#include using namespace std; //#include //using namespace atcoder; class rolling_hash { public: using u64 = std::uint_fast64_t; using size_type = std::uint_fast32_t; using i128 = __int128_t; static constexpr u64 MOD = (1uL << 61) - 1; static constexpr u64 base = 20200213; std::string str; std::vector hash_, pow; private: static constexpr u64 mask30 = (1ul << 30) - 1; static constexpr u64 mask31 = (1ul << 31) - 1; u64 mul(i128 a, i128 b) const { i128 t = a * b; t = (t >> 61) + (t & MOD); if(t >= MOD) return t - MOD; return t; } size_type xorshift(size_type x) const { x ^= x << 13; x ^= x >> 17; x ^= x << 5; return x; } public: rolling_hash(const rolling_hash &) = default; rolling_hash(rolling_hash&&) = default; rolling_hash() : str() {}; rolling_hash(const std::string & str) : str(str) { hash_.resize(str.size() + 1, 0); pow.resize(str.size() + 1, 1); for(size_type i = 0; i < str.size(); i++) { hash_[i + 1] = mul(hash_[i], base) + xorshift(str[i] + 1); pow[i + 1] = mul(pow[i], base); if(hash_[i + 1] >= MOD) hash_[i + 1] -= MOD; } } u64 hash() const { return hash_.back(); } u64 hash(size_type l, size_type r) const { u64 ret = MOD + hash_[r] - mul(hash_[l], pow[r - l]); return ret < MOD ? ret : ret - MOD; } size_type size() const { return str.size(); } }; int main() { string S; cin>>S; int N; cin>>N; string T[N]; for(int i=0;i>T[i]; long long ans=0; rolling_hash hash1(S); for(int i=0;i