Submission #985496

#TimeUsernameProblemLanguageResultExecution timeMemory
985496MaaxleStations (IOI20_stations)C++17
0 / 100
567 ms1096 KiB
#include "stations.h" #include <bits/stdc++.h> #define range(it, a, b) for (ll it = a; it < b; it++) #define all(x) begin(x), end(x) #define ll long long #define ull unsigned long long #define INF64 ((ll) 1 << 62) #define INF32 (1 << 30) #define mset multiset #define uset unordered_set #define umap unordered_map #define pqueue priority_queue #define ptr(A) shared_ptr<A> using namespace std; struct Node { int in, out; int depth; }; void dfs(int i, int p, int d, vector<int>& euler, vector<vector<int>>& adj, vector<Node>& nodes) { nodes[i].depth = d; nodes[i].in = euler.size(); euler.push_back(i); for (int& k : adj[i]) { if (k != p) dfs(k, i, d+1, euler, adj, nodes); } nodes[i].out = euler.size(); euler.push_back(i); } vector<int> label(int n, int k, vector<int> u, vector<int> v) { vector<Node> nodes (n); vector<vector<int>> adj (n); vector<int> euler; range(i, 0, n-1) { adj[u[i]].push_back(v[i]); adj[v[i]].push_back(u[i]); } dfs(0, 0, 0, euler, adj, nodes); vector<int> label (n); range(i, 0, n) label[i] = (nodes[i].depth & 1 ? nodes[i].out : nodes[i].in); sort(all(label)); vector<int> ans (n); range(i, 0, n) { int bs = (nodes[i].depth & 1 ? nodes[i].out : nodes[i].in); ans[i] = distance(begin(label), lower_bound(all(label), bs)); } return ans; } int find_next_station(int s, int t, vector<int> c) { sort(all(c)); // CASE 1 -> s has an 'in' value // every node in c has value 'out' // the parent of them all is the right-most value // s is the left-most value if (s < c[0]) { // CASE 1.1 -> t is not a decendant of s // and t is before s if (t < s) return c.back(); // CASE 1.2 -> t may or not be decendant of s // ancestor of t is the first in c that is >= t for (int& i : c) { if (i >= t) return i; } } // CASE 2 -> s has an 'out' value // every node in c has value 'in' // the parent of them all is the left-most value // s is the right-most value // CASE 2.1 -> t is not a decendant of s // and t is after s if (t > s) return c[0]; // CASE 2.2 -> t may or not be a decendant of s // ancestor of t is the first in c that is <= t (backwards) for (auto it = rbegin(c); 1; it++) { if (*it <= t) return *it; } }
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