return *this; } }; vector rec(vector& v){ v.push_back(-1); vector bucket_size = compress(v); //bucket vector ret(v.size(), -1); vector::iterator> bucket(bucket_size.size()); vector fixed(v.size(), false); vector::iterator> bucket_fixed(bucket_size.size()); vector bucket_front(bucket_size.size()); vector bucket_back(bucket_size.size()); vector used(v.size(), false); //initialize { int sum = 0; for(int i=0; i LS(v.size()); LS.back() = S; for(int i=v.size()-2; i>=0; --i){ if(v[i] < v[i+1]) LS[i] = S; else if (v[i] > v[i+1]) LS[i] = L; else LS[i] = LS[i+1]; } vector LMS; for(int i=1; i > LMS_substring; for(int i=0; i 0){ vector< pair> LMS_substring_old = LMS_substring; sort(LMS_substring.begin(), LMS_substring.end()); vector LMS_order(LMS_substring.size()); int cnt = 0; LMS_order[ LMS_substring[0].second ] = cnt; cnt++; for(int i=1; i new_order = rec(LMS_order); LMS_order = vector(new_order.begin()+1, new_order.end()); for(int i=0; i=0; --i){ int c = v[LMS_substring[i].first.pos]; bucket[c][bucket_back[c]] = LMS_substring[i].first.pos; bucket_back[c]--; } } for(int i=0; i=0; --i){ for(int j=bucket_size[i]-1; j>=0; --j){ if( bucket[i][j] - 1 < 0 ) continue; if( LS[ bucket[i][j]-1 ] == S ){ if(used[bucket[i][j]-1]) continue; used[ bucket[i][j]-1 ] = true; int c = v[ bucket[i][j]-1 ]; bucket[c][ bucket_back[c] ] = bucket[i][j]-1; bucket_fixed[c][ bucket_back[c] ] = true; bucket_back[c]--; } } } ret[0] = ret.size()-1; return ret; } vector rec(string &s){ vector v(s.begin(), s.end()); return rec(v); } void constract_lcp(){ int n = my_s.size(); lcp.resize(n+1); vector rank(n+1); for(int i=0; i<=n; i++) rank[sa[i]] = i; int h=0; lcp[0] = 0; for(int i=0; i0) h--; for(; j+h class SparseTable{ public: SparseTable(int len, T default_value_ = 100000000, function eval = default_evaluate) : col(len), default_value(default_value_) { evaluate = eval; row = 1; while((1<>(row, vector(col, default_value)); } SparseTable(vector& vec, T default_value_ = 100000000, function eval = default_evaluate) : col(vec.size()), default_value(default_value_) { evaluate = eval; row = 1; while((1<>(row, vector(col, default_value)); set(vec); } void set(vector& vec){ assert(col == vec.size()); values = &vec; vector& val = vec; iota(table[0].begin(), table[0].end(), 0); for(int k=1; k=r) return default_value; vector& val = *values; T ret = default_value; int k = 0; static vector log_k(col+1); static bool set = false; if(!set){ int kk = 0; for(int i=2; i<=col; i++){ if( (i&-i) == i ) kk++; log_k[i] = kk; } set = true; } // while((1<<(k+1)) < (r-l)) k++; k = log_k[r-l]; // T left = val[ table[k][l] ]; // T right = val[ table[k][r-(1<* values; vector> table; static T default_evaluate(T a, T b){ return min(a,b); } function evaluate; }; char buff[800010]; int main(){ auto start_ = chrono::steady_clock::now(); int n; // cin >> n; scanf("%d", &n); // vector s(n); vector pos(n); string ss; ss.reserve(800010); for(int i=0; i> s; long long m,x,d; // cin >> m,x,d; scanf("%lld%lld%lld", &m,&x,&d); long long ans = 0; // SuffixArray sa(ss); SA_IS sa(ss); SparseTable st( sa.lcp ); // sa.dbg_print(); vector rank(sa.sa.size()); for(int i=0; i(chrono::steady_clock::now()-start_).count() << " [ms]" << endl; long long nn = n*(n-1ll); for(int i=0; ir ) swap(l,r); else r = r+1; x += d; if( x >= nn ) x -= nn; int pl = pos[l]; int pr = pos[r]; if( pl>pr ) swap(pl,pr); ans += st.get(pl,pr); } // println(ans); printf("%lld\n", ans); cerr << chrono::duration_cast(chrono::steady_clock::now()-start_).count() << " [ms]" << endl; return 0; }