Task: | Download Speed |
Sender: | ilyas.ben |
Submission time: | 2024-10-23 14:51:27 +0300 |
Language: | C++ |
Status: | READY |
Result: | WRONG ANSWER |
test | verdict | time | |
---|---|---|---|
#1 | ACCEPTED | 0.00 s | details |
#2 | ACCEPTED | 0.00 s | details |
#3 | ACCEPTED | 0.00 s | details |
#4 | ACCEPTED | 0.00 s | details |
#5 | WRONG ANSWER | 0.00 s | details |
#6 | ACCEPTED | 0.01 s | details |
#7 | ACCEPTED | 0.01 s | details |
#8 | ACCEPTED | 0.00 s | details |
#9 | ACCEPTED | 0.00 s | details |
#10 | ACCEPTED | 0.00 s | details |
#11 | WRONG ANSWER | 0.00 s | details |
#12 | ACCEPTED | 0.00 s | details |
Code
#include <iostream> #include <vector> #include <limits.h> #include <string.h> #include <stack> using namespace std; class MaxFlow { int n; vector<vector<int>> capacity; vector<vector<int>> adj; public: MaxFlow(int n) : n(n), capacity(n, vector<int>(n, 0)), adj(n) {} void addEdge(int u, int v, int cap) { capacity[u][v] += cap; adj[u].push_back(v); adj[v].push_back(u); } bool dfs(int source, int sink, vector<int> &parent) { vector<bool> visited(n, false); stack<int> s; s.push(source); visited[source] = true; while (!s.empty()) { int u = s.top(); s.pop(); for (int v : adj[u]) { if (!visited[v] && capacity[u][v] > 0) { s.push(v); visited[v] = true; parent[v] = u; if (v == sink) return true; } } } return false; } int fordFulkerson(int source, int sink) { int max_flow = 0; vector<int> parent(n); while (dfs(source, sink, parent)) { int path_flow = INT_MAX; for (int v = sink; v != source; v = parent[v]) { int u = parent[v]; path_flow = min(path_flow, capacity[u][v]); } for (int v = sink; v != source; v = parent[v]) { int u = parent[v]; capacity[u][v] -= path_flow; capacity[v][u] += path_flow; } max_flow += path_flow; } return max_flow; } }; int main() { int n, m; cin >> n >> m; MaxFlow maxFlow(n + 1); for (int i = 0; i < m; ++i) { int a, b, c; cin >> a >> b >> c; maxFlow.addEdge(a, b, c); } int result = maxFlow.fordFulkerson(1, n); cout << result; return 0; }
Test details
Test 1
Verdict: ACCEPTED
input |
---|
4 3 1 2 5 2 3 3 3 4 6 |
correct output |
---|
3 |
user output |
---|
3 |
Test 2
Verdict: ACCEPTED
input |
---|
4 5 1 2 1 1 3 1 2 3 1 2 4 1 ... |
correct output |
---|
2 |
user output |
---|
2 |
Test 3
Verdict: ACCEPTED
input |
---|
4 5 1 2 1000000000 1 3 1000000000 2 3 1 2 4 1000000000 ... |
correct output |
---|
2000000000 |
user output |
---|
2000000000 |
Test 4
Verdict: ACCEPTED
input |
---|
2 1 2 1 100 |
correct output |
---|
0 |
user output |
---|
0 |
Test 5
Verdict: WRONG ANSWER
input |
---|
2 1000 1 2 1000000000 1 2 1000000000 1 2 1000000000 1 2 1000000000 ... |
correct output |
---|
1000000000000 |
user output |
---|
0 |
Test 6
Verdict: ACCEPTED
input |
---|
500 998 1 2 54 1 3 59 1 4 83 2 5 79 ... |
correct output |
---|
60 |
user output |
---|
60 |
Test 7
Verdict: ACCEPTED
input |
---|
500 998 1 2 530873053 1 3 156306296 1 4 478040476 3 5 303609600 ... |
correct output |
---|
1093765123 |
user output |
---|
1093765123 |
Test 8
Verdict: ACCEPTED
input |
---|
2 1 1 2 1 |
correct output |
---|
1 |
user output |
---|
1 |
Test 9
Verdict: ACCEPTED
input |
---|
4 5 1 2 3 2 4 2 1 3 4 3 4 5 ... |
correct output |
---|
6 |
user output |
---|
6 |
Test 10
Verdict: ACCEPTED
input |
---|
4 5 1 2 1 1 3 2 3 2 1 2 4 2 ... |
correct output |
---|
3 |
user output |
---|
3 |
Test 11
Verdict: WRONG ANSWER
input |
---|
10 999 1 2 1000000000 1 2 1000000000 1 2 1000000000 1 2 1000000000 ... |
correct output |
---|
111000000000 |
user output |
---|
0 |
Test 12
Verdict: ACCEPTED
input |
---|
7 9 1 2 1 1 3 1 1 4 1 2 5 1 ... |
correct output |
---|
2 |
user output |
---|
2 |