QOJ.ac
QOJ
ID | 题目 | 提交者 | 结果 | 用时 | 内存 | 语言 | 文件大小 | 提交时间 | 测评时间 |
---|---|---|---|---|---|---|---|---|---|
#260397 | #7839. 虹 | hos_lyric# | 50 | 1698ms | 27416kb | C++14 | 21.3kb | 2023-11-22 07:24:47 | 2024-07-04 03:08:12 |
Judging History
answer
#include <cassert>
#include <cmath>
#include <cstdint>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <algorithm>
#include <bitset>
#include <complex>
#include <deque>
#include <functional>
#include <iostream>
#include <limits>
#include <map>
#include <numeric>
#include <queue>
#include <random>
#include <set>
#include <sstream>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include <vector>
using namespace std;
using Int = long long;
template <class T1, class T2> ostream &operator<<(ostream &os, const pair<T1, T2> &a) { return os << "(" << a.first << ", " << a.second << ")"; };
template <class T> ostream &operator<<(ostream &os, const vector<T> &as) { const int sz = as.size(); os << "["; for (int i = 0; i < sz; ++i) { if (i >= 256) { os << ", ..."; break; } if (i > 0) { os << ", "; } os << as[i]; } return os << "]"; }
template <class T> void pv(T a, T b) { for (T i = a; i != b; ++i) cerr << *i << " "; cerr << endl; }
template <class T> bool chmin(T &t, const T &f) { if (t > f) { t = f; return true; } return false; }
template <class T> bool chmax(T &t, const T &f) { if (t < f) { t = f; return true; } return false; }
#define COLOR(s) ("\x1b[" s "m")
////////////////////////////////////////////////////////////////////////////////
template <unsigned M_> struct ModInt {
static constexpr unsigned M = M_;
unsigned x;
constexpr ModInt() : x(0U) {}
constexpr ModInt(unsigned x_) : x(x_ % M) {}
constexpr ModInt(unsigned long long x_) : x(x_ % M) {}
constexpr ModInt(int x_) : x(((x_ %= static_cast<int>(M)) < 0) ? (x_ + static_cast<int>(M)) : x_) {}
constexpr ModInt(long long x_) : x(((x_ %= static_cast<long long>(M)) < 0) ? (x_ + static_cast<long long>(M)) : x_) {}
ModInt &operator+=(const ModInt &a) { x = ((x += a.x) >= M) ? (x - M) : x; return *this; }
ModInt &operator-=(const ModInt &a) { x = ((x -= a.x) >= M) ? (x + M) : x; return *this; }
ModInt &operator*=(const ModInt &a) { x = (static_cast<unsigned long long>(x) * a.x) % M; return *this; }
ModInt &operator/=(const ModInt &a) { return (*this *= a.inv()); }
ModInt pow(long long e) const {
if (e < 0) return inv().pow(-e);
ModInt a = *this, b = 1U; for (; e; e >>= 1) { if (e & 1) b *= a; a *= a; } return b;
}
ModInt inv() const {
unsigned a = M, b = x; int y = 0, z = 1;
for (; b; ) { const unsigned q = a / b; const unsigned c = a - q * b; a = b; b = c; const int w = y - static_cast<int>(q) * z; y = z; z = w; }
assert(a == 1U); return ModInt(y);
}
ModInt operator+() const { return *this; }
ModInt operator-() const { ModInt a; a.x = x ? (M - x) : 0U; return a; }
ModInt operator+(const ModInt &a) const { return (ModInt(*this) += a); }
ModInt operator-(const ModInt &a) const { return (ModInt(*this) -= a); }
ModInt operator*(const ModInt &a) const { return (ModInt(*this) *= a); }
ModInt operator/(const ModInt &a) const { return (ModInt(*this) /= a); }
template <class T> friend ModInt operator+(T a, const ModInt &b) { return (ModInt(a) += b); }
template <class T> friend ModInt operator-(T a, const ModInt &b) { return (ModInt(a) -= b); }
template <class T> friend ModInt operator*(T a, const ModInt &b) { return (ModInt(a) *= b); }
template <class T> friend ModInt operator/(T a, const ModInt &b) { return (ModInt(a) /= b); }
explicit operator bool() const { return x; }
bool operator==(const ModInt &a) const { return (x == a.x); }
bool operator!=(const ModInt &a) const { return (x != a.x); }
friend std::ostream &operator<<(std::ostream &os, const ModInt &a) { return os << a.x; }
};
////////////////////////////////////////////////////////////////////////////////
constexpr unsigned MO = 20242024;
using Mint = ModInt<MO>;
struct Hld {
int n, rt;
// needs to be tree
// vertex lists
// modified in build(rt) (parent removed, heavy child first)
vector<vector<int>> graph;
vector<int> sz, par, dep;
int zeit;
vector<int> dis, fin, sid;
// head vertex (minimum depth) in heavy path
vector<int> head;
Hld() : n(0), rt(-1), zeit(0) {}
explicit Hld(int n_) : n(n_), rt(-1), graph(n), zeit(0) {}
void ae(int u, int v) {
assert(0 <= u); assert(u < n);
assert(0 <= v); assert(v < n);
graph[u].push_back(v);
graph[v].push_back(u);
}
void dfsSz(int u) {
sz[u] = 1;
for (const int v : graph[u]) {
auto it = std::find(graph[v].begin(), graph[v].end(), u);
if (it != graph[v].end()) graph[v].erase(it);
par[v] = u;
dep[v] = dep[u] + 1;
dfsSz(v);
sz[u] += sz[v];
}
}
void dfsHld(int u) {
dis[u] = zeit++;
const int deg = graph[u].size();
if (deg > 0) {
int vm = graph[u][0];
int jm = 0;
for (int j = 1; j < deg; ++j) {
const int v = graph[u][j];
if (sz[vm] < sz[v]) {
vm = v;
jm = j;
}
}
swap(graph[u][0], graph[u][jm]);
head[vm] = head[u];
dfsHld(vm);
for (int j = 1; j < deg; ++j) {
const int v = graph[u][j];
head[v] = v;
dfsHld(v);
}
}
fin[u] = zeit;
}
void build(int rt_) {
assert(0 <= rt_); assert(rt_ < n);
rt = rt_;
sz.assign(n, 0);
par.assign(n, -1);
dep.assign(n, -1);
dep[rt] = 0;
dfsSz(rt);
zeit = 0;
dis.assign(n, -1);
fin.assign(n, -1);
head.assign(n, -1);
head[rt] = rt;
dfsHld(rt);
assert(zeit == n);
sid.assign(n, -1);
for (int u = 0; u < n; ++u) sid[dis[u]] = u;
}
friend ostream &operator<<(ostream &os, const Hld &hld) {
const int maxDep = *max_element(hld.dep.begin(), hld.dep.end());
vector<string> ss(2 * maxDep + 1);
int pos = 0, maxPos = 0;
for (int j = 0; j < hld.n; ++j) {
const int u = hld.sid[j];
const int d = hld.dep[u];
if (hld.head[u] == u) {
if (j != 0) {
pos = maxPos + 1;
ss[2 * d - 1].resize(pos, '-');
ss[2 * d - 1] += '+';
}
} else {
ss[2 * d - 1].resize(pos, ' ');
ss[2 * d - 1] += '|';
}
ss[2 * d].resize(pos, ' ');
ss[2 * d] += std::to_string(u);
if (maxPos < static_cast<int>(ss[2 * d].size())) {
maxPos = ss[2 * d].size();
}
}
for (int d = 0; d <= 2 * maxDep; ++d) os << ss[d] << '\n';
return os;
}
bool contains(int u, int v) const {
return (dis[u] <= dis[v] && dis[v] < fin[u]);
}
int lca(int u, int v) const {
assert(0 <= u); assert(u < n);
assert(0 <= v); assert(v < n);
for (; head[u] != head[v]; ) (dis[u] > dis[v]) ? (u = par[head[u]]) : (v = par[head[v]]);
return (dis[u] > dis[v]) ? v : u;
}
int jumpUp(int u, int d) const {
assert(0 <= u); assert(u < n);
assert(d >= 0);
if (dep[u] < d) return -1;
const int tar = dep[u] - d;
for (u = head[u]; ; u = head[par[u]]) {
if (dep[u] <= tar) return sid[dis[u] + (tar - dep[u])];
}
}
int jump(int u, int v, int d) const {
assert(0 <= u); assert(u < n);
assert(0 <= v); assert(v < n);
assert(d >= 0);
const int l = lca(u, v);
const int du = dep[u] - dep[l], dv = dep[v] - dep[l];
if (d <= du) {
return jumpUp(u, d);
} else if (d <= du + dv) {
return jumpUp(v, du + dv - d);
} else {
return -1;
}
}
// [u, v) or [u, v]
template <class F> void doPathUp(int u, int v, bool inclusive, F f) const {
assert(contains(v, u));
for (; head[u] != head[v]; u = par[head[u]]) f(dis[head[u]], dis[u] + 1);
if (inclusive) {
f(dis[v], dis[u] + 1);
} else {
if (v != u) f(dis[v] + 1, dis[u] + 1);
}
}
// not path order, include lca(u, v) or not
template <class F> void doPath(int u, int v, bool inclusive, F f) const {
const int l = lca(u, v);
doPathUp(u, l, false, f);
doPathUp(v, l, inclusive, f);
}
// (vs, ps): compressed tree
// vs: DFS order (sorted by dis)
// vs[ps[x]]: the parent of vs[x]
// ids[vs[x]] = x, not set for non-tree vertex
vector<int> ids;
pair<vector<int>, vector<int>> compress(vector<int> us) {
// O(n) first time
ids.resize(n, -1);
std::sort(us.begin(), us.end(), [&](int u, int v) -> bool {
return (dis[u] < dis[v]);
});
us.erase(std::unique(us.begin(), us.end()), us.end());
int usLen = us.size();
assert(usLen >= 1);
for (int x = 1; x < usLen; ++x) us.push_back(lca(us[x - 1], us[x]));
std::sort(us.begin(), us.end(), [&](int u, int v) -> bool {
return (dis[u] < dis[v]);
});
us.erase(std::unique(us.begin(), us.end()), us.end());
usLen = us.size();
for (int x = 0; x < usLen; ++x) ids[us[x]] = x;
vector<int> ps(usLen, -1);
for (int x = 1; x < usLen; ++x) ps[x] = ids[lca(us[x - 1], us[x])];
return make_pair(us, ps);
}
};
////////////////////////////////////////////////////////////////////////////////
// [0, n), 0 <= n <= 2^(6D)
template <int D> struct Set {
int n;
vector<unsigned long long> a[D];
explicit Set(int n_ = 0) : n(n_) {
static_assert(1 <= D && D <= 6, "Set: 1 <= D <= 6 must hold");
assert(0 <= n); assert(n <= 1LL << (6 * D));
int m = n ? n : 1;
for (int d = 0; d < D; ++d) {
m = (m + 63) >> 6;
a[d].assign(m, 0);
}
}
bool empty() const {
return !a[D - 1][0];
}
bool contains(int x) const {
return (a[0][x >> 6] >> (x & 63)) & 1;
}
void insert(int x) {
for (int d = 0; d < D; ++d) {
const int q = x >> 6, r = x & 63;
a[d][q] |= 1ULL << r;
x = q;
}
}
void erase(int x) {
for (int d = 0; d < D; ++d) {
const int q = x >> 6, r = x & 63;
if ((a[d][q] &= ~(1ULL << r))) break;
x = q;
}
}
// min s.t. >= x
int next(int x) const {
for (int d = 0; d < D; ++d) {
const int q = x >> 6, r = x & 63;
if (static_cast<unsigned>(q) >= a[d].size()) break;
const unsigned long long upper = a[d][q] >> r;
if (upper) {
x += __builtin_ctzll(upper);
for (int e = d - 1; e >= 0; --e) x = x << 6 | __builtin_ctzll(a[e][x]);
return x;
}
x = q + 1;
}
return n;
}
// max s.t. <= x
int prev(int x) const {
for (int d = 0; d < D; ++d) {
if (x < 0) break;
const int q = x >> 6, r = x & 63;
const unsigned long long lower = a[d][q] << (63 - r);
if (lower) {
x -= __builtin_clzll(lower);
for (int e = d - 1; e >= 0; --e) x = x << 6 | (63 - __builtin_clzll(a[e][x]));
return x;
}
x = q - 1;
}
return -1;
}
};
////////////////////////////////////////////////////////////////////////////////
// T: monoid representing information of an interval.
// T() should return the identity.
// T(S s) should represent a single element of the array.
// T::push(T &l, T &r) should push the lazy update.
// T::pull(const T &l, const T &r) should pull two intervals.
template <class T> struct SegmentTreeRange {
int logN, n;
vector<T> ts;
SegmentTreeRange() : logN(0), n(0) {}
explicit SegmentTreeRange(int n_) {
for (logN = 0, n = 1; n < n_; ++logN, n <<= 1) {}
ts.resize(n << 1);
}
template <class S> explicit SegmentTreeRange(const vector<S> &ss) {
const int n_ = ss.size();
for (logN = 0, n = 1; n < n_; ++logN, n <<= 1) {}
ts.resize(n << 1);
for (int i = 0; i < n_; ++i) at(i) = T(ss[i]);
build();
}
T &at(int i) {
return ts[n + i];
}
void build() {
for (int u = n; --u; ) pull(u);
}
inline void push(int u) {
ts[u].push(ts[u << 1], ts[u << 1 | 1]);
}
inline void pull(int u) {
ts[u].pull(ts[u << 1], ts[u << 1 | 1]);
}
// Applies T::f(args...) to [a, b).
template <class F, class... Args>
void ch(int a, int b, F f, Args &&... args) {
assert(0 <= a); assert(a <= b); assert(b <= n);
if (a == b) return;
a += n; b += n;
for (int h = logN; h; --h) {
const int aa = a >> h, bb = b >> h;
if (aa == bb) {
if ((aa << h) != a || (bb << h) != b) push(aa);
} else {
if ((aa << h) != a) push(aa);
if ((bb << h) != b) push(bb);
}
}
for (int aa = a, bb = b; aa < bb; aa >>= 1, bb >>= 1) {
if (aa & 1) (ts[aa++].*f)(args...);
if (bb & 1) (ts[--bb].*f)(args...);
}
for (int h = 1; h <= logN; ++h) {
const int aa = a >> h, bb = b >> h;
if (aa == bb) {
if ((aa << h) != a || (bb << h) != b) pull(aa);
} else {
if ((aa << h) != a) pull(aa);
if ((bb << h) != b) pull(bb);
}
}
}
// Calculates the product for [a, b).
T get(int a, int b) {
assert(0 <= a); assert(a <= b); assert(b <= n);
if (a == b) return T();
a += n; b += n;
for (int h = logN; h; --h) {
const int aa = a >> h, bb = b >> h;
if (aa == bb) {
if ((aa << h) != a || (bb << h) != b) push(aa);
} else {
if ((aa << h) != a) push(aa);
if ((bb << h) != b) push(bb);
}
}
T prodL, prodR, t;
for (int aa = a, bb = b; aa < bb; aa >>= 1, bb >>= 1) {
if (aa & 1) { t.pull(prodL, ts[aa++]); prodL = t; }
if (bb & 1) { t.pull(ts[--bb], prodR); prodR = t; }
}
t.pull(prodL, prodR);
return t;
}
// Calculates T::f(args...) of a monoid type for [a, b).
// op(-, -) should calculate the product.
// e() should return the identity.
template <class Op, class E, class F, class... Args>
#if __cplusplus >= 201402L
auto
#else
decltype((std::declval<T>().*F())())
#endif
get(int a, int b, Op op, E e, F f, Args &&... args) {
assert(0 <= a); assert(a <= b); assert(b <= n);
if (a == b) return e();
a += n; b += n;
for (int h = logN; h; --h) {
const int aa = a >> h, bb = b >> h;
if (aa == bb) {
if ((aa << h) != a || (bb << h) != b) push(aa);
} else {
if ((aa << h) != a) push(aa);
if ((bb << h) != b) push(bb);
}
}
auto prodL = e(), prodR = e();
for (int aa = a, bb = b; aa < bb; aa >>= 1, bb >>= 1) {
if (aa & 1) prodL = op(prodL, (ts[aa++].*f)(args...));
if (bb & 1) prodR = op((ts[--bb].*f)(args...), prodR);
}
return op(prodL, prodR);
}
// Find min b s.t. T::f(args...) returns true,
// when called for the partition of [a, b) from left to right.
// Returns n + 1 if there is no such b.
template <class F, class... Args>
int findRight(int a, F f, Args &&... args) {
assert(0 <= a); assert(a <= n);
if ((T().*f)(args...)) return a;
if (a == n) return n + 1;
a += n;
for (int h = logN; h; --h) push(a >> h);
for (; ; a >>= 1) if (a & 1) {
if ((ts[a].*f)(args...)) {
for (; a < n; ) {
push(a);
if (!(ts[a <<= 1].*f)(args...)) ++a;
}
return a - n + 1;
}
++a;
if (!(a & (a - 1))) return n + 1;
}
}
// Find max a s.t. T::f(args...) returns true,
// when called for the partition of [a, b) from right to left.
// Returns -1 if there is no such a.
template <class F, class... Args>
int findLeft(int b, F f, Args &&... args) {
assert(0 <= b); assert(b <= n);
if ((T().*f)(args...)) return b;
if (b == 0) return -1;
b += n;
for (int h = logN; h; --h) push((b - 1) >> h);
for (; ; b >>= 1) if ((b & 1) || b == 2) {
if ((ts[b - 1].*f)(args...)) {
for (; b <= n; ) {
push(b - 1);
if (!(ts[(b <<= 1) - 1].*f)(args...)) --b;
}
return b - n - 1;
}
--b;
if (!(b & (b - 1))) return -1;
}
}
};
////////////////////////////////////////////////////////////////////////////////
constexpr Mint S = 19901991;
int N, Q;
vector<int> Z, ZZ;
vector<int> A, B;
vector<int> O, L, R, T;
Hld hld;
namespace brute {
vector<Mint> run() {
cerr<<"[brute::run]"<<endl;
vector<Mint> anss;
vector<int> ws(N, 0);
for (int q = 0; q < Q; ++q) {
if (O[q] == 1) {
vector<int> dp(N, 0);
for (int u = L[q]; u < R[q]; ++u) {
dp[u] = 1;
}
for (int j = N; --j >= 0; ) {
const int u = hld.sid[j];
if (dp[u]) {
++ws[u];
}
if (dp[u] == R[q] - L[q]) {
break;
}
dp[hld.par[u]] += dp[u];
}
} else {
// cerr<<"ws = "<<ws<<endl;
Mint ans = 0;
for (int u = L[q]; u < R[q]; ++u) {
ans += S.pow((Int)Z[__gcd(u + 1, T[q])] * ws[u]);
}
anss.push_back(ans);
}
}
return anss;
}
} // brute
namespace subA {
struct Query {
int l, r;
};
// (x, y) -> (x + a y + b, y + c)
struct Node {
int a, b, c;
Node() : a(0), b(0), c(0) {}
void push(Node &l, Node &r) {
if (a || b || c) {
l.apply(a, b, c);
r.apply(a, b, c);
a = b = c = 0;
}
}
void pull(const Node &, const Node &) {
//
}
void apply(Int aa, Int bb, Int cc) {
a += aa;
b += aa * c + bb;
c += cc;
}
};
Set<3> on;
SegmentTreeRange<Node> seg;
vector<int> ws;
void init() {
on = Set<3>(N);
seg = SegmentTreeRange<Node>(N);
ws.assign(N, 0);
}
int calc(int u, int l, int r) {
int ret = 0;
for (const int j : {l, r}) if (0 <= j && j < N) {
const int res = hld.lca(u, hld.sid[j]);
if (hld.dis[ret] < hld.dis[res]) {
ret = res;
}
}
return ret;
}
void add(int u) {
const int j = hld.dis[u];
const int l = on.prev(j);
const int r = on.next(j);
on.insert(j);
const int v = calc(u, l, r);
// cerr<<COLOR("91")<<"[add] "<<u<<" "<<v<<COLOR()<<endl;
hld.doPathUp(u, v, false, [&](int jL, int jR) -> void {
seg.ch(jL, jR, &Node::apply, 0, 0, +1);
});
}
void rem(int u) {
const int j = hld.dis[u];
on.erase(j);
const int l = on.prev(j);
const int r = on.next(j);
const int v = calc(u, l, r);
// cerr<<COLOR("94")<<"[rem] "<<u<<" "<<v<<COLOR()<<endl;
hld.doPathUp(u, v, false, [&](int jL, int jR) -> void {
seg.ch(jL, jR, &Node::apply, 0, 0, -1);
});
}
void go() {
assert(!on.empty());
const int l = on.next(0);
const int r = on.prev(N - 1);
const int v = hld.lca(hld.sid[l], hld.sid[r]);
// cerr<<COLOR("93")<<"[go] "<<v<<COLOR()<<endl;
hld.doPathUp(v, 0, false, [&](int jL, int jR) -> void {
seg.ch(jL, jR, &Node::apply, 0, 0, -1);
});
++ws[v];
seg.ch(0, N, &Node::apply, +1, 0, 0);
hld.doPathUp(v, 0, false, [&](int jL, int jR) -> void {
seg.ch(jL, jR, &Node::apply, 0, 0, +1);
});
}
vector<Mint> run() {
cerr<<"[subA::run]"<<endl;
vector<Query> qrs;
for (int q = 0; q < Q; ++q) if (O[q] == 1) {
qrs.emplace_back(Query{L[q], R[q]});
}
const int sz = max<int>(N / max<int>(sqrt(qrs.size()), 1), 1);
sort(qrs.begin(), qrs.end(), [&](const Query &qra, const Query &qrb) -> bool {
const int xa = qra.l / sz;
const int xb = qrb.l / sz;
return ((xa != xb) ? (xa < xb) : (xa & 1) ? (qra.r > qrb.r) : (qra.r < qrb.r));
});
init();
int l = 0, r = 0;
for (const auto &qr : qrs) {
for (; l > qr.l; ) add(--l);
for (; r < qr.r; ) add(r++);
for (; l < qr.l; ) rem(l++);
for (; r > qr.r; ) rem(--r);
go();
}
for (int j = 1; j < seg.n; ++j) {
seg.push(j);
}
for (int u = 0; u < N; ++u) {
ws[u] += seg.at(hld.dis[u]).b;
}
// cerr<<"ws = "<<ws<<endl;
vector<vector<int>> dss(N + 1);
vector<vector<int>> fss(N + 1);
for (int d = 1; d <= N; ++d) {
const int len = N / d;
fss[d].assign(len + 1, 0);
for (int e = 1; e <= len; ++e) {
const int u = d * e;
dss[u].push_back(d);
fss[d][e] = fss[d][e - 1] + (ws[u - 1] & 1);
}
}
vector<Mint> anss;
for (int q = 0; q < Q; ++q) if (O[q] == 2) {
int sum = 0;
for (const int d : dss[T[q]]) {
sum += ZZ[d] * (fss[d][R[q] / d] - fss[d][L[q] / d]);
}
Mint ans = R[q] - L[q];
ans += Mint(sum) * Mint(S - 1);
anss.push_back(ans);
}
return anss;
}
} // subA
int main() {
assert(S * S == 1);
for (; ~scanf("%d%d", &N, &Q); ) {
Z.assign(N + 1, 0);
for (int x = 1; x <= N; ++x) {
scanf("%d", &Z[x]);
Z[x] &= 1;
}
A.resize(N - 1);
B.resize(N - 1);
for (int i = 0; i < N - 1; ++i) {
scanf("%d%d", &A[i], &B[i]);
--A[i];
--B[i];
}
O.resize(Q);
L.resize(Q);
R.resize(Q);
T.assign(Q, 0);
for (int q = 0; q < Q; ++q) {
scanf("%d%d%d", &O[q], &L[q], &R[q]);
--L[q];
if (O[q] == 2) {
scanf("%d", &T[q]);
}
}
hld = Hld(N);
for (int i = 0; i < N - 1; ++i) {
hld.ae(A[i], B[i]);
}
hld.build(0);
// cerr<<hld<<endl;
// Z * moe
ZZ = Z;
for (int d = 1; d <= N; ++d) {
for (int x = 2 * d; x <= N; x += d) {
ZZ[x] -= ZZ[d];
}
}
// cerr<<"ZZ = "<<ZZ<<endl;
bool speA = true;
for (int q = 0; q < Q - 1; ++q) {
speA = speA && (O[q] <= O[q + 1]);
}
vector<Mint> anss;
if (speA) {
anss = subA::run();
} else {
anss = brute::run();
}
for (const Mint ans : anss) {
printf("%u\n", ans.x);
}
#ifdef LOCAL
const auto brt=brute::run();
if(brt!=anss){
cerr<<"brt = "<<brt<<endl;
cerr<<"anss = "<<anss<<endl;
}
assert(brt==anss);
#endif
}
return 0;
}
详细
Subtask #1:
score: 10
Accepted
Test #1:
score: 10
Accepted
time: 11ms
memory: 4172kb
input:
998 1000 955556485 952505211 899166521 258704448 894183248 636280051 62949347 983956660 113872828 588367167 208142006 665025449 944228063 284736189 169202015 56096447 404419923 30158095 111191865 717455344 790159420 391379127 208279658 426780799 886604643 940903663 618716147 773652834 385881251 1593...
output:
16521790 13341944 16841705 2220375 880451 3621051 12662029 6300750 3240463 2400556 6501168 3580517 9221391 8381420 12982211 8001004 9361122 17262479 3600913 10401408 16202143 15022309 16341874 7861442 1560390 8340899 12421304 13961591 10421679 12101636 17361912 11781615 4780673 13641787 20102392 171...
result:
ok 490 lines
Test #2:
score: 0
Accepted
time: 12ms
memory: 4256kb
input:
1000 997 103470799 773962597 977631665 55926526 616833039 263471628 825848455 638144717 340710593 68036397 623497249 808915869 345157828 256095693 400262335 173843004 238983751 646376872 243739767 221162275 465477137 772061029 840064611 274062983 522264159 689460088 20129595 287189331 622217799 6948...
output:
13621441 17282360 11241382 15841876 17222347 1880319 12441746 10381083 18222171 7341024 10081427 2900456 2900406 13801602 17521768 19901997 8521022 13281468 2400503 17201967 19942477 14461494 19742168 14461471 12121799 2600806 18902095 1941004 19901993 10221200 8901579 9201080 19442423 720422 130019...
result:
ok 527 lines
Test #3:
score: 0
Accepted
time: 10ms
memory: 4236kb
input:
1000 1000 1697351 841785432 606301324 899151762 398181773 419939453 419455373 826820357 965555426 240847697 718049384 378823565 364137136 867089279 445499605 934770217 134914678 642584637 766848023 203338778 153291975 240768524 446186401 462123008 408740063 755064293 274502953 646610365 27815415 164...
output:
368 198 7021295 16001721 18602311 8021119 17201976 1380573 13141934 3580444 14641604 16681966 3240524 16182225 7541265 8520964 6341385 18922654 17861873 13781440 11581327 14342249 3600640 6821000 16841702 860350 16501686 3420674 18881910 6161028 17022054 3920543 4600572 6300810 3761005 11401360 8181...
result:
ok 502 lines
Subtask #2:
score: 20
Accepted
Test #4:
score: 20
Accepted
time: 1649ms
memory: 26632kb
input:
65531 65535 968854923 932574892 192297572 866236747 654755663 148562561 273214896 947434573 938626677 992982166 219888853 229840279 676071061 383387319 372883953 729287797 601010887 31942080 990584163 823724544 181337075 918252129 896876911 768539961 357780649 890577681 819641335 320266037 55445939 ...
output:
2662122 12263904 9988949 9098885 10661570 169420 12206075 11189204 12737561 19687277 3177635 12864425 16522132 8890301 19817862 19631288 14433359 4841805 15087340 13737927
result:
ok 20 lines
Test #5:
score: 0
Accepted
time: 1689ms
memory: 27084kb
input:
65534 65536 820462503 674023407 678774031 936839760 967886021 931679487 453790312 457688550 70497701 344893727 154301715 507005683 73026386 390834155 323019588 839428562 139619227 778200763 402648418 434214668 203135761 709945633 736891475 834231887 757898689 714927300 773615727 495008913 178272181 ...
output:
3556992 16638524 17773272 4500556 15023833 15616791 16530231 2941967 3166188 12186952 18098140 476862 4445062 9237154 8863687 143980 14070479 6047549 7425512
result:
ok 19 lines
Test #6:
score: 0
Accepted
time: 1698ms
memory: 26880kb
input:
65536 65536 405634173 17394581 118925347 922474073 743773645 237837181 499268357 244246848 939786401 792695975 628358275 678027475 348815741 419958879 726832416 24340945 901834373 56505761 405488783 771756785 890119785 252669240 492790889 529308875 31501425 546890993 105451499 269507525 583855527 42...
output:
14813680 12244780 5372831 129044 15936400 19557428 17514428 4965101 11035792 17705809 19062063 9585446 1382379 17154907 17605748 17161957 6292833 16315460 11100885 4587223
result:
ok 20 lines
Subtask #3:
score: 20
Accepted
Dependency #2:
100%
Accepted
Test #7:
score: 20
Accepted
time: 983ms
memory: 27024kb
input:
65536 65533 30932122 78382923 537901462 43608430 743690928 918369886 474585919 91526068 574096807 937639556 275209310 841686338 356806157 792932071 603518094 832348491 468678335 713509816 101484129 852321989 436384847 445099357 227895189 501297162 399636691 271485365 207312863 509602081 865283531 19...
output:
1496564 9125549 16577986 6310026 1063976 16707 52957 14908581 14790251 14722135 13755277 11137460 5968935 8549164 18541922 24957 1930126 16330833 14364850 2239625 10619499 16538 6589616 2426893 19692596 19164930 15643210 18580925 12236638 6881655 2537792 9181 5316249 16956425 5578816 5938013 7323269...
result:
ok 45533 lines
Test #8:
score: 0
Accepted
time: 1311ms
memory: 26764kb
input:
65536 65535 896327463 680912869 425088586 463001926 222746654 139797223 797862825 191243957 970951057 833986727 442405892 825555128 314556958 914737211 212060430 912767901 453296903 873665049 564716803 471005323 213780115 573452539 543739081 881018559 902197811 297810647 51022403 757374500 594296052...
output:
3765898 7160189 1840871 8384498 12162436 17733710 213192 867756 9465798 5355255 9688576 14003307 3802366 3494697 2813852 18250238 14202178 3534428 4309535 12426295 20119652 19552024 19554541 276659 9217790 4968412 4966695 8795674 14327484 5321111 5143428 4804826 14976742 1065939 6768277 11126616 392...
result:
ok 25535 lines
Test #9:
score: 0
Accepted
time: 693ms
memory: 27416kb
input:
65536 65536 273612167 315772190 71207511 736212317 523695534 424195293 720590001 84825693 594307129 913990193 946510345 222887460 962253802 124933747 293256949 752514778 915822505 86321273 339054171 563974341 489916343 956984316 111089551 70521376 292460752 45000461 214783067 288398507 49055118 1032...
output:
8409099 627948 11730380 8939261 10928253 17059110 6990391 13342784 4902327 5950655 16232329 8204509 19093841 4451012 18709415 3229726 10846229 5082475 17190005 14833410 5282247 2331065 10279617 4557434 7700054 8071957 10999644 1165013 95904 113129 12805875 15919700 10967571 3128343 12049502 18201862...
result:
ok 55536 lines
Subtask #4:
score: 0
Time Limit Exceeded
Dependency #1:
100%
Accepted
Dependency #2:
100%
Accepted
Dependency #3:
100%
Accepted
Test #10:
score: 0
Time Limit Exceeded
input:
65536 65536 690710135 657115917 211163039 197295969 367013816 156855111 797052165 886430858 508869157 17134147 61796741 347521885 250213399 668920827 220381843 208336869 792057463 245539955 861408575 952059033 360332858 249610287 456737865 567698963 120715589 263131517 574343202 122801665 999840299 ...
output:
result:
Subtask #5:
score: 0
Skipped
Dependency #1:
100%
Accepted
Dependency #2:
100%
Accepted
Dependency #3:
100%
Accepted
Dependency #4:
0%