結果
問題 | No.1654 Binary Compression |
ユーザー | tran0826 |
提出日時 | 2021-08-27 01:20:02 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
WA
|
実行時間 | - |
コード長 | 11,710 bytes |
コンパイル時間 | 2,119 ms |
コンパイル使用メモリ | 152,268 KB |
実行使用メモリ | 62,184 KB |
最終ジャッジ日時 | 2024-11-19 01:11:01 |
合計ジャッジ時間 | 26,152 ms |
ジャッジサーバーID (参考情報) |
judge3 / 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
5,248 KB |
testcase_02 | AC | 2 ms
5,248 KB |
testcase_03 | WA | - |
testcase_04 | AC | 2 ms
5,248 KB |
testcase_05 | AC | 2 ms
5,248 KB |
testcase_06 | WA | - |
testcase_07 | WA | - |
testcase_08 | WA | - |
testcase_09 | WA | - |
testcase_10 | RE | - |
testcase_11 | RE | - |
testcase_12 | RE | - |
testcase_13 | RE | - |
testcase_14 | RE | - |
testcase_15 | RE | - |
testcase_16 | RE | - |
testcase_17 | RE | - |
testcase_18 | RE | - |
testcase_19 | RE | - |
testcase_20 | RE | - |
testcase_21 | RE | - |
testcase_22 | RE | - |
testcase_23 | RE | - |
testcase_24 | RE | - |
testcase_25 | RE | - |
testcase_26 | RE | - |
testcase_27 | RE | - |
testcase_28 | RE | - |
testcase_29 | RE | - |
testcase_30 | RE | - |
testcase_31 | RE | - |
testcase_32 | RE | - |
testcase_33 | RE | - |
testcase_34 | RE | - |
testcase_35 | RE | - |
testcase_36 | RE | - |
testcase_37 | RE | - |
testcase_38 | RE | - |
testcase_39 | RE | - |
testcase_40 | RE | - |
testcase_41 | RE | - |
testcase_42 | AC | 24 ms
7,528 KB |
testcase_43 | AC | 23 ms
7,348 KB |
testcase_44 | RE | - |
testcase_45 | RE | - |
testcase_46 | WA | - |
testcase_47 | AC | 2 ms
5,248 KB |
testcase_48 | WA | - |
testcase_49 | RE | - |
testcase_50 | RE | - |
testcase_51 | RE | - |
testcase_52 | RE | - |
ソースコード
//#pragma GCC target("avx2") //#pragma GCC optimize("O3") //#pragma GCC optimize("unroll-loops") #include<iostream> #include<vector> #include<set> #include<queue> #include<map> #include<algorithm> #include<cstring> #include<string> #include<cassert> #include<cmath> #include<climits> #include<iomanip> #include<stack> #include<unordered_map> #include<bitset> #include<limits> #include<complex> #include<array> #include<numeric> #include<functional> #include<random> using namespace std; #define ll long long #define ull unsigned long long #define rep(i,m,n) for(ll (i)=(ll)(m);i<(ll)(n);i++) #define REP(i,n) rep(i,0,n) #define all(hoge) (hoge).begin(),(hoge).end() #define llsize(c) ((ll)c.size()) typedef pair<ll, ll> P; P operator+(const P a, P b) { return P(a.first + b.first, a.second + b.second); } P operator-(const P a, P b) { return P(a.first - b.first, a.second - b.second); } constexpr long double m_pi = 3.1415926535897932L; constexpr ll MOD = 1000000007; constexpr ll INF = 1LL << 61; constexpr long double EPS = 1e-10; template<typename T> using vector2 = vector<vector<T>>; template<typename T> using vector3 = vector<vector2<T>>; typedef vector<ll> Array; typedef vector<Array> Matrix; string operator*(const string& s, int k) { if (k == 0) return ""; string p = (s + s) * (k / 2); if (k % 2 == 1) p += s; return p; } template<class T> inline bool chmin(T& a, T b) { if (a > b) { a = b; return true; }return false; } template<class T> inline bool chmax(T& a, T b) { if (a < b) { a = b; return true; }return false; } struct Edge {//グラフ int to, rev; ll cap; Edge(int _to, ll _cap, int _rev) { to = _to; cap = _cap; rev = _rev; } }; typedef vector<Edge> Edges; typedef vector<Edges> Graph; void add_edge(Graph& G, int from, int to, ll cap, bool revFlag, ll revCap) {//最大フロー求める Ford-fulkerson G[from].push_back(Edge(to, cap, (ll)G[to].size() + (from == to))); if (revFlag)G[to].push_back(Edge(from, revCap, (ll)G[from].size() - 1));//最小カットの場合逆辺は0にする } void BellmanFord(Graph& G, ll s, Array& d, Array& negative) {//O(|E||V|) d.resize(G.size()); negative.resize(G.size()); REP(i, d.size())d[i] = INF; REP(i, d.size())negative[i] = false; d[s] = 0; REP(k, G.size() - 1) { REP(i, G.size()) { REP(j, G[i].size()) { if (d[i] != INF && d[G[i][j].to] > d[i] + G[i][j].cap) { d[G[i][j].to] = d[i] + G[i][j].cap; } } } } REP(k, G.size() - 1) { REP(i, G.size()) { REP(j, G[i].size()) { if (d[i] != INF && d[G[i][j].to] > d[i] + G[i][j].cap) { d[G[i][j].to] = d[i] + G[i][j].cap; negative[G[i][j].to] = true; } if (negative[i] == true)negative[G[i][j].to] = true; } } } } Array Dijkstra(Graph& g, ll s) {//O(|E|log|V|) Array ret(g.size(), INF); ret[s] = 0; priority_queue<P, vector<P>, greater<P>> q; q.push({ ret[s], s }); while (!q.empty()) { auto [d, v] = q.top(); q.pop(); if (ret[v] < d)continue; for (auto e : g[v]) { if (chmin(ret[e.to], ret[v] + e.cap)) q.push({ ret[e.to], e.to }); } } return ret; } Matrix WarshallFloyd(Graph& g) {//O(V^3) Matrix ret(g.size(), Array(g.size(), INF)); REP(i, ret.size())ret[i][i] = 0; REP(i, g.size()) { for (auto e : g[i])chmin(ret[i][e.to], e.cap); } REP(i, g.size()) { REP(j, g.size()) { REP(k, g.size()) { if (ret[j][i] != INF && ret[i][k] != INF)chmin(ret[j][k], ret[j][i] + ret[i][k]); } } } return ret; } bool tsort(Graph& graph, vector<int>& order) {//トポロジカルソートO(E+V) int n = graph.size(); vector<int> in(n); for (auto& es : graph) for (auto& e : es)in[e.to]++; priority_queue<int, vector<int>, greater<int>> que; REP(i, n) if (in[i] == 0)que.push(i); while (que.size()) { int v = que.top(); que.pop(); order.push_back(v); for (auto& e : graph[v]) if (--in[e.to] == 0)que.push(e.to); } if (order.size() != n)return false; else return true; } class Lca { public: const int n = 0; const int log2_n = 0; std::vector<std::vector<int>> parent; std::vector<int> depth; Lca() {} Lca(const Graph& g, int root) : n(g.size()), log2_n(log2(n) + 1), parent(log2_n, std::vector<int>(n)), depth(n) { dfs(g, root, -1, 0); for (int k = 0; k + 1 < log2_n; k++) { for (int v = 0; v < (int)g.size(); v++) { if (parent[k][v] < 0) parent[k + 1][v] = -1; else parent[k + 1][v] = parent[k][parent[k][v]]; } } } void dfs(const Graph& g, int v, int p, int d) { parent[0][v] = p; depth[v] = d; for (auto& e : g[v]) { if (e.to != p) dfs(g, e.to, v, d + 1); } } int get(int u, int v) { if (depth[u] > depth[v]) std::swap(u, v); for (int k = 0; k < log2_n; k++) { if ((depth[v] - depth[u]) >> k & 1) { v = parent[k][v]; } } if (u == v) return u; for (int k = log2_n - 1; k >= 0; k--) { if (parent[k][u] != parent[k][v]) { u = parent[k][u]; v = parent[k][v]; } } return parent[0][u]; } }; //capには辺番号をいれること vector<int> EulerianTrail(const int s, Graph g, const int m) { vector<int> used(m, 0); vector<int> trail; auto dfs = [&](auto dfs, int v)->void { while (g[v].size()) { auto e = g[v].back(); g[v].pop_back(); if (used[e.cap])continue; used[e.cap] = 1; dfs(dfs, e.to); } trail.push_back(v); }; dfs(dfs, s); reverse(all(trail)); return trail; } class UnionFind { vector<int> data; int n; public: UnionFind(int size) : data(size, -1), n(size) { } bool merge(int x, int y) {//xとyの集合を統合する x = root(x); y = root(y); if (x != y) { if (data[y] < data[x]) swap(x, y); data[x] += data[y]; data[y] = x; } n -= (x != y); return x != y; } bool same(int x, int y) {//xとyが同じ集合か返す return root(x) == root(y); } int root(int x) {//xのルートを返す return data[x] < 0 ? x : data[x] = root(data[x]); } int size(int x) {//xの集合のサイズを返す return -data[root(x)]; } int num() {//集合の数を返す return n; } }; template<typename T, typename F> class SegmentTree { private: T identity; F merge; ll n; vector<T> dat; public: SegmentTree(F f, T id, vector<T> v) :merge(f), identity(id) { int _n = v.size(); n = 1; while (n < _n)n *= 2; dat.resize(2 * n - 1, identity); REP(i, _n)dat[n + i - 1] = v[i]; for (int i = n - 2; i >= 0; i--)dat[i] = merge(dat[i * 2 + 1], dat[i * 2 + 2]); } SegmentTree(F f, T id, int _n) :merge(f), identity(id) { n = 1; while (n < _n)n *= 2; dat.resize(2 * n - 1, identity); } void set_val(int i, T x) { i += n - 1; dat[i] = x; while (i > 0) { i = (i - 1) / 2; dat[i] = merge(dat[i * 2 + 1], dat[i * 2 + 2]); } } T query(int l, int r) { T left = identity, right = identity; l += n - 1; r += n - 1; while (l < r) { if ((l & 1) == 0)left = merge(left, dat[l]); if ((r & 1) == 0)right = merge(dat[r - 1], right); l = l / 2; r = (r - 1) / 2; } return merge(left, right); } }; template< typename T > class FenwickTree { vector< T > data; int n; int p; public: FenwickTree(int n) :n(n) { data.resize(n + 1LL, 0); p = 1; while (p < data.size())p *= 2; } T sum(int k) { T ret = 0; for (; k > 0; k -= k & -k) ret += data[k]; return (ret); } T sum(int a, int b) { return sum(b) - sum(a); }//[a,b) void add(int k, T x) { for (++k; k <= n; k += k & -k) data[k] += x; } int lower_bound(ll w) { if (w <= 0)return -1; int x = 0; for (int k = p / 2; k > 0; k /= 2) { if (x + k <= n && data[x + k] < w)w -= data[x + k], x += k; } return x; } }; template<typename T> vector<T> divisor(T n) { vector<T> ret; for (T i = 1; i * i <= n; i++) { if (n % i == 0) { ret.push_back(i); if (i * i != n) ret.push_back(n / i); } } sort(ret.begin(), ret.end()); return ret; } template<typename T> vector<pair<T, int>> prime_factorization(T n) { vector<pair<T, int>> ret; for (T i = 2; i * i <= n; i++) { if (n % i == 0) { ret.push_back({ i,0 }); while (n % i == 0) { n /= i; ret[ret.size() - 1].second++; } } } if (n != 1)ret.push_back({ n,1 }); return ret; } inline ll mod_pow(ll x, ll n, ll mod) { ll res = 1; while (n > 0) { if (n & 1) res = res * x % mod; x = x * x % mod; n >>= 1; } return res; } inline ll mod_inv(ll x, ll mod) { return mod_pow(x, mod - 2, mod); } class Combination { public: Array fact; Array fact_inv; ll mod; //if n >= mod use lucas ll nCr(ll n, ll r) { if (n < r)return 0; if (n < mod)return ((fact[n] * fact_inv[r] % mod) * fact_inv[n - r]) % mod; ll ret = 1; while (n || r) { ll _n = n % mod, _r = r % mod; n /= mod; r /= mod; (ret *= nCr(_n, _r)) %= mod; } return ret; } ll nPr(ll n, ll r) { return (fact[n] * fact_inv[n - r]) % mod; } ll nHr(ll n, ll r) { return nCr(r + n - 1, r); } Combination(ll _n, ll _mod) { mod = _mod; ll n = min(_n + 1, mod); fact.resize(n); fact[0] = 1; REP(i, n - 1) { fact[i + 1] = (fact[i] * (i + 1LL)) % mod; } fact_inv.resize(n); fact_inv[n - 1] = mod_inv(fact[n - 1], mod); for (int i = n - 1; i > 0; i--) { fact_inv[i - 1] = fact_inv[i] * i % mod; } } }; ll popcount(ll x) { x = (x & 0x5555555555555555) + (x >> 1 & 0x5555555555555555); x = (x & 0x3333333333333333) + (x >> 2 & 0x3333333333333333); x = (x & 0x0F0F0F0F0F0F0F0F) + (x >> 4 & 0x0F0F0F0F0F0F0F0F); x = (x & 0x00FF00FF00FF00FF) + (x >> 8 & 0x00FF00FF00FF00FF); x = (x & 0x0000FFFF0000FFFF) + (x >> 16 & 0x0000FFFF0000FFFF); x = (x & 0x00000000FFFFFFFF) + (x >> 32 & 0x00000000FFFFFFFF); return x; } constexpr ll mod = 998244353; template <std::uint_fast64_t Modulus> class modint { using u64 = std::uint_fast64_t; public: u64 val; constexpr modint(const u64 x = 0) noexcept : val(x% Modulus) {} constexpr u64& value() noexcept { return val; } constexpr const u64& value() const noexcept { return val; } constexpr modint operator+(const modint rhs) const noexcept { return modint(*this) += rhs; } constexpr modint operator-(const modint rhs) const noexcept { return modint(*this) -= rhs; } constexpr modint operator*(const modint rhs) const noexcept { return modint(*this) *= rhs; } constexpr modint operator/(const modint rhs) const noexcept { return modint(*this) /= rhs; } constexpr modint& operator+=(const modint rhs) noexcept { val += rhs.val; if (val >= Modulus) { val -= Modulus; } return *this; } constexpr modint& operator-=(const modint rhs) noexcept { if (val < rhs.val) { val += Modulus; } val -= rhs.val; return *this; } constexpr modint& operator*=(const modint rhs) noexcept { val = val * rhs.val % Modulus; return *this; } constexpr modint& operator/=(modint rhs) noexcept { u64 exp = Modulus - 2; while (exp) { if (exp % 2) { *this *= rhs; } rhs *= rhs; exp /= 2; } return *this; } }; ll dp[1010101]; constexpr ll m = 924844033; int main() { ios::sync_with_stdio(false); std::cin.tie(0); std::cout.tie(0); string s; cin >> s; ll pre = 1, suf = 1; while (s.size() && s.back() == '0')pre++, s.pop_back(); if (s.size() == 0) { cout << pre << "\n"; return 0; } reverse(all(s)); while (s.size() && s.back() == '0')suf++, s.pop_back(); ll n = s.size(); Array nxt0(n, INF), nxt1(n, INF); Array last(2, INF); for (int i = n - 1; i >= 0; i--) { nxt0[i] = last[0]; nxt1[i] = last[1]; last[s[i] - '0'] = i; } if (last[1] != INF)dp[last[1]] = 1; ll ans = 0; REP(i, n) { if (s[i] == '1')(ans += dp[i]) %= m; if (nxt1[i] != INF) { (dp[nxt1[i]] += dp[i]) %= m; } if (nxt0[i] != INF) { if (s[i] == '0' && nxt0[i] != i + 1)continue; (dp[nxt0[i]] += dp[i]) %= m; } } (ans *= pre * suf % m) %= m; cout << ans << "\n"; return 0; }