Graph
9
O
C
S
t
L
Y
v
class Graph {
constructor () {
this.adjacencyMap = {}
}
addVertex (vertex) {
this.adjacencyMap[vertex] = []
}
containsVertex (vertex) {
return typeof (this.adjacencyMap[vertex]) !== 'undefined'
}
addEdge (vertex1, vertex2) {
if (this.containsVertex(vertex1) && this.containsVertex(vertex2)) {
this.adjacencyMap[vertex1].push(vertex2)
this.adjacencyMap[vertex2].push(vertex1)
}
}
printGraph (output = value => console.log(value)) {
const keys = Object.keys(this.adjacencyMap)
for (const i of keys) {
const values = this.adjacencyMap[i]
let vertex = ''
for (const j of values) {
vertex += j + ' '
}
output(i + ' -> ' + vertex)
}
}
/**
* Prints the Breadth first traversal of the graph from source.
* @param {number} source The source vertex to start BFS.
*/
bfs (source, output = value => console.log(value)) {
const queue = [[source, 0]] // level of source is 0
const visited = new Set()
while (queue.length) {
const [node, level] = queue.shift() // remove the front of the queue
if (visited.has(node)) { // visited
continue
}
visited.add(node)
output(`Visited node ${node} at level ${level}.`)
for (const next of this.adjacencyMap[node]) {
queue.push([next, level + 1]) // level 1 more than current
}
}
}
/**
* Prints the Depth first traversal of the graph from source.
* @param {number} source The source vertex to start DFS.
*/
dfs (source, visited = new Set(), output = value => console.log(value)) {
if (visited.has(source)) { // visited
return
}
output(`Visited node ${source}`)
visited.add(source)
for (const neighbour of this.adjacencyMap[source]) {
this.dfs(neighbour, visited, output)
}
}
}
const example = () => {
const g = new Graph()
g.addVertex(1)
g.addVertex(2)
g.addVertex(3)
g.addVertex(4)
g.addVertex(5)
g.addEdge(1, 2)
g.addEdge(1, 3)
g.addEdge(2, 4)
g.addEdge(2, 5)
// Graph
// 1 -> 2 3
// 2 -> 1 4 5
// 3 -> 1
// 4 -> 2
// 5 -> 2
// Printing the adjacency list
// g.printGraph()
// Breadth first search at node 1
g.bfs(1)
// Depth first search at node 1
g.dfs(1)
}
export { Graph, example }
