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AcWing/2476/2476.cpp Normal file
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#include <iostream>
#include <chrono>
#include <limits>
#include <random>
using std::cin;
using std::cout;
const char endl = '\n';
const int N = 5e4 + 5;
class Treap {
private:
struct node {
node *lchild, *rchild;
int size, value, key;
node()
: lchild(nullptr), rchild(nullptr), size(0), value(0), key(rand()) {}
node(int _value)
: lchild(nullptr), rchild(nullptr), size(1), value(_value), key(rand()) {}
~node() {
delete lchild;
delete rchild;
}
inline void pushup() {
size = 1;
if (lchild != nullptr) size += lchild->size;
if (rchild != nullptr) size += rchild->size;
}
} * root;
inline int getNodeSize(node *node) {
return node == nullptr ? 0 : node->size;
}
std::pair<node *, node *> split(node *p, int k) {
if (p == nullptr) return std::make_pair(nullptr, nullptr);
if (k <= getNodeSize(p->lchild)) {
auto o = split(p->lchild, k);
p->lchild = o.second;
p->pushup();
o.second = p;
return o;
}
auto o = split(p->rchild, k - getNodeSize(p->lchild) - 1);
p->rchild = o.first;
p->pushup();
o.first = p;
return o;
}
std::pair<node *, node *> splitByValue(node *p, int value) {
if (p == nullptr) return std::make_pair(nullptr, nullptr);
if (p->value < value) {
auto o = splitByValue(p->rchild, value);
p->rchild = o.first;
p->pushup();
o.first = p;
return o;
}
auto o = splitByValue(p->lchild, value);
p->lchild = o.second;
p->pushup();
o.second = p;
return o;
}
node *merge(node *x, node *y) {
if (x == nullptr) return y;
if (y == nullptr) return x;
if (x->key > y->key) {
x->rchild = merge(x->rchild, y);
x->pushup();
return x;
}
y->lchild = merge(x, y->lchild);
y->pushup();
return y;
}
public:
Treap()
: root(nullptr) {}
~Treap() {
delete root;
}
inline void insert(int value) {
auto o = splitByValue(root, value);
o.first = merge(o.first, new node(value));
root = merge(o.first, o.second);
}
inline void erase(int value) {
auto o = splitByValue(root, value);
auto t = split(o.second, 1);
if (t.first->value == value) {
delete t.first;
}
root = merge(o.first, t.second);
}
inline int rank(int value) {
auto x = splitByValue(root, value);
int r = getNodeSize(x.first) + 1;
root = merge(x.first, x.second);
return r;
}
inline int kth(int k) {
auto x = split(root, k - 1);
auto y = split(x.second, 1);
Treap::node *o = y.first;
root = merge(x.first, merge(y.first, y.second));
return o == nullptr ? 0 : o->value;
}
inline int pre(int x) {
int k = rank(x) - 1;
return k > 0
? kth(k)
: std::numeric_limits<int>::min() + 1;
}
inline int suc(int x) {
int k = rank(x + 1);
return k > getNodeSize(root)
? std::numeric_limits<int>::max()
: kth(k);
}
};
struct node : Treap {
int l, r;
node *lchild, *rchild;
node()
: l(0), r(0), lchild(nullptr), rchild(nullptr) {}
node(const int &_l, const int &_r)
: l(_l), r(_r), lchild(nullptr), rchild(nullptr) {}
~node() {
if (lchild != nullptr) delete lchild;
if (rchild != nullptr) delete rchild;
}
} * root;
int n, m, a[N];
void build(node *&u, int l, int r) {
u = new node(l, r);
for (int i = l; i <= r; i++) {
u->insert(a[i]);
}
if (l == r) return;
int mid = (l + r) >> 1;
build(u->lchild, l, mid);
build(u->rchild, mid + 1, r);
}
int query_rank(node *u, int l, int r, int x) {
if (l <= u->l && u->r <= r) {
return u->rank(x) - 1;
}
int mid = (u->l + u->r) >> 1;
int res = 0;
if (l <= mid) res += query_rank(u->lchild, l, r, x);
if (r > mid) res += query_rank(u->rchild, l, r, x);
return res;
}
int query_kth(int _l, int _r, int k) {
int l = 0, r = 1e8, res = -1;
while (l <= r) {
int mid = (l + r + 1) >> 1;
if (query_rank(root, _l, _r, mid) + 1 <= k) {
l = mid + 1;
res = mid;
} else {
r = mid - 1;
}
}
return res;
}
void modify(node *u, int p, int x) {
u->erase(a[p]);
u->insert(x);
if (u->l == u->r) return;
int mid = (u->l + u->r) >> 1;
if (p <= mid) modify(u->lchild, p, x);
else modify(u->rchild, p, x);
}
int query_pre(node *u, int l, int r, int x) {
if (l <= u->l && u->r <= r) {
return u->pre(x);
}
int mid = (u->l + u->r) >> 1;
int res = std::numeric_limits<int>::min() + 1;
if (l <= mid) res = std::max(res, query_pre(u->lchild, l, r, x));
if (r > mid) res = std::max(res, query_pre(u->rchild, l, r, x));
return res;
}
int query_suc(node *u, int l, int r, int x) {
if (l <= u->l && u->r <= r) {
return u->suc(x);
}
int mid = (u->l + u->r) >> 1;
int res = std::numeric_limits<int>::max();
if (l <= mid) res = std::min(res, query_suc(u->lchild, l, r, x));
if (r > mid) res = std::min(res, query_suc(u->rchild, l, r, x));
return res;
}
int main() {
std::ios::sync_with_stdio(false);
cin.tie(nullptr);
cin >> n >> m;
for (int i = 1; i <= n; i++) {
cin >> a[i];
}
build(root, 1, n);
while (m--) {
int op;
cin >> op;
if (op == 1) {
int l, r, x;
cin >> l >> r >> x;
cout << query_rank(root, l, r, x) + 1 << endl;
} else if (op == 2) {
int l, r, k;
cin >> l >> r >> k;
cout << query_kth(l, r, k) << endl;
} else if (op == 3) {
int p, x;
cin >> p >> x;
modify(root, p, x);
a[p] = x;
} else if (op == 4) {
int l, r, x;
cin >> l >> r >> x;
cout << query_pre(root, l, r, x) << endl;
} else { // op == 5
int l, r, x;
cin >> l >> r >> x;
cout << query_suc(root, l, r, x) << endl;
}
}
delete root;
return 0;
}

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Luogu/CF869C/CF869C.cpp Normal file
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#include <iostream>
#include <array>
#include <type_traits>
using std::cin;
using std::cout;
const char endl = '\n';
const int N = 5005;
const int mod = 998244353;
template <int x>
using number = std::integral_constant<int, x>;
template <int n>
struct factorial : number<static_cast<long long>(n) * factorial<n - 1>::value % mod> {};
template <>
struct factorial<0> : number<1> {};
template <int... S>
constexpr std::array<int, sizeof...(S)> get_factorial_table_impl(std::integer_sequence<int, S...>) {
return {factorial<S>::value...};
}
template <int S>
constexpr auto get_factorial_table() {
return get_factorial_table_impl(std::make_integer_sequence<int, S>{});
}
template <int n>
struct inverse : number<static_cast<long long>(mod - (mod / n)) * inverse<mod % n>::value % mod> {};
template <>
struct inverse<1> : number<1> {};
template <>
struct inverse<0> : number<1> {};
template <int n>
struct factorial_inverse : number<static_cast<long long>(factorial_inverse<n - 1>::value) * inverse<n>::value % mod> {};
template <>
struct factorial_inverse<1> : number<1> {};
template <>
struct factorial_inverse<0> : number<1> {};
template <int... S>
constexpr std::array<int, sizeof...(S)> get_factorial_inverse_table_impl(std::integer_sequence<int, S...>) {
return {factorial_inverse<S>::value...};
}
template <int S>
constexpr auto get_factorial_inverse_table() {
return get_factorial_inverse_table_impl(std::make_integer_sequence<int, S>{});
}
int a, b, c, ab, ac, bc, ans;
constexpr auto fac = get_factorial_table<N>(),
fac_inv = get_factorial_inverse_table<N>();
inline int C(int n, int m) {
return static_cast<long long>(fac[n]) * fac_inv[m] % mod * fac_inv[n - m] % mod;
}
int main() {
std::ios::sync_with_stdio(false);
cin.tie(nullptr);
cin >> a >> b >> c;
for (int i = 0; i <= std::min(a, b); i++) {
ab = (ab + static_cast<long long>(C(a, i)) * C(b, i) % mod * fac[i] % mod) % mod;
}
for (int i = 0; i <= std::min(a, c); i++) {
ac = (ac + static_cast<long long>(C(a, i)) * C(c, i) % mod * fac[i] % mod) % mod;
}
for (int i = 0; i <= std::min(b, c); i++) {
bc = (bc + static_cast<long long>(C(b, i)) * C(c, i) % mod * fac[i] % mod) % mod;
}
cout << (((static_cast<long long>(ab) * ac) % mod * bc) % mod) % mod << endl;
return 0;
}