Depth-First Search: Difference between revisions

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(Created page with "== Depth-First Search == Depth-First Search (DFS) is a graph traversal algorithm that explores all the vertices of a graph by visiting nodes as deep as possible before backtracking. DFS can be implemented using recursion or an explicit stack data structure. === Algorithm === Start at the source node and mark it as visited. For each adjacent node of the source node, if it is not visited, perform a recursive DFS from the adjacent node. === Time Complexity ===...")
 
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     [[USACO_2018_February_Gold_P2|2018 February Gold Problem 2: Rental Service]]
     [[USACO_2018_February_Gold_P2|2018 February Gold Problem 2: Rental Service]]
     [[USACO_2020_January_Gold_P3|2020 January Gold Problem 3: Wormhole Sort]]
     [[USACO_2020_January_Gold_P3|2020 January Gold Problem 3: Wormhole Sort]]
[[Category:Depth-First Search]]
[[Category:Algorithms]]
[[Category:Graph]]

Latest revision as of 05:05, 6 May 2023

Depth-First Search[edit]

Depth-First Search (DFS) is a graph traversal algorithm that explores all the vertices of a graph by visiting nodes as deep as possible before backtracking. DFS can be implemented using recursion or an explicit stack data structure.

Algorithm[edit]

   Start at the source node and mark it as visited.
   For each adjacent node of the source node, if it is not visited, perform a recursive DFS from the adjacent node.

Time Complexity[edit]

The time complexity of DFS is O(V + E), where V is the number of vertices in the graph, and E is the number of edges.

C++ Code Example[edit]

#include <iostream>
#include <vector>

using namespace std;

vector<vector<int>> adjList;
vector<bool> visited;

void dfs(int node) {
    visited[node] = true;
    cout << "Visiting node: " << node << endl;

    for (int adjacent : adjList[node]) {
        if (!visited[adjacent]) {
            dfs(adjacent);
        }
    }
}

int main() {
    // Initialize adjacency list and visited vector
    adjList = {{1, 3}, {0, 2}, {1, 3}, {0, 2}};
    visited.resize(4, false);

    // Perform DFS from the first node
    dfs(0);

    return 0;
}

Example USACO Silver Problems[edit]

Here are some example USACO Silver problems that utilize Depth-First Search:

   2016 December Silver Problem 2: Cities and States
   2017 December Silver Problem 1: The Bovine Shuffle
   2019 January Silver Problem 3: Sleepy Cow Sorting

Example USACO Gold Problems[edit]

Here are some example USACO Gold problems that utilize Depth-First Search:

   2015 December Gold Problem 2: Fruit Feast
   2018 February Gold Problem 2: Rental Service
   2020 January Gold Problem 3: Wormhole Sort