제출 #919824

#제출 시각아이디문제언어결과실행 시간메모리
919824hariaakas646밀림 점프 (APIO21_jumps)C++14
4 / 100
910 ms81080 KiB
#include "jumps.h" #include <bits/stdc++.h> using namespace std; #define scd(t) scanf("%d", &t) #define sclld(t) scanf("%lld", &t) #define forr(i, l, r) for(int i=l; i<r; i++) #define frange(i, l) forr(i, 0, l) #define pb push_back #define mp make_pair #define f first #define s second #define all(x) x.begin(), x.end() typedef vector<int> vi; typedef pair<int, int> pii; typedef vector<pii> vii; typedef long long lli; typedef vector<vi> vvi; typedef vector<lli> vll; typedef vector<bool> vb; typedef set<int> seti; typedef multiset<int> mseti; // mt19937 rng(chrono::steady_clock::now().time_since_epoch().count()); // int randNo(int lower_limit, int upper_limit){ // if(upper_limit == lower_limit) return upper_limit; // return lower_limit + rng()%(upper_limit-lower_limit); // } template <class T> struct SegTree { int size = 1, n; vector<T> segtree; vector<T> vec; T def; // Assign a value void init(int l, T defv) { n = l; def = defv; while (size < n) size *= 2; segtree.assign(2 * size, def); vec.assign(size, def); } T operation(T x, T y) { return max(x, y); // Any required operation } void recalculate(int x) { segtree[x] = operation(segtree[2 * x + 1], segtree[2 * x + 2]); } void build(int x, int l, int r) { if (l == r) { segtree[x] = vec[l]; return; } int mid = (l + r) / 2; build(2 * x + 1, l, mid); build(2 * x + 2, mid + 1, r); recalculate(x); } void build() { build(0, 0, size - 1); } void set(int id, T val) { vec[id] = val; } void update(int x, int l, int r, int id, T val) { if (l == r) { segtree[x] = val; return; } int mid = (l + r) / 2; if (id <= mid) { update(2 * x + 1, l, mid, id, val); } else { update(2 * x + 2, mid + 1, r, id, val); } recalculate(x); } void update(int id, T val) { update(0, 0, size - 1, id, val); } T query(int x, int l, int r, int lx, int rx) { if (lx > r || rx < l) { return def; } if (lx <= l && r <= rx) { return segtree[x]; } int mid = (l + r) / 2; T v1 = query(2 * x + 1, l, mid, lx, rx); T v2 = query(2 * x + 2, mid + 1, r, lx, rx); return operation(v1, v2); } T query(int lx, int rx) { if(lx > rx) return def; return query(0, 0, size - 1, lx, rx); } }; vvi graph; int n; vvi lifti, lifta, rgt, lft; vii mi, ma; vi hgt; SegTree<pair<int, int>> tree; int lift(int x, int h, int pos, int d) { int c = 0; for(int i=19; i>=0; i--) { int xt1 = lifta[i][x]; int xt2 = lifti[i][x]; if(hgt[xt2] < h && hgt[xt1] < h && xt1 < pos && xt2 < pos) { x = xt1; c+=(1<<i); } } for(int i=19; i>=0; i--) { int xt = rgt[i][x]; if(hgt[xt] < h && xt < pos) { x = xt; c += (1<<i); } } if(pos <= rgt[0][x] && rgt[0][x] <= d) return c + 1; else return -1; } void init(int N, std::vector<int> h) { n = N; graph = vvi(n); hgt = h; deque<int> dq; mi = vii(n, mp(2e9, -1)); ma = vii(n, mp(-1, -1)); lft = vvi(20, vi(n, -1)); frange(i, n) { while(dq.size() && h[i] >= h[dq.back()]) dq.pop_back(); if(dq.size()) { mi[i] = mp(h[dq.back()], dq.back()); ma[i] = mp(h[dq.back()], dq.back()); lft[0][i] = dq.back(); } else lft[0][i] = -1; dq.pb(i); } dq = {}; rgt = vvi(20, vi(n, -1)); for(int i=n-1; i>=0; i--) { while(dq.size() && h[i] >= h[dq.back()]) dq.pop_back(); if(dq.size()) { pii p = mp(h[dq.back()], dq.back()); rgt[0][i] = p.s; if(p > ma[i]) ma[i] = p; if(p < mi[i]) mi[i] = p; } else rgt[0][i] = -1; dq.pb(i); } tree.init(n, mp(0, -1)); frange(i, n) tree.set(i, mp(h[i], i)); tree.build(); lifti = lifta = vvi(20, vi(n, -1)); frange(i, n) { if(mi[i].s != -1) lifti[0][i] = mi[i].s; else lifti[0][i] = -1; if(ma[i].s != -1) lifta[0][i] = ma[i].s; else lifta[0][i] = -1; } forr(i, 1, 20) { frange(j, n) { if(lifti[i-1][j] != -1) lifti[i][j] = lifti[i-1][lifti[i-1][j]]; if(lifta[i-1][j] != -1) lifta[i][j] = lifta[i-1][lifta[i-1][j]]; if(rgt[i-1][j] != -1) rgt[i][j] = rgt[i-1][rgt[i-1][j]]; if(lft[i-1][j] != -1) lft[i][j] = lft[i-1][lft[i-1][j]]; } } } int minimum_jumps(int a, int b, int c, int d) { pii p = tree.query(b+1, c-1); if(hgt[b] > p.f) { if(rgt[0][b] <= d) return 1; else return -1; } if(rgt[0][p.s] > d) return -1; int l = lft[0][p.s]; if(l >= a && rgt[0][l] <= d) { return 1; } l = tree.query(max(a, l+1), b).s; int ct = 0; for(int i=19; i>=0; i--) { int lt = lifta[i][l]; if(lt >= 0 && hgt[lt] <= hgt[p.s]) { l = lt; ct += (1<<i); } } if(l == p.s) { return ct+1; } if(lft[0][l] >= 0 && rgt[0][lft[0][l]] <= d) { return ct + 2; } for(int i=19; i>=0; i--) { int lt = rgt[i][l]; if(lt != -1 && lt < c) { l = lt; ct += (1<<i); } } if(c <= rgt[0][l] && rgt[0][l] <= d) return ct+1; else return -1; }
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