// In the name of Allah
#include <bits/stdc++.h>
#include "Annalib.h"
using namespace std;
typedef long long int ll;
typedef long double ld;
typedef pair<int, int> pii;
typedef pair<ll, ll> pll;
typedef complex<ld> cld;
#define all(x) (x).begin(),(x).end()
#define len(x) ((ll) (x).size())
#define F first
#define S second
#define pb push_back
#define sep ' '
#define endl '\n'
#define Mp make_pair
#define kill(x) cout << x << '\n', exit(0)
#define set_dec(x) cout << fixed << setprecision(x);
#define file_io(x,y) freopen(x, "r", stdin); freopen(y, "w", stdout);
static int n, k; ll x;
static const int maxn = 150 + 4;
static const int maxlg = 60;
static int A[maxn], M[maxn];
void Anna(int nx, ll valx, int kx, int p[]) {
n = nx; k = kx; x = valx;
iota(A, A + n, 0); fill(M, M + n, 0);
for (int i = 0; i < k; i++) M[p[i]] = 1;
shuffle(A, A + n, default_random_engine(323));
int j = 0;
for (int i = 1; i < n; i += 2) {
int j1 = A[i - 1], j2 = A[i];
if (j >= maxlg) {
Set(j1, 0); Set(j2, 0);
}
else {
if (x & (1ll << j)) {
if (M[j1]) {
Set(j1, 0); Set(j2, 0);
}
else {
Set(j1, 1); Set(j2, 0);
j++;
}
}
else {
if (M[j2]) {
Set(j1, 0); Set(j2, 0);
}
else {
Set(j1, 0); Set(j2, 1);
j++;
}
}
}
}
if (n % 2 == 1) Set(A[n - 1], 0);
}
// In the name of Allah
#include <bits/stdc++.h>
#include "Brunolib.h"
using namespace std;
typedef long long int ll;
typedef long double ld;
typedef pair<int, int> pii;
typedef pair<ll, ll> pll;
typedef complex<ld> cld;
#define all(x) (x).begin(),(x).end()
#define len(x) ((ll) (x).size())
#define F first
#define S second
#define pb push_back
#define sep ' '
#define endl '\n'
#define Mp make_pair
#define kill(x) cout << x << '\n', exit(0)
#define set_dec(x) cout << fixed << setprecision(x);
#define file_io(x,y) freopen(x, "r", stdin); freopen(y, "w", stdout);
static int n;
static const int maxn = 150 + 4;
static const int maxlg = 60;
static int A[maxn], val[maxn];
ll Bruno(int nx, int a[]) {
n = nx; iota(A, A + n, 0);
for (int i = 0; i < n; i++) val[i] = a[i];
shuffle(A, A + n, default_random_engine(323));
int j = 0; ll res = 0;
for (int i = 1; i < n; i += 2) {
int j1 = A[i - 1], j2 = A[i];
if (val[j1] != 0) {
res ^= (1ll << j);
j++;
}
else if (val[j2] != 0) {
j++;
}
}
return res;
}
# |
결과 |
실행 시간 |
메모리 |
Grader output |
1 |
Partially correct |
27 ms |
2316 KB |
Output is partially correct - L* = 25 |
2 |
Partially correct |
27 ms |
2496 KB |
Output is partially correct - L* = 27 |
3 |
Partially correct |
27 ms |
2372 KB |
Output is partially correct - L* = 25 |
4 |
Partially correct |
27 ms |
2484 KB |
Output is partially correct - L* = 25 |
5 |
Partially correct |
27 ms |
2648 KB |
Output is partially correct - L* = 24 |
6 |
Partially correct |
27 ms |
2404 KB |
Output is partially correct - L* = 22 |
7 |
Partially correct |
27 ms |
2368 KB |
Output is partially correct - L* = 25 |
8 |
Partially correct |
27 ms |
2484 KB |
Output is partially correct - L* = 23 |
9 |
Partially correct |
27 ms |
2520 KB |
Output is partially correct - L* = 24 |
10 |
Partially correct |
27 ms |
2400 KB |
Output is partially correct - L* = 24 |
11 |
Partially correct |
28 ms |
2956 KB |
Output is partially correct - L* = 25 |
12 |
Partially correct |
27 ms |
2488 KB |
Output is partially correct - L* = 22 |
13 |
Partially correct |
28 ms |
2648 KB |
Output is partially correct - L* = 24 |
14 |
Partially correct |
27 ms |
2488 KB |
Output is partially correct - L* = 21 |
15 |
Partially correct |
27 ms |
2648 KB |
Output is partially correct - L* = 25 |
16 |
Partially correct |
28 ms |
2400 KB |
Output is partially correct - L* = 27 |
17 |
Partially correct |
28 ms |
2388 KB |
Output is partially correct - L* = 23 |
18 |
Partially correct |
28 ms |
2404 KB |
Output is partially correct - L* = 24 |
19 |
Partially correct |
27 ms |
2464 KB |
Output is partially correct - L* = 25 |
20 |
Partially correct |
31 ms |
2384 KB |
Output is partially correct - L* = 21 |
21 |
Partially correct |
28 ms |
2524 KB |
Output is partially correct - L* = 23 |
22 |
Partially correct |
27 ms |
2596 KB |
Output is partially correct - L* = 23 |
23 |
Partially correct |
27 ms |
2644 KB |
Output is partially correct - L* = 23 |
24 |
Partially correct |
27 ms |
2396 KB |
Output is partially correct - L* = 23 |
25 |
Partially correct |
27 ms |
2392 KB |
Output is partially correct - L* = 19 |
26 |
Partially correct |
28 ms |
2368 KB |
Output is partially correct - L* = 26 |
27 |
Partially correct |
31 ms |
2372 KB |
Output is partially correct - L* = 23 |
28 |
Partially correct |
27 ms |
2404 KB |
Output is partially correct - L* = 23 |
29 |
Partially correct |
27 ms |
2392 KB |
Output is partially correct - L* = 24 |
30 |
Partially correct |
27 ms |
2748 KB |
Output is partially correct - L* = 23 |
31 |
Partially correct |
27 ms |
2464 KB |
Output is partially correct - L* = 25 |
32 |
Partially correct |
28 ms |
2572 KB |
Output is partially correct - L* = 23 |
33 |
Partially correct |
27 ms |
2396 KB |
Output is partially correct - L* = 23 |
34 |
Partially correct |
27 ms |
2404 KB |
Output is partially correct - L* = 23 |
35 |
Partially correct |
27 ms |
2396 KB |
Output is partially correct - L* = 24 |
36 |
Partially correct |
31 ms |
2468 KB |
Output is partially correct - L* = 25 |
37 |
Partially correct |
27 ms |
2488 KB |
Output is partially correct - L* = 23 |
38 |
Partially correct |
27 ms |
2476 KB |
Output is partially correct - L* = 22 |
39 |
Partially correct |
31 ms |
2396 KB |
Output is partially correct - L* = 26 |
40 |
Partially correct |
27 ms |
2380 KB |
Output is partially correct - L* = 22 |