Submission #1127777

#TimeUsernameProblemLanguageResultExecution timeMemory
1127777IcelastCatfish Farm (IOI22_fish)C++20
0 / 100
1099 ms69024 KiB
#include "fish.h" #include <iostream> #include <bits/stdc++.h> #define ll long long using namespace std; const ll maxn = 2*1e5+5, INF = 4e18+9; struct fish{ ll y, w, p; }; bool cmp(fish a, fish b){ return a.y < b.y; } template<class Info, class Tag> struct LazySegmentTree { int n; vector<Info> info; vector<Tag> tag; LazySegmentTree() : n(0) {} LazySegmentTree(int n_, Info v_ = Info()) { init(n_, v_); } template<class T> LazySegmentTree(vector<T> init_) { init(init_); } void init(int n_, Info v_ = Info()) { init(vector<Info>(n_, v_)); } template<class T> void init(vector<T> init_) { n = init_.size(); info.assign(4 << __lg(n), Info()); tag.assign(4 << __lg(n), Tag()); function<void(int, int, int)> build = [&](int p, int l, int r) { if (r - l == 1) { info[p] = init_[l]; return; } int m = (l + r) / 2; build(2 * p, l, m); build(2 * p + 1, m, r); pull(p); }; build(1, 0, n); } void pull(int p) { info[p] = info[2 * p] + info[2 * p + 1]; } void apply(int p, const Tag &v) { info[p].apply(v); tag[p].apply(v); } void push(int p) { apply(2 * p, tag[p]); apply(2 * p + 1, tag[p]); tag[p] = Tag(); } void modify(int p, int l, int r, int x, const Info &v) { if (r - l == 1) { info[p] = v; return; } int m = (l + r) / 2; push(p); if (x < m) { modify(2 * p, l, m, x, v); } else { modify(2 * p + 1, m, r, x, v); } pull(p); } void modify(int p, const Info &v) { modify(1, 0, n, p, v); } Info rangeQuery(int p, int l, int r, int x, int y) { if (l >= y || r <= x) { return Info(); } if (l >= x && r <= y) { return info[p]; } int m = (l + r) / 2; push(p); return rangeQuery(2 * p, l, m, x, y) + rangeQuery(2 * p + 1, m, r, x, y); } Info rangeQuery(int l, int r) { return rangeQuery(1, 0, n, l, r); } void rangeApply(int p, int l, int r, int x, int y, const Tag &v) { if (l >= y || r <= x) { return; } if (l >= x && r <= y) { apply(p, v); return; } int m = (l + r) / 2; push(p); rangeApply(2 * p, l, m, x, y, v); rangeApply(2 * p + 1, m, r, x, y, v); pull(p); } void rangeApply(int l, int r, const Tag &v) { return rangeApply(1, 0, n, l, r, v); } template<class F> int findFirst(int p, int l, int r, int x, int y, F &&pred) { if (l >= y || r <= x) { return -1; } if (l >= x && r <= y && !pred(info[p])) { return -1; } if (r - l == 1) { return l; } int m = (l + r) / 2; push(p); int res = findFirst(2 * p, l, m, x, y, pred); if (res == -1) { res = findFirst(2 * p + 1, m, r, x, y, pred); } return res; } template<class F> int findFirst(int l, int r, F &&pred) { return findFirst(1, 0, n, l, r, pred); } template<class F> int findLast(int p, int l, int r, int x, int y, F &&pred) { if (l >= y || r <= x) { return -1; } if (l >= x && r <= y && !pred(info[p])) { return -1; } if (r - l == 1) { return l; } int m = (l + r) / 2; push(p); int res = findLast(2 * p + 1, m, r, x, y, pred); if (res == -1) { res = findLast(2 * p, l, m, x, y, pred); } return res; } template<class F> int findLast(int l, int r, F &&pred) { return findLast(1, 0, n, l, r, pred); } }; struct Tag { ll add = 0; void apply(const Tag &t) & { add += t.add; } }; struct Info { ll mx = 0; void apply(const Tag &t) & { mx += t.add; } Info operator+(const Info &b) { return {max(mx, b.mx)}; } }; struct update{ ll l, r, w; }; long long max_weights(int n, int m, std::vector<int> X, std::vector<int> Y, std::vector<int> W) { for(int i = 0; i < m; i++){ X[i]++; Y[i]++; } vector<vector<fish>> pond(n+2), pond2(n+2); for(int i = 1; i <= m; i++){ pond[X[i-1]].push_back({Y[i-1], W[i-1], 0}); pond2[X[i-1]-1].push_back({Y[i-1], W[i-1], 2}); pond2[X[i-1]+1].push_back({Y[i-1], W[i-1], 1}); } for(int i = 0; i <= n+1; i++){ pond2[i].push_back({0, 0, 0}); sort(pond[i].begin(), pond[i].end(), cmp); sort(pond2[i].begin(), pond2[i].end(), cmp); } vector<vector<ll>> f(n+2), g(n+2); LazySegmentTree<Info, Tag> T(n+1); for(int i = 1; i <= n; i++){ vector<update> rollback; for(int j = 0; j < (int)f[i-1].size(); j++){ if(T.rangeQuery(pond2[i-1][j].y, pond2[i-1][j].y+1).mx == 0){ T.rangeApply(pond2[i-1][j].y, pond2[i-1][j].y+1, {f[i-1][j]}); rollback.push_back({pond2[i-1][j].y, pond2[i-1][j].y, f[i-1][j]}); } } for(auto it : pond2[i]){ if(it.p == 1) { T.rangeApply(0, it.y+1, {it.w}); rollback.push_back({0, it.y, it.w}); } ll mx = T.info[1].mx; f[i].push_back(mx); } for(auto it : rollback){ T.rangeApply(it.l, it.r+1, {-it.w}); } } for(int i = n; i >= 1; i--){ vector<update> rollback; for(int j = 0; j < (int)g[i+1].size(); j++){ if(T.rangeQuery(pond2[i+1][j].y, pond2[i+1][j].y+1).mx == 0){ T.rangeApply(pond2[i+1][j].y, pond2[i+1][j].y+1, {g[i+1][j]}); rollback.push_back({pond2[i+1][j].y, pond2[i+1][j].y, g[i+1][j]}); } } for(auto it : pond2[i]){ if(it.p == 2) { T.rangeApply(0, it.y+1, {it.w}); rollback.push_back({0, it.y, it.w}); } ll mx = T.info[1].mx; g[i].push_back(mx); } for(auto it : rollback){ T.rangeApply(it.l, it.r+1, {-it.w}); } } ll ans = 0; for(int i = 1; i <= n; i++){ for(int j = 0; j < (int)pond2[i].size(); j++){ ans = max(ans, f[i][j]+g[i][j]); } } return ans; }
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