| Task: | Download Speed |
| Sender: | Nallue |
| Submission time: | 2024-10-19 17:14:21 +0300 |
| Language: | C++ (C++11) |
| Status: | READY |
| Result: | ACCEPTED |
| 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 | ACCEPTED | 0.00 s | details |
| #6 | ACCEPTED | 0.01 s | details |
| #7 | ACCEPTED | 0.02 s | details |
| #8 | ACCEPTED | 0.00 s | details |
| #9 | ACCEPTED | 0.00 s | details |
| #10 | ACCEPTED | 0.00 s | details |
| #11 | ACCEPTED | 0.01 s | details |
| #12 | ACCEPTED | 0.00 s | details |
Code
#include <iostream>#include <limits.h>#include <queue>#include <string.h>#include <vector>using namespace std;bool bfs(vector<vector<long long>>& rGraph, long long s, long long t, vector<long long>& parent){long long V = rGraph.size();vector<bool> visited(V,false);queue<long long> q;q.push(s);visited[s] = true;parent[s] = -1;while (!q.empty()) {long long u = q.front();q.pop();for (long long v = 0; v < V; v++) {if (visited[v] == false && rGraph[u][v] > 0) {if (v == t) {parent[v] = u;return true;}q.push(v);parent[v] = u;visited[v] = true;}}}return false;}long long fordFulkerson(vector<vector<long long>> graph, long long s, long long t){long long u, v;long long V = graph.size();vector<vector<long long>> rGraph(V,vector<long long>(V));for (u = 0; u < V; u++)for (v = 0; v < V; v++)rGraph[u][v] = graph[u][v];vector<long long> parent(V);long long max_flow = 0;while (bfs(rGraph, s, t, parent)) {long long path_flow = LONG_LONG_MAX;for (v = t; v != s; v = parent[v]) {u = parent[v];path_flow = min(path_flow, rGraph[u][v]);}for (v = t; v != s; v = parent[v]) {u = parent[v];rGraph[u][v] -= path_flow;rGraph[v][u] += path_flow;}max_flow += path_flow;}return max_flow;}int main(){long long n,m;cin >> n >> m;vector<vector<long long>> graph(n,vector<long long>(n,0));for(long long i=0; i<m; i++){long long a,b;long long c;cin >> a >> b >> c;graph[a-1][b-1]+=c;}cout << fordFulkerson(graph, 0, n-1) << endl;}
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: ACCEPTED
| input |
|---|
| 2 1000 1 2 1000000000 1 2 1000000000 1 2 1000000000 1 2 1000000000 ... |
| correct output |
|---|
| 1000000000000 |
| user output |
|---|
| 1000000000000 |
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: ACCEPTED
| input |
|---|
| 10 999 1 2 1000000000 1 2 1000000000 1 2 1000000000 1 2 1000000000 ... |
| correct output |
|---|
| 111000000000 |
| user output |
|---|
| 111000000000 |
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 |