// Exported by Exporter.exe // Included from AC.cpp // Should AC #include using namespace std; #define PB push_back #define F first #define S second #define MP make_pair #define MTP make_tuple #define R Read #define RD Read_Digit #define RP Read_P #define RL Read_Loop #define RLD Read_Loop_Digit #define RLP Read_Loop_P #define RS Read_String #ifdef ONLINE_JUDGE #define Debug(...) ; #define Debug_Array(n,x) ; #define Debugln_Array(n,x) ; #define NL ; #else #define Debug(...) {printf("(%s) = ",(#__VA_ARGS__)),_print(__VA_ARGS__),printf("\n");} #define Debug_Array(n,x) {printf("%s :",(#x));for(int i=1;i<=n;i++)printf(" "),_print(x[i]);printf("\n");} #define Debugln_Array(n,x) {for(int i=1;i<=n;i++){printf("%s",(#x));printf("[%d] = ", i);_print(x[i]);printf("\n");}} #define NL {printf("\n");} #endif typedef long long int ll; typedef unsigned long long int ull; constexpr int kN = int(5E3 + 10); constexpr int kM = int(1E5 + 10); constexpr int kC = 31; // constexpr int kMod = 998244353; // constexpr int kMod = int(1E9 + 7); // constexpr int kInf = 0x3f3f3f3f; // constexpr ll kInf = 0x3f3f3f3f3f3f3f3f; // constexpr double kPi = acos(-1); // constexpr double kEps = 1E-9; // Included from C:\Users\ianli\Desktop\CP\template\Various\Fast_IO\Fast_IO.cpp bool Fast_IO_activated = false; bool IOS_activated = false; // --- Get --- static inline char Get_Raw_Char() { static bool pre = Fast_IO_activated = true; static char buf[1 << 16], *p = buf, *end = buf; if (p == end) { if ((end = buf + fread(buf, 1, 1 << 16, stdin)) == buf) return '\0'; p = buf; } return *p++; } // --- Read --- template static inline void Read_P(T &n) { static_assert(is_integral::value, "Read_P requires an integral type"); char c; while (!isdigit(c = Get_Raw_Char())) ; n = int(c - '0'); while (isdigit(c = Get_Raw_Char())) n = n * 10 + int(c - '0'); return ; } template static inline void Read(T &n) { static_assert(is_integral::value, "Read requires an integral type"); char c; bool neg = false; while (!isdigit(c = Get_Raw_Char())) if (c == '-') neg = true; n = int(c - '0'); while (isdigit(c = Get_Raw_Char())) n = n * 10 + int(c - '0'); if (neg) n = -n; return ; } template static inline void Read_Digit(T &n) { static_assert(is_integral::value, "Read_Digit requires an integral type"); char c; while (!isdigit(c = Get_Raw_Char())) ; n = int(c - '0'); return ; } static inline void Read_String(string &s) { char c = Get_Raw_Char(); while (c == ' ' || c == '\n') c = Get_Raw_Char(); while (c != ' ' && c != '\n') { s += c; c = Get_Raw_Char(); } return ; } // --- Read multiple --- template static inline void Read(T &n, Targs&... Fargs) {Read(n); return Read(Fargs...);} template static inline void Read_Digit(T &n, Targs&... Fargs) {Read_Digit(n); return Read_Digit(Fargs...);} template static inline void Read_P(T &n, Targs&... Fargs) {Read_P(n); return Read_P(Fargs...);} // --- Read Loop --- template static inline void Read_Loop_i(int i, T *a) {return Read(a[i]);} template static inline void Read_Loop_i(int i, T *a, Targs*... Fargs) {Read(a[i]); return Read_Loop_i(i, Fargs...);} template static inline void Read_Loop(int n, Targs*... Fargs) {for (int i = 1; i <= n; i++) Read_Loop_i(i, Fargs...);} template static inline void Read_Loop_Digit_i(int i, T *a) {return Read_Digit(a[i]);} template static inline void Read_Loop_Digit_i(int i, T *a, Targs*... Fargs) {Read_Digit(a[i]); return Read_Loop_Digit_i(i, Fargs...);} template static inline void Read_Loop_Digit(int n, Targs*... Fargs) {for (int i = 1; i <= n; i++) Read_Loop_Digit_i(i, Fargs...);} template static inline void Read_Loop_P_i(int i, T *a) {return Read_P(a[i]);} template static inline void Read_Loop_P_i(int i, T *a, Targs*... Fargs) {Read_P(a[i]); return Read_Loop_P_i(i, Fargs...);} template static inline void Read_Loop_P(int n, Targs*... Fargs) {for (int i = 1; i <= n; i++) Read_Loop_P_i(i, Fargs...);} // --- Float --- template static inline void Read(T &n) { char c; bool neg = false; while (!isdigit(c = Get_Raw_Char())) if (c == '-') neg = true; n = int(c - '0'); while (isdigit(c = Get_Raw_Char())) n = n * 10 + int(c - '0'); int cnt = 0; if (c == '.') { while (isdigit(c = Get_Raw_Char())) { n = n * 10 + int(c - '0'); cnt++; } } while (cnt++ < mul) n = n * 10; if (neg) n = -n; return ; } template static inline void Read_P(T &n) { char c; while (!isdigit(c = Get_Raw_Char())) ; n = int(c - '0'); while (isdigit(c = Get_Raw_Char())) n = n * 10 + int(c - '0'); int cnt = 0; if (c == '.') { while (isdigit(c = Get_Raw_Char())) { n = n * 10 + int(c - '0'); cnt++; } } while (cnt++ < mul) n = n * 10; return ; } template static inline void Read(T &n, Targs&... Fargs) {Read(n); return Read(Fargs...);} template static inline void Read_P(T &n, Targs&... Fargs) {Read_P(n); return Read_P(Fargs...);} // --- init --- inline void IOS() { IOS_activated = true; ios::sync_with_stdio(false); cin.tie(0); } inline void Freopen(const char *in, const char *out) {freopen(in, "r", stdin); freopen(out, "w", stdout); return ;} // --- Output --- template void Print(T x) { if (x < 0) { printf("-"); x = -x; } if (x == 0) printf("0"); else { static int val[100]; int idx = -1; while (x) { val[++idx] = x % 10; x /= 10; } while (idx >= 0) printf("%d", val[idx--]); } } // End of C:\Users\ianli\Desktop\CP\template\Various\Fast_IO\Fast_IO.cpp // Included from C:\Users\ianli\Desktop\CP\template\Various\Useful_Functions\Useful_Functions.cpp template inline void sort(vector &v) {return sort(v.begin(), v.end());} template inline void sort_r(vector &v) {return sort(v.begin(), v.end(), greater());} inline void sort(string &s) {return sort(s.begin(), s.end());} inline void sort_r(string &s) {return sort(s.begin(), s.end(), greater());} template inline void reverse(vector &v) {return reverse(v.begin(), v.end());} inline void reverse(string &s) {return reverse(s.begin(), s.end());} template inline void Merge(vector &a, vector &b, vector &c) { if (c.size() < a.size() + b.size()) c.resize(a.size() + b.size()); merge(a.begin(), a.end(), b.begin(), b.end(), c.begin()); return ; } template inline void Concatanate(vector &a, vector &b, vector &c) { int a_size = int(a.size()), b_size = int(b.size()); c.resize(a_size + b_size); for (int i = 0; i < a_size; i++) c[i] = a[i]; for (int i = 0; i < b_size; i++) c[i + a_size] = b[i]; return ; } template inline void Discrete(vector &v) {sort(v); v.resize(unique(v.begin(), v.end()) - v.begin()); return ;} template using PQ = priority_queue; template using PQ_R = priority_queue, greater>; template inline T ABS(T n) {return n >= 0 ? n : -n;} template __attribute__((target("bmi"))) inline T gcd(T a, T b) { if (a < 0) a = -a; if (b < 0) b = -b; if (a == 0 || b == 0) return a + b; int n = __builtin_ctzll(a); int m = __builtin_ctzll(b); a >>= n; b >>= m; while (a != b) { int m = __builtin_ctzll(a - b); bool f = a > b; T c = f ? a : b; b = f ? b : a; a = (c - b) >> m; } return a << min(n, m); } template inline T lcm(T a, T b) {return a * (b / gcd(a, b));} template inline T gcd(T a, T b, T c, Targs... args) {return gcd(a, gcd(b, c, args...));} template inline T lcm(T a, T b, T c, Targs... args) {return lcm(a, lcm(b, c, args...));} template inline T min(T a, T b, T c, Targs... args) {return min(a, min(b, c, args...));} template inline T max(T a, T b, T c, Targs... args) {return max(a, max(b, c, args...));} template inline void chmin(T &a, T b, Targs... args) {a = min(a, b, args...); return ;} template inline void chmax(T &a, T b, Targs... args) {a = max(a, b, args...); return ;} vector Primes(int n) { if (n == 1) return {}; // 2 ~ n vector primes; vector isPrime(n + 1, true); primes.reserve(n / __lg(n)); for (int i = 2; i <= n; i++) { if (isPrime[i]) primes.push_back(i); for (int j : primes) { if (i * j > n) break; isPrime[i * j] = false; if (i % j == 0) break; } } return primes; } template vector factors(T x) { // maybe use factorize would be faster? vector ans; for (T i = 1; i * i <= x; i++) if (x % i == 0) ans.push_back(i); int id = int(ans.size()) - 1; if (ans[id] * ans[id] == x) id--; for (int i = id; i >= 0; i--) ans.push_back(x / ans[i]); return ans; } int mex(vector vec) { int n = int(vec.size()); vector have(n, false); for (int i : vec) if (i < n) have[i] = true; for (int i = 0; i < n; i++) if (!have[i]) return i; return n; } template T SQ(T x) {return x * x;} template T Mdist(pair lhs, pair rhs) {return ABS(lhs.first - rhs.first) + ABS(lhs.second - rhs.second);} template T Dist2(pair lhs, pair rhs) { return SQ(lhs.F - rhs.F) + SQ(lhs.S - rhs.S); } template T LUBound(T LB, T val, T UB) {return min(max(LB, val), UB);} template T Binary_Search(T L, T R, Comp f) { // L good R bad static_assert(is_integral::value, "Binary_Search requires an integral type"); while (R - L > 1) { T mid = (L + R) >> 1; if (f(mid)) L = mid; else R = mid; } return L; } template double Binary_Search(double L, double R, Comp f, int n = 30) { for (int i = 1; i <= n; i++) { double mid = (L + R) / 2; if (f(mid)) L = mid; else R = mid; } return L; } template T nearest(set &se, T val) { static constexpr T kInf = numeric_limits::max() / 2 - 10; if (se.empty()) return kInf; else if (val <= *se.begin()) return *se.begin() - val; else if (val >= *prev(se.end())) return val - *prev(se.end()); else { auto u = se.lower_bound(val); auto v = prev(u); return min(*u - val, val - *v); } } namespace MR32 { using ull = unsigned long long int; using uint = unsigned int; ull PowMod(ull a, ull b, ull kMod) { ull ans = 1; for (; b; b >>= 1, a = a * a % kMod) if (b & 1) ans = ans * a % kMod; return ans; } bool IsPrime(uint x) { static constexpr bool low[8] = {false, false, true, true, false, true, false, true}; static constexpr uint as = 3, a[3] = {2, 7, 61}; if (x < 8) return low[x]; uint t = x - 1; int r = 0; while ((t & 1) == 0) { t >>= 1; r++; } for (uint i = 0; i < as; i++) if (a[i] <= x - 2) { bool ok = false; ull tt = PowMod(a[i], t, x); if (tt == 1) continue; for (int j = 0; j < r; j++, tt = tt * tt % x) if (tt == x - 1) { ok = true; break; } if (!ok) return false; } return true; } } #ifdef __SIZEOF_INT128__ namespace MR64 { using uint128 = unsigned __int128; using ull = unsigned long long int; using uint = unsigned int; uint128 PowMod(uint128 a, uint128 b, uint128 kMod) { uint128 ans = 1; for (; b; b >>= 1, a = a * a % kMod) if (b & 1) ans = ans * a % kMod; return ans; } bool IsPrime(ull x) { static constexpr bool low[8] = {false, false, true, true, false, true, false, true}; static constexpr uint as = 7, a[7] = {2, 325, 9375, 28178, 450775, 9780504, 1795265022}; if (x < 8) return low[x]; ull t = x - 1; int r = 0; while ((t & 1) == 0) { t >>= 1; r++; } for (uint i = 0; i < as; i++) if (a[i] <= x - 2) { bool ok = false; uint128 tt = PowMod(a[i], t, x); if (tt == 1) continue; for (int j = 0; j < r; j++, tt = tt * tt % x) if (tt == x - 1) { ok = true; break; } if (!ok) return false; } return true; } } #endif bool IsPrime(unsigned long long int x) { #ifdef __SIZEOF_INT128__ if ((x >> 32) == 0) return MR32::IsPrime(x); else return MR64::IsPrime(x); #endif return MR32::IsPrime(x); } #ifdef __SIZEOF_INT128__ uint64_t PollardRho(uint64_t x) { static mt19937 rng; if (!(x & 1)) return 2; if (IsPrime(x)) return x; int64_t a = rng() % (x - 2) + 2, b = a; uint64_t c = rng() % (x - 1) + 1, d = 1; while (d == 1) { a = (__int128(a) * a + c) % x; b = (__int128(b) * b + c) % x; b = (__int128(b) * b + c) % x; d = __gcd(uint64_t(abs(a - b)), x); if (d == x) return PollardRho(x); } return d; } #endif template vector factorize(T x) { if (x <= 1) return {}; T p = PollardRho(x); if (p == x) return {x}; vector ans, lhs = factorize(p), rhs = factorize(x / p); Merge(lhs, rhs, ans); return ans; } template vector> Compress(vector vec) { // vec must me sorted if (vec.empty()) return {}; vector> ans; int cnt = 1, sz = int(vec.size()); T lst = vec[0]; for (int i = 1; i < sz; i++) { if (lst != vec[i]) { ans.push_back(make_pair(lst, cnt)); lst = vec[i]; cnt = 1; } else cnt++; } ans.push_back(make_pair(lst, cnt)); return ans; } // End of C:\Users\ianli\Desktop\CP\template\Various\Useful_Functions\Useful_Functions.cpp // Included from C:\Users\ianli\Desktop\CP\template\Various\Debug\Debug.cpp template void _print(vector v) ; void _print(bool x) {printf("%d", x ? 1 : 0);} void _print(char x) {printf("%c", x);} void _print(short x) {printf("%hd", x);} void _print(unsigned short x) {printf("%hu", x);} void _print(int x) {printf("%d", x);} void _print(unsigned int x) {printf("%u", x);} void _print(long long int x) {printf("%lld", x);} void _print(unsigned long long int x) {printf("%llu", x);} void _print(float x) {printf("%f", x);} void _print(double x) {printf("%lf", x);} void _print(long double x) {printf("%Lf", x);} template void _print(bitset<_size> bs) {for (int i = 0; i < _size; i++) printf("%d", bs[i] ? 1 : 0);} #ifdef __SIZEOF_INT128__ void _print(__int128 x) { if (x < 0) { printf("-"); x = -x; } if (x == 0) printf("0"); else { static int val[100]; int idx = -1; while (x) { val[++idx] = x % 10; x /= 10; } while (idx >= 0) printf("%d", val[idx--]); } } void _print(unsigned __int128 x) { if (x < 0) { printf("-"); x = -x; } if (x == 0) printf("0"); else { static int val[100]; int idx = -1; while (x) { val[++idx] = x % 10; x /= 10; } while (idx >= 0) printf("%d", val[idx--]); } } #endif template void _print(pair x) {printf("("); _print(x.first); printf(", "); _print(x.second); printf(")");} template void _print(tuple x) {printf("("); _print(get<0>(x)); printf(", "); _print(get<1>(x)); printf(", "); _print(get<2>(x)); printf(")");} template void _print(vector v) { if (v.empty()) printf(" empty"); else { bool first = true; for (T i : v) { if (first) first = false; else printf(", "); _print(i); } } } template void _print(set s) { if (s.empty()) printf(" empty"); else { bool first = true; for (T i : s) { if (first) first = false; else printf(", "); _print(i); } } } template void _print(stack s) { if (s.empty()) printf(" empty"); else { _print(s.top()); s.pop(); while (!s.empty()) {printf(", "); _print(s.top()); s.pop();} } } template void _print(queue q) { if (q.empty()) printf(" empty"); else { _print(q.front()); q.pop(); while (!q.empty()) {printf(", "); _print(q.front()); q.pop();} } } template void _print(deque dq) { if (dq.empty()) printf(" empty"); else { _print(dq.front()); dq.pop_front(); while (!dq.empty()) {printf(", "); _print(dq.front()); dq.pop_front();} } } template void _print(priority_queue pq) { if (pq.empty()) printf(" empty"); else { _print(pq.top()); pq.pop(); while (!pq.empty()) {printf(", "); _print(pq.top()); pq.pop();} } } template void _print(map m) { if (m.empty()) printf(" empty"); else { bool first = true; for (pair i : m) { if (first) first = false; else printf(", "); _print(i); } } } template void _print(T x) {return x.out();} template void _print(T x, Targs... Fargs) {_print(x); printf(", "); _print(Fargs...);} // End of C:\Users\ianli\Desktop\CP\template\Various\Debug\Debug.cpp // Included from C:\Users\ianli\Desktop\CP\template\Graph\Bipartite_Matching\bipartite_matching.cpp // Test Source : ARC092 A // kN = #(left vertices), kM = #(right vertices) // AddEdge(left_vertex, right_vertex) // MaxMatch() -> matchx, matchy // 0-based struct Bipartite_Matching { struct Edge { int ed, next; Edge(int a, int b) {ed = a, next = b;} }; vector edge; int *head, *disx, *disy, *matchx, *matchy; // Because vector is faster vector vis; int bfs_dis, x_size, y_size; void init(int n, int m) { x_size = n, y_size = m; edge.clear(); delete [] head; head = new int[x_size]; delete [] disx; disx = new int[x_size]; delete [] disy; disy = new int[y_size]; delete [] matchx; matchx = new int[x_size]; delete [] matchy; matchy = new int[y_size]; vis.clear(); vis.resize(y_size); memset(head, -1, sizeof(int) * x_size); return ; } void AddEdge(int a, int b) { edge.push_back(Edge(b, head[a])); head[a] = int(edge.size()) - 1; return ; } bool Bfs() { queue que; bfs_dis = x_size << 1; memset(disx, -1, sizeof(int) * x_size); memset(disy, -1, sizeof(int) * y_size); for (int i = 0; i < x_size; ++i) if (matchx[i] < 0) { disx[i] = 0; que.push(i); } while (!que.empty()) { int x = que.front(); que.pop(); if (disx[x] > bfs_dis) break; for (int i = head[x]; i >= 0; i = edge[i].next) { int y = edge[i].ed; if (disy[y] < 0) { disy[y] = disx[x] + 1; if (matchy[y] < 0) bfs_dis = disy[y]; else { disx[matchy[y]] = disy[y] + 1; que.push(matchy[y]); } } } } return bfs_dis < (x_size << 1); } bool Dfs(int x) { for (int i = head[x]; i >= 0; i = edge[i].next) { int y = edge[i].ed; if (!vis[y] && disy[y] == disx[x] + 1) { vis[y] = true; if (matchy[y] >= 0 && disy[y] == bfs_dis) continue; if (matchy[y] < 0 || Dfs(matchy[y])) { matchx[x] = y; matchy[y] = x; return true; } } } return false; } int MaxMatch() { int ret = 0; memset(matchx, -1, sizeof(int) * x_size); memset(matchy, -1, sizeof(int) * y_size); while (Bfs()) { fill(vis.begin(), vis.end(), false); for (int i = 0; i < x_size; ++i) if (matchx[i] < 0 && Dfs(i)) ++ret; } return ret; } int operator ()() {return MaxMatch();} }; // End of C:\Users\ianli\Desktop\CP\template\Graph\Bipartite_Matching\bipartite_matching.cpp int x[kM], y[kM], z[kM]; vector edges[kC], gx[kN], gy[kN]; Bipartite_Matching bm; ll val[kC]; bitset alivex, alivey, went; int main() { int n, m, k, l; RP(n, m, k, l); RLP(l, x, y, z); for (int i = 1; i <= l; i++) edges[z[i]].PB(i); alivex.set(); alivey.set(); int lst = 0; vector previous_edges; for (int i = k; i >= 0; i--) { for (int j : edges[i]) if (alivex[x[j]] && alivey[y[j]]) previous_edges.PB(j); for (int j = 1; j <= n; j++) gx[j].clear(); for (int j = 1; j <= m; j++) gy[j].clear(); for (int j : previous_edges) { gx[x[j]].PB(y[j]); gy[y[j]].PB(x[j]); } bm.init(n + 1, m + 1); for (int j : previous_edges) bm.AddEdge(x[j], y[j]); val[i] = bm() - lst; lst += val[i]; queue qu; went.reset(); for (int j = 1; j <= n; j++) if (bm.matchx[j] < 0) { went[j] = true; qu.push(j); } while (!qu.empty()) { int id = qu.front(); qu.pop(); for (int j : gx[id]) if (!went[bm.matchy[j]]) { went[bm.matchy[j]] = true; qu.push(bm.matchy[j]); } } alivex &= went; went.reset(); for (int j = 1; j <= m; j++) if (bm.matchy[j] < 0) { went[j] = true; qu.push(j); } while (!qu.empty()) { int id = qu.front(); qu.pop(); for (int j : gy[id]) if (!went[bm.matchx[j]]) { went[bm.matchx[j]] = true; qu.push(bm.matchx[j]); } } alivey &= went; } ll ans = 0; for (int i = 0; i <= k; i++) ans += val[i] << i; printf("%lld\n", ans); } // End of AC.cpp