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86d333ee94
* chore: Switch to Node 20 + Vitest * chore: migrate to vitest mock functions * chore: code style (switch to prettier) * test: re-enable long-running test Seems the switch to Node 20 and Vitest has vastly improved the code's and / or the test's runtime! see #1193 * chore: code style * chore: fix failing tests * Updated Documentation in README.md * Update contribution guidelines to state usage of Prettier * fix: set prettier printWidth back to 80 * chore: apply updated code style automatically * fix: set prettier line endings to lf again * chore: apply updated code style automatically --------- Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com> Co-authored-by: Lars Müller <34514239+appgurueu@users.noreply.github.com>
55 lines
1.6 KiB
JavaScript
55 lines
1.6 KiB
JavaScript
import Queue from '../Data-Structures/Queue/Queue'
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/**
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* Breadth-first approach can be applied to determine the shortest path between two nodes in an equi-weighted graph.
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*
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* It searches the target node among all neighbors of the starting node, then the process is repeated on the level of
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* the neighbors of the neighbors and so on.
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*
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* @see https://en.wikipedia.org/wiki/Breadth-first_search
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* @see https://www.koderdojo.com/blog/breadth-first-search-and-shortest-path-in-csharp-and-net-core
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*/
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export function breadthFirstShortestPath(graph, startNode, targetNode) {
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// check if startNode & targetNode are identical
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if (startNode === targetNode) {
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return [startNode]
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}
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// visited keeps track of all nodes visited
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const visited = new Set()
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// queue contains the paths to be explored in the future
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const initialPath = [startNode]
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const queue = new Queue()
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queue.enqueue(initialPath)
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while (!queue.isEmpty()) {
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// start with the queue's first path
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const path = queue.dequeue()
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const node = path[path.length - 1]
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// explore this node if it hasn't been visited yet
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if (!visited.has(node)) {
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// mark the node as visited
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visited.add(node)
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const neighbors = graph[node]
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// create a new path in the queue for each neighbor
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for (let i = 0; i < neighbors.length; i++) {
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const newPath = path.concat([neighbors[i]])
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// the first path to contain the target node is the shortest path
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if (neighbors[i] === targetNode) {
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return newPath
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}
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// queue the new path
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queue.enqueue(newPath)
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}
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}
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}
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// the target node was not reachable
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return []
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}
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