This submission is migrated from previous version of oj.uz, which used different machine for grading. This submission may have different result if resubmitted.
#include <bits/stdc++.h>
using namespace std;
template<typename T>
struct fenwick_tree
{
size_t n;
vector<T> F;
static constexpr size_t lsb(size_t x) { return x & -x; }
fenwick_tree(size_t m) : n(m), F(n+1) {}
T get_prefix(size_t p) const
{
T r = 0;
while(p)
r += F[p], p -= lsb(p);
return r;
}
void delta(size_t p, T v)
{
p++;
while(p <= n)
F[p] += v, p += lsb(p);
}
size_t lower_bound(T v)
{
if(v == 0) return 0;
size_t p = 0; T s = 0;
for(size_t k = __lg(n) + 1; k --> 0; )
if(p + (1 << k) <= n and s + F[p + (1 << k)] < v)
s += F[p += (1 << k)];
return p + 1;
}
};
struct max_sum_set
{
vector<int> A;
vector<size_t> B;
fenwick_tree<int> cnt;
fenwick_tree<int64_t> sum;
max_sum_set(vector<int> a) : A(a), B(A.size()), cnt(A.size()), sum(A.size())
{
iota(B.begin(), B.end(), 0);
sort(B.begin(), B.end(), [&](size_t lhs, size_t rhs) {
return A[lhs] > A[rhs];
});
}
void push(size_t i)
{
if(i >= A.size()) return;
cnt.delta(B[i], +1);
sum.delta(B[i], +A[i]);
}
void pop(size_t i)
{
if(i >= A.size()) return;
cnt.delta(B[i], -1);
sum.delta(B[i], -A[i]);
}
int64_t get(size_t k)
{
return sum.get_prefix(cnt.lower_bound(min(k, (size_t)cnt.get_prefix(A.size()))));
}
};
void divida_et_impera(
size_t d1, size_t d2, size_t p1, size_t p2,
vector<int64_t>& result, max_sum_set& V, const vector<int>& A, int mv)
{
if(d1 >= d2)
return;
size_t d = (d1 + d2) / 2, p = p1;
int64_t& r = result[d];
for(size_t i = p1; i < p2 and mv*i <= d; i++)
{
auto v = V.get(d-mv*i);
if(v > r)
r = v, p = i;
V.push(i);
}
for(size_t i = p1; i < p2 and mv*i <= d; i++)
V.pop(i);
divida_et_impera(d1, d, p1, p+1, result, V, A, mv);
for(size_t i = p1; i < p; i++) V.push(i);
divida_et_impera(d+1, d2, p, p2, result, V, A, mv);
for(size_t i = p1; i < p; i++) V.pop(i);
}
vector<int64_t> best_values(vector<int> A, size_t d, int mv = 1)
{
vector<int64_t> result(d+1);
max_sum_set V(A);
divida_et_impera(0, d+1, 0, A.size()+1, result, V, A, mv);
return result;
}
int64_t solve_right(const vector<int>& A, size_t s, size_t d)
{
auto R = best_values(vector<int>(A.begin() + s, A.end()), d),
L = best_values(vector<int>(A.rbegin() + (A.size()-s), A.rend()), d, 2);
int64_t result = 0;
for(size_t r = 0; r <= d; r++)
result = max(result, R[r] + L[d-r]);
return result;
}
long long int findMaxAttraction(int n, int start, int d, int a[])
{
vector<int> A(a, a + n);
int64_t result = solve_right(A, start, d+1);
reverse(A.begin(), A.end());
result = max(result, solve_right(A, n-1 - start, d+1));
return result;
}
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