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my_solution.js
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/**
* @param {number} numCourses
* @param {number[][]} prerequisites
* @return {boolean}
*/
const canFinish = function (numCourses, prerequisites) {
// Step 1: Build the graph (adjacency list)
// console.log(graph)
const graph = buildGraph(numCourses, prerequisites);
console.log("graph (adjacency list)")
console.log(graph)
// Step 2: Perform topological sort
const inDegree = new Array(numCourses).fill(0);
for (let [course, pre] of prerequisites) {
inDegree[course]++;
}
console.log("inDegree")
console.log(inDegree)
const queue = [];
for (let i = 0; i < numCourses; i++) {
if (inDegree[i] === 0) {
queue.push(i);
}
}
let count = 0;
while (queue.length > 0) {
const course = queue.shift();
count++;
for (const neighbor of graph[course]) {
inDegree[neighbor]--;
if (inDegree[neighbor] === 0) {
queue.push(neighbor);
}
}
}
// Step 3: Check the count
return count === numCourses;
};
// Helper function to build the graph
function buildGraph(numCourses, prerequisites) {
const graph = new Array(numCourses).fill().map(() => []);
for (const [course, prerequisite] of prerequisites) {
graph[prerequisite].push(course);
}
return graph;
}
console.log(canFinish(2, [[1, 0]])); // Output: true
console.log(canFinish(2, [[1, 0], [0, 1]])); // Output: false