CF981G Magic multisets
近似某月赛 E 题 risrqnis。
首先想到树套树,空间爆炸,排除。
用一棵线段树维护区间集合答案,支持 × 2 imes 2 ×2 和 + 1 +1 +1 操作。
怎样维护区间集合添加操作呢,观察到加的数都是同一个数,考虑一个数据结构,建 n n n 个,维护每个颜色的出现区间,加数即区间推平。
考虑到经典 trick 颜色端均摊,即 ODT,每次推平最多增加 O ( 1 ) mathcal O(1) O(1) 个区间,每个区间删除 O ( 1 ) mathcal O(1) O(1) 次,时间复杂度均摊正确。
综上,ODT 维护颜色的出现区间,线段树维护答案。
时间复杂度 O ( n ) mathcal O(n) O(n)。
#include <bits/stdc++.h> using namespace std; typedef long long ll; #define he putchar( ) #define ha putchar( ) namespace Fread { const int SIZE = 1 << 23; char buf[SIZE], *S, *T; inline char getchar() { if (S == T) { T = (S = buf) + fread(buf, 1, SIZE, stdin); if (S == T) return ; } return *S++; } } namespace Fwrite { const int SIZE = 1 << 23; char buf[SIZE], *S = buf, *T = buf + SIZE; inline void flush() { fwrite(buf, 1, S - buf, stdout); S = buf; } inline void putchar(char c) { *S++ = c; if (S == T) flush(); } struct NTR { ~NTR() { flush(); } } ztr; } #ifdef ONLINE_JUDGE #define getchar Fread::getchar #define putchar Fwrite::putchar #endif inline int read() { int x = 0; char c = getchar(); while(c < 0 || c > 9) c = getchar(); while(c >= 0 && c <= 9) { x = (x << 3) + (x << 1) + (c ^ 48); c = getchar(); } return x; } inline void write(int x) { if(x < 0) { putchar(-); x = -x; } if(x > 9) write(x / 10); putchar(x % 10 + 48); } const ll _ = 2e5 + 1, mod = 998244353; int n, q; int tr[_ << 2], t1[_ << 2], t2[_ << 2]; void build(int o, int l, int r) { if(l == r) return; int mid = (l + r) >> 1; t1[o] = 0, t2[o] = 1; build(o << 1, l, mid), build(o << 1 | 1, mid + 1, r); } void push1(int o, int l, int r, ll v) { if(!v) return; t1[o] = (t1[o] + v) % mod; tr[o] = (tr[o] + 1ll * (r - l + 1) * v) % mod; } void push2(int o, ll v) { if(v == 1) return; t1[o] = 1ll * t1[o] * v % mod; t2[o] = 1ll * t2[o] * v % mod; tr[o] = 1ll * tr[o] * v % mod; } void pushdown(int o, int l, int r) { int mid = (l + r) >> 1; push2(o << 1, t2[o]), push2(o << 1 | 1, t2[o]), t2[o] = 1; push1(o << 1, l, mid, t1[o]), push1(o << 1 | 1, mid + 1, r, t1[o]), t1[o] = 0; } void upd(int o, int l, int r, int L, int R, int v, int id) { if(L <= l && r <= R) { if(id == 1) push1(o, l, r, v); else push2(o, v); return; } pushdown(o, l, r); int mid = (l + r) >> 1; if(L <= mid) upd(o << 1, l, mid, L, R, v, id); if(R > mid) upd(o << 1 | 1, mid + 1, r, L, R, v, id); tr[o] = (tr[o << 1] + tr[o << 1 | 1]) % mod; } int qry(int o, int l, int r, int L, int R) { if(L <= l && r <= R) return tr[o]; pushdown(o, l, r); int mid = (l + r) >> 1, res = 0; if(L <= mid) res = qry(o << 1, l, mid, L, R); if(R > mid) res = (res + qry(o << 1 | 1, mid + 1, r, L, R)) % mod; return res % mod; } struct Odt { #define It set<odt>::iterator struct odt { int l, r, v; odt(int L = 0, int R = 0, int V = 0) { l = L, r = R, v = V; } friend bool operator < (const odt &a, const odt &b) { return a.l < b.l; } }; set<odt> s; void init() { s.insert(odt(1, n, 0)); } It split(int x) { It it = s.lower_bound(odt(x, 0, 0)); if(it != s.end() && it -> l == x) return it; --it; int L = it -> l, R = it -> r, V = it -> v; s.erase(it), s.insert(odt(L, x - 1, V)); return s.insert(odt(x, R, V)).first; } void assign(int l, int r) { It itr = split(r + 1), itl = split(l); for(It it = itl; it != itr; ++it) if(!(it -> v)) upd(1, 1, n, it -> l, it -> r, 1, 1); else upd(1, 1, n, it -> l, it -> r, 2, 0); s.erase(itl, itr), s.insert(odt(l, r, 1)); } } t[_]; signed main() { n = read(), q = read(); build(1, 1, n); for(int i = 1; i <= n; ++i) t[i].init(); int opt, l, r, x; while(q--) { opt = read(), l = read(), r = read(); if(opt == 1) x = read(), t[x].assign(l, r); else write(qry(1, 1, n, l, r)), he; } return 0; }
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