Submission #939519

#TimeUsernameProblemLanguageResultExecution timeMemory
939519boris_mihovTreatment Project (JOI20_treatment)C++17
5 / 100
363 ms282192 KiB
#include <algorithm> #include <iostream> #include <numeric> #include <cassert> #include <vector> #include <queue> #include <set> typedef long long llong; const int MAXN = 100000 + 10; const llong INF = 1e18; int n, m; struct Interval { int t, l, r, c; friend bool operator < (const Interval &a, const Interval &b) { return a.t < b.t; } }; Interval a[MAXN]; std::vector <std::pair <int,llong>> g[MAXN]; std::pair <int,llong> gTree[40 * MAXN][2]; int nodeCounter; struct PersistentSegmentTree { struct Node { int val; int left; int right; llong edgeValue; }; Node tree[MAXN * 20]; int root; int cnt; void build(int l, int r, int node, int order[]) { if (l == r) { tree[node].val = order[l]; tree[node].edgeValue = INF; return; } int mid = (l + r) / 2; tree[node].left = ++cnt; tree[node].right = ++cnt; assert(cnt < 20 * MAXN); build(l, mid, tree[node].left, order); build(mid + 1, r, tree[node].right, order); tree[node].val = ++nodeCounter; assert(nodeCounter < 40 * MAXN); tree[node].edgeValue = 0; gTree[tree[node].val][0] = {tree[tree[node].left].val, tree[tree[node].left].edgeValue}; gTree[tree[node].val][1] = {tree[tree[node].right].val, tree[tree[node].right].edgeValue}; } void update(int l, int r, int newNode, int oldNode, int queryPos, int queryVal) { tree[newNode] = tree[oldNode]; if (l == r) { tree[newNode].edgeValue = queryVal; return; } int mid = (l + r) / 2; if (queryPos <= mid) { tree[newNode].left = ++cnt; assert(cnt < 20 * MAXN); update(l, mid, tree[newNode].left, tree[oldNode].left, queryPos, queryVal); } else { tree[newNode].right = ++cnt; assert(cnt < 20 * MAXN); update(mid + 1, r, tree[newNode].right, tree[oldNode].right, queryPos, queryVal); } tree[newNode].val = ++nodeCounter; assert(nodeCounter < 40 * MAXN); gTree[tree[newNode].val][0] = {tree[tree[newNode].left].val, tree[tree[newNode].left].edgeValue}; gTree[tree[newNode].val][1] = {tree[tree[newNode].right].val, tree[tree[newNode].right].edgeValue}; } void addEdges(int l, int r, int node, int queryL, int queryR, int from) { if (queryL <= l && r <= queryR) { g[from].push_back({tree[node].val, tree[node].edgeValue}); return; } int mid = (l + r) / 2; if (queryL <= mid) addEdges(l, mid, tree[node].left, queryL, queryR, from); if (mid + 1 <= queryR) addEdges(mid + 1, r, tree[node].right, queryL, queryR, from); } void build(int order[]) { root = 1; cnt = 1; build(1, n, root, order); } void update(int pos, int val) { int newRoot = ++cnt; update(1, n, newRoot, root, pos, val); root = newRoot; } void addEdges(int l, int r, int from) { addEdges(1, n, root, l, r, from); } }; bool in[40 * MAXN]; bool vis[40 * MAXN]; llong dist[40 * MAXN]; PersistentSegmentTree treePlus; PersistentSegmentTree treeMinus; std::set <std::pair <llong,int>> s; int plusOrder[MAXN]; int minusOrder[MAXN]; int inPlusOrder[MAXN]; int inMinusOrder[MAXN]; void solve() { std::sort(a + 1, a + 1 + n); std::iota(plusOrder + 1, plusOrder + 1 + n, 1); std::iota(minusOrder + 1, minusOrder + 1 + n, 1); std::sort(plusOrder + 1, plusOrder + 1 + n, [&](int x, int y) { return a[x].l + a[x].t < a[y].l + a[y].t; }); std::sort(minusOrder + 1, minusOrder + 1 + n, [&](int x, int y) { return a[x].l - a[x].t < a[y].l - a[y].t; }); for (int i = 1 ; i <= n ; ++i) { inPlusOrder[plusOrder[i]] = i; inMinusOrder[minusOrder[i]] = i; } nodeCounter = n; treePlus.build(plusOrder); for (int i = n ; i >= 1 ; --i) { int l = 0, r = n + 1, mid; while (l < r - 1) { mid = (l + r) / 2; if (a[plusOrder[mid]].l + a[plusOrder[mid]].t <= a[i].r + a[i].t + 1) l = mid; else r = mid; } if (l != 0) { treePlus.addEdges(1, l, i); } treePlus.update(inPlusOrder[i], a[i].c); } treeMinus.build(minusOrder); for (int i = 1 ; i <= n ; ++i) { int l = 0, r = n + 1, mid; while (l < r - 1) { mid = (l + r) / 2; if (a[minusOrder[mid]].l - a[minusOrder[mid]].t <= a[i].r - a[i].t + 1) l = mid; else r = mid; } if (l != 0) { treeMinus.addEdges(1, l, i); } treeMinus.update(inMinusOrder[i], a[i].c); } llong ans = INF; assert(nodeCounter < 40 * MAXN); std::fill(dist + 1, dist + 1 + nodeCounter, INF); for (int i = 1 ; i <= n ; ++i) { if (a[i].l == 1) { dist[i] = a[i].c; s.insert({dist[i], i}); in[i] = true; } } if (n > 16) { return; } while (s.size()) { auto [currDist, node] = (*s.begin()); s.erase(s.begin()); if (a[node].r == m) { ans = dist[node]; break; } if (vis[node]) { assert(false); } vis[node] = true; in[node] = true; if (node <= n) { for (const auto &[u, w] : g[node]) { if (dist[u] > dist[node] + w) { if (in[u]) { s.erase(s.find({dist[u], u})); } dist[u] = dist[node] + w; s.insert({dist[u], u}); } } } else { for (const auto &[u, w] : gTree[node]) { if (dist[u] > dist[node] + w) { if (in[u]) { s.erase(s.find({dist[u], u})); } dist[u] = dist[node] + w; s.insert({dist[u], u}); } } } } if (ans == INF) std::cout << -1 << '\n'; else std::cout << ans << '\n'; } void input() { std::cin >> m >> n; for (int i = 1 ; i <= n ; ++i) { std::cin >> a[i].t >> a[i].l >> a[i].r >> a[i].c; } } void fastIOI() { std::ios_base :: sync_with_stdio(0); std::cout.tie(nullptr); std::cin.tie(nullptr); } int main() { fastIOI(); input(); solve(); return 0; }
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