Submission #659944

#TimeUsernameProblemLanguageResultExecution timeMemory
659944SansPapyrus683Zamjene (COCI16_zamjene)C++17
140 / 140
5525 ms451416 KiB
#include <iostream> #include <vector> #include <unordered_map> #include <algorithm> // #include "debugging.hpp" using std::cout; using std::endl; using std::vector; using ll = long long; struct Hash { static const ll MOD1 = 1e9 + 7; static const ll MOD2 = 1e9 + 9; ll h1, h2; Hash(ll h1, ll h2) : h1(h1), h2(h2) { } Hash() : h1(0), h2(0) { } Hash operator+(const Hash& o) { return Hash((h1 + o.h1) % MOD1, (h2 + o.h2) % MOD2); } Hash operator-(const Hash& o) { return Hash((h1 - o.h1 + MOD1) % MOD1, (h2 - o.h2 + MOD2) % MOD2); } Hash exp(const ll& n) { return Hash(h1 * n % MOD1, h2 * n % MOD2); } inline vector<Hash> zero_pairs() { return { Hash(MOD1 - h1, MOD2 - h2), Hash(-h1, -h2), Hash(-h1, MOD2 - h2), Hash(MOD1 - h1, -h2), }; } long long hash() const { return 1LL * h1 * MOD2 + h2; } }; bool operator==(const Hash& h1, const Hash& h2) { return h1.h1 == h2.h1 && h1.h2 == h2.h2; } bool operator!=(const Hash& h1, const Hash& h2) { return h1.h1 != h2.h1 || h1.h2 != h2.h2; } bool operator<(const Hash& h1, const Hash& h2) { return h1.h1 != h2.h1 ? h1.h1 < h2.h1 : h1.h2 < h2.h2; } std::ostream& operator<<(std::ostream& out, const Hash& h) { return out << '(' << h.h1 << ' ' << h.h2 << ')'; } namespace std { template<> struct hash<Hash> { size_t operator()(const Hash& p) const { return p.hash(); } }; } class DominikArray { private: const ll POW = 1e6 + 3; vector<int> arr; vector<int> sorted; vector<int> parent; vector<int> size; int bad_num = 0; // # of bad components (used for type 3) std::unordered_map<int, Hash> elem_pow; // raise to the power of the value // the current hash of a component vector<Hash> hash; // the needed hash for a component to be able to be sorted vector<Hash> req_hash; // the hash differences of the bad components std::unordered_map<Hash, ll> bad_diff; ll cloud_pairs = 0; // # of valid component pairs (used for type 4) int get_top(int n) { return parent[n] == n ? n : (parent[n] = get_top(parent[n])); } /** checks if a component is unsortable (n is a top node) */ inline bool is_unsortable(int n) { return hash[n] != req_hash[n]; } /** add a bad component to the log & update data accordingly */ void add_if_bad(int n) { if (is_unsortable(n)) { // one more bad component bad_num++; Hash diff = req_hash[n] - hash[n]; bad_diff[diff] += size[n]; for (const Hash& zp : diff.zero_pairs()) { cloud_pairs += bad_diff[zp] * size[n]; } } } void remove_if_bad(int n) { if (is_unsortable(n)) { bad_num--; Hash diff = req_hash[n] - hash[n]; bad_diff[diff] -= size[n]; for (const Hash& zp : diff.zero_pairs()) { cloud_pairs -= bad_diff[zp] * size[n]; } } } public: DominikArray(vector<int> arr) : arr(arr), parent(arr.size()), size(arr.size(), 1), hash(arr.size()), req_hash(arr.size()) { sorted = arr; std::sort(sorted.begin(), sorted.end()); // perform coordinate compression Hash curr_hsh(1, 1); for (int i : sorted) { if (!elem_pow.count(i)) { elem_pow[i] = curr_hsh; curr_hsh = curr_hsh.exp(POW); } } // set up DSU and the hashes for (int i = 0; i < arr.size(); i++) { parent[i] = i; hash[i] = elem_pow[arr[i]]; req_hash[i] = elem_pow[sorted[i]]; add_if_bad(i); } } void swap(int a, int b) { int top_a = get_top(a); int top_b = get_top(b); // temporarily take them out of the bad log (if applicable) remove_if_bad(top_a); remove_if_bad(top_b); // change the hashes of the two components hash[top_a] = hash[top_a] + elem_pow[arr[b]] - elem_pow[arr[a]]; hash[top_b] = hash[top_b] + elem_pow[arr[a]] - elem_pow[arr[b]]; // add the back (if applicable) add_if_bad(top_a); add_if_bad(top_b); std::swap(arr[a], arr[b]); } void link(int a, int b) { a = get_top(a); b = get_top(b); if (a == b) { return; } if (size[a] < size[b]) { return link(b, a); } remove_if_bad(a); remove_if_bad(b); // standard dsu operations size[a] += size[b]; parent[b] = a; // add the hash of the smaller component to the bigger one hash[a] = hash[a] + hash[b]; req_hash[a] = req_hash[a] + req_hash[b]; // since b's merged into a, we just add a back (if applicable) add_if_bad(a); } bool sortable() { // for everything to be sortable, there can't be any bad components return bad_num == 0; } ll needed_pair_num() { return cloud_pairs; } }; // https://oj.uz/problem/view/COCI16_zamjene (input omitted due to length) int main() { std::ios::sync_with_stdio(false); std::cin.tie(NULL); int arr_len; int query_num; std::cin >> arr_len >> query_num; vector<int> arr(arr_len); for (int& i : arr) { std::cin >> i; } DominikArray array(arr); for (int q = 0; q < query_num; q++) { int type; std::cin >> type; int a, b; // not necessarily used (queries of type 3 & 4) switch (type) { case 1: std::cin >> a >> b; array.swap(--a, --b); break; case 2: std::cin >> a >> b; array.link(--a, --b); break; case 3: cout << (array.sortable() ? "DA" : "NE") << '\n'; break; case 4: cout << array.needed_pair_num() << '\n'; break; }; } }

Compilation message (stderr)

zamjene.cpp: In constructor 'DominikArray::DominikArray(std::vector<int>)':
zamjene.cpp:137:31: warning: comparison of integer expressions of different signedness: 'int' and 'std::vector<int>::size_type' {aka 'long unsigned int'} [-Wsign-compare]
  137 |             for (int i = 0; i < arr.size(); i++) {
      |                             ~~^~~~~~~~~~~~
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