| Task: | Kortit II |
| Sender: | NoelMatero |
| Submission time: | 2024-11-08 21:02:55 +0200 |
| Language: | C++ (C++11) |
| Status: | READY |
| Result: | 0 |
| group | verdict | score |
|---|---|---|
| #1 | RUNTIME ERROR | 0 |
| #2 | RUNTIME ERROR | 0 |
| #3 | RUNTIME ERROR | 0 |
| #4 | RUNTIME ERROR | 0 |
| #5 | RUNTIME ERROR | 0 |
| test | verdict | time | group | |
|---|---|---|---|---|
| #1 | RUNTIME ERROR | 0.00 s | 1, 2, 3, 4, 5 | details |
| #2 | RUNTIME ERROR | 0.00 s | 2, 3, 4, 5 | details |
| #3 | RUNTIME ERROR | 0.00 s | 3, 4, 5 | details |
| #4 | RUNTIME ERROR | 0.00 s | 4, 5 | details |
| #5 | RUNTIME ERROR | 0.06 s | 5 | details |
| #6 | RUNTIME ERROR | 0.06 s | 5 | details |
Code
#include <bits/stdc++.h>using namespace std;typedef long long ll;const int MOD = 1000000007;vector<vector<int>> Eulerian;vector<ll> factorial, inv_factorial;void precompute_eulerian(int max_n) {vector<vector<ll>> Eulerian(max_n +1, vector<ll>(max_n +1, 0LL));for (int i = 1; i <= max_n; i++) {for (int j = 0; j <= i - 1; j++) {if (j == 0) {Eulerian[i][j] = 1;} else {Eulerian[i][j] = ((long long)(i - j) * Eulerian[i - 1][j - 1] % MOD +(long long)(j + 1) * Eulerian[i - 1][j] % MOD) % MOD;}}}}int eulerian(int n, int m) {if (n < 0 || m < 0 || m >= n) return 0;return Eulerian[n][m];}ll power_mod(ll a, ll b, ll mod_val) {ll res = 1;a %= mod_val;while (b > 0) {if (b & 1LL) {res = res * a % mod_val;}a = a * a % mod_val;b >>= 1LL;}return res;}void precompute_factorials(int n_max) {factorial.assign(n_max + 1, 1LL);inv_factorial.assign(n_max + 1, 1LL);for (int i = 1; i <= n_max; ++i) {factorial[i] = factorial[i - 1] * i % MOD;}inv_factorial[n_max] = power_mod(factorial[n_max], MOD - 2, MOD);for (int i = n_max - 1; i >= 0; i--) {inv_factorial[i] = inv_factorial[i + 1] * (i + 1) % MOD;}}ll comb(int n, int k) {if (k < 0 || k > n) return 0;return factorial[n] * inv_factorial[k] % MOD * inv_factorial[n - k] % MOD;}int main() {ios::sync_with_stdio(false);cin.tie(0);int T;cin >> T;vector<tuple<int, int, int>> tests(T);int max_n = 0;for (auto &x : tests) {cin >> get<0>(x) >> get<1>(x) >> get<2>(x);max_n = max(max_n, get<0>(x));}precompute_factorials(max_n);precompute_eulerian(max_n);vector<vector<ll>> D_E(max_n + 1, vector<ll>(max_n + 1, 0LL));for (int m = 0; m <= max_n; m++) {for (int b = 0; b <= m; b++) {ll total = 0;for (int k = 0; k <= m; k++) {ll Cmk = comb(m, k);if (b > m - k || m - k < 0) {continue;}ll Ak = Eulerian[m - k][b];if (k & 1) {total = (total + ((MOD - (Cmk * Ak % MOD)) % MOD)) % MOD;;} else {total = (total + (Cmk * Ak) % MOD) % MOD;}}D_E[m][b] = total;}}for (auto &x : tests) {int n, a, b;tie(n, a, b) = x;int c = n - a - b;if (c < 0 || c > n || a < 0 || b < 0) {cout << "0\n";continue;}ll C_nc = comb(n, c);ll D = (n - c >= 0 && b <= (n - c)) ? D_E[n - c][b] : 0LL;ll total = factorial[n] * C_nc % MOD;total = total * D % MOD;cout << total << "\n";}return 0;}/*#include <bits/stdc++.h>using namespace std;typedef long long ll;const int MOD = 1000000007;const int MAX_N = 2000;ll power_mod(ll a, ll b, ll mod_val) {ll res = 1;a %= mod_val;while (b > 0) {if (b & 1LL) {res = res * a % mod_val;}a = a * a % mod_val;b >>= 1LL;}return res;}vector<ll> factorial;vector<ll> inv_factorial;void precompute_factorials(int n_max) {factorial.assign(n_max + 1, 1LL);for(int i=1; i<=n_max; ++i){factorial[i] = factorial[i-1] * i % MOD;}inv_factorial.assign(n_max +1, 1LL);inv_factorial[n_max] = power_mod(factorial[n_max], MOD - 2, MOD);for(int i=n_max-1;i>=0;i--){inv_factorial[i] = inv_factorial[i+1] * (i+1) % MOD;}}ll comb(int n, int k){if(k <0 || k >n) return 0;return factorial[n] * inv_factorial[k] % MOD * inv_factorial[n -k] % MOD;}int main(){ios::sync_with_stdio(false);cin.tie(0);int T;cin >> T;vector<tuple<int, int, int>> tests(T);int max_n = 0;for(auto &x: tests){cin >> get<0>(x) >> get<1>(x) >> get<2>(x);max_n = max(max_n, get<0>(x));}precompute_factorials(max_n);vector<vector<ll>> Eulerian(max_n +1, vector<ll>(max_n +1, 0LL));Eulerian[0][0] =1;for(int n=1;n<=max_n;n++){for(int k=0;k<=n-1;k++){ll term1 = (k+1) * Eulerian[n-1][k] % MOD;ll term2 = (n -k) * (k >0 ? Eulerian[n-1][k-1] : 0LL) % MOD;Eulerian[n][k] = (term1 + term2) % MOD;}}vector<vector<ll>> D_E(max_n +1, vector<ll>(max_n +1, 0LL));for(int m=0; m<=max_n; m++){for(int b=0; b<=m; b++){ll total =0;for(int k=0; k<=m; k++){ll Cmk = comb(m, k);if(b > m -k || m -k <0){continue;}ll Ak = Eulerian[m -k][b];if(k &1){total = (total + MOD - (Cmk * Ak % MOD)) % MOD;}else{total = (total + (Cmk * Ak) % MOD) % MOD;}}D_E[m][b] = total;}}for(auto &x: tests){int n, a, b;tie(n, a, b) = x;int c = n - a - b;if(c <0){cout << "0\n";continue;}if(c >n || a <0 || b <0){cout << "0\n";continue;}ll C_nc = comb(n, c);ll D = (n -c >=0 && b <= (n -c)) ? D_E[n -c][b] : 0LL;ll total = factorial[n] * C_nc % MOD;total = total * D % MOD;cout << total << "\n";}}*/
Test details
Test 1
Group: 1, 2, 3, 4, 5
Verdict: RUNTIME ERROR
| input |
|---|
| 54 4 4 0 3 1 3 3 2 2 4 0 4 ... |
| correct output |
|---|
| 0 0 0 0 0 ... |
| user output |
|---|
| (empty) |
Test 2
Group: 2, 3, 4, 5
Verdict: RUNTIME ERROR
| input |
|---|
| 284 6 1 0 5 0 2 7 1 5 7 7 5 ... |
| correct output |
|---|
| 0 0 35280 0 36720 ... |
| user output |
|---|
| (empty) |
Test 3
Group: 3, 4, 5
Verdict: RUNTIME ERROR
| input |
|---|
| 841 19 3 12 19 19 13 19 7 13 20 11 15 ... |
| correct output |
|---|
| 40291066 0 0 0 0 ... |
| user output |
|---|
| (empty) |
Test 4
Group: 4, 5
Verdict: RUNTIME ERROR
| input |
|---|
| 1000 15 12 6 7 1 6 44 4 26 6 6 5 ... |
| correct output |
|---|
| 0 5040 494558320 0 340694548 ... |
| user output |
|---|
| (empty) |
Test 5
Group: 5
Verdict: RUNTIME ERROR
| input |
|---|
| 1000 892 638 599 966 429 655 1353 576 1140 1403 381 910 ... |
| correct output |
|---|
| 0 0 0 249098285 0 ... |
| user output |
|---|
| (empty) |
Test 6
Group: 5
Verdict: RUNTIME ERROR
| input |
|---|
| 1000 2000 1107 508 2000 1372 249 2000 588 65 2000 1739 78 ... |
| correct output |
|---|
| 750840601 678722180 744501884 159164549 868115056 ... |
| user output |
|---|
| (empty) |