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Merge pull request #125 from Nur69/master

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Graph Algorithm
This commit is contained in:
Stepfen Shawn
2020-04-21 16:28:40 +08:00
committed by GitHub
parent 31cb7fe222 0b411b93c0
commit 798fdfd4bd
3 changed files with 271 additions and 0 deletions
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59
Sorts/TopologicalSort.js Normal file
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function TopologicalSorter() {
var graph = {},
isVisitedNode,
finishTimeCount,
finishingTimeList,
nextNode;
this.addOrder = function (nodeA, nodeB) {
nodeA = String(nodeA);
nodeB = String(nodeB);
graph[nodeA] = graph[nodeA] || [];
graph[nodeA].push(nodeB);
}
this.sortAndGetOrderedItems = function () {
isVisitedNode = Object.create(null);
finishTimeCount = 0;
finishingTimeList = [];
for (var node in graph) {
if (graph.hasOwnProperty(node) && !isVisitedNode[node]) {
dfsTraverse(node);
}
}
finishingTimeList.sort(function (item1, item2) {
return item1.finishTime > item2.finishTime ? -1 : 1;
});
return finishingTimeList.map(function (value) { return value.node })
}
function dfsTraverse(node) {
isVisitedNode[node] = true;
if (graph[node]) {
for (var i = 0; i < graph[node].length; i++) {
nextNode = graph[node][i];
if (isVisitedNode[nextNode]) continue;
dfsTraverse(nextNode);
}
}
finishingTimeList.push({
node: node,
finishTime: ++finishTimeCount
});
}
}
/* TEST */
var topoSorter = new TopologicalSorter();
topoSorter.addOrder(5, 2);
topoSorter.addOrder(5, 0);
topoSorter.addOrder(4, 0);
topoSorter.addOrder(4, 1);
topoSorter.addOrder(2, 3);
topoSorter.addOrder(3, 1);
console.log(topoSorter.sortAndGetOrderedItems());

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maths/DijkstraSmallestPath.js Normal file
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// starting at s
function solve(graph, s) {
var solutions = {};
solutions[s] = [];
solutions[s].dist = 0;
while(true) {
var p = null;
var neighbor = null;
var dist = Infinity;
for(var n in solutions) {
if(!solutions[n])
continue
var ndist = solutions[n].dist;
var adj = graph[n];
for(var a in adj) {
if(solutions[a])
continue;
var d = adj[a] + ndist;
if(d < dist) {
p = solutions[n];
neighbor = a;
dist = d;
}
}
}
//no more solutions
if(dist === Infinity) {
break;
}
//extend parent's solution path
solutions[neighbor] = p.concat(neighbor);
//extend parent's cost
solutions[neighbor].dist = dist;
}
return solutions;
}
//create graph
var graph = {};
var layout = {
'R': ['2'],
'2': ['3','4'],
'3': ['4','6','13'],
'4': ['5','8'],
'5': ['7','11'],
'6': ['13','15'],
'7': ['10'],
'8': ['11','13'],
'9': ['14'],
'10': [],
'11': ['12'],
'12': [],
'13': ['14'],
'14': [],
'15': []
}
//convert uni-directional to bi-directional graph
// var graph = {
// a: {e:1, b:1, g:3},
// b: {a:1, c:1},
// c: {b:1, d:1},
// d: {c:1, e:1},
// e: {d:1, a:1},
// f: {g:1, h:1},
// g: {a:3, f:1},
// h: {f:1}
// };
for(var id in layout) {
if(!graph[id])
graph[id] = {};
layout[id].forEach(function(aid) {
graph[id][aid] = 1;
if(!graph[aid])
graph[aid] = {};
graph[aid][id] = 1;
});
}
//choose start node
var start = '10';
//get all solutions
var solutions = solve(graph, start);
console.log("From '"+start+"' to");
//display solutions
for(var s in solutions) {
if(!solutions[s]) continue;
console.log(" -> " + s + ": [" + solutions[s].join(", ") + "] (dist:" + solutions[s].dist + ")");
}
// From '10' to
// -> 2: [7, 5, 4, 2] (dist:4)
// -> 3: [7, 5, 4, 3] (dist:4)
// -> 4: [7, 5, 4] (dist:3)
// -> 5: [7, 5] (dist:2)
// -> 6: [7, 5, 4, 3, 6] (dist:5)
// -> 7: [7] (dist:1)
// -> 8: [7, 5, 4, 8] (dist:4)
// -> 9: [7, 5, 4, 3, 13, 14, 9] (dist:7)
// -> 10: [] (dist:0)
// -> 11: [7, 5, 11] (dist:3)
// -> 12: [7, 5, 11, 12] (dist:4)
// -> 13: [7, 5, 4, 3, 13] (dist:5)
// -> 14: [7, 5, 4, 3, 13, 14] (dist:6)
// -> 15: [7, 5, 4, 3, 6, 15] (dist:6)
// -> R: [7, 5, 4, 2, R] (dist:5)

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// create a graph class
class Graph {
// defining vertex array and
// adjacent list
constructor(noOfVertices)
{
this.noOfVertices = noOfVertices;
this.AdjList = new Map();
}
// functions to be implemented
// addVertex(v)
// addEdge(v, w)
// printGraph()
// bfs(v)
// dfs(v)
}
// add vertex to the graph
addVertex(v)
{
// initialize the adjacent list with a
// null array
this.AdjList.set(v, []);
}
// add edge to the graph
addEdge(v, w)
{
// get the list for vertex v and put the
// vertex w denoting edge between v and w
this.AdjList.get(v).push(w);
// Since graph is undirected,
// add an edge from w to v also
this.AdjList.get(w).push(v);
}
// Prints the vertex and adjacency list
printGraph()
{
// get all the vertices
var get_keys = this.AdjList.keys();
// iterate over the vertices
for (var i of get_keys)
{
// great the corresponding adjacency list
// for the vertex
var get_values = this.AdjList.get(i);
var conc = "";
// iterate over the adjacency list
// concatenate the values into a string
for (var j of get_values)
conc += j + " ";
// print the vertex and its adjacency list
console.log(i + " -> " + conc);
}
}
// Example
var graph = new Graph(6);
var vertices = [ 'A', 'B', 'C', 'D', 'E', 'F' ];
// adding vertices
for (var i = 0; i < vertices.length; i++) {
g.addVertex(vertices[i]);
}
// adding edges
g.addEdge('A', 'B');
g.addEdge('A', 'D');
g.addEdge('A', 'E');
g.addEdge('B', 'C');
g.addEdge('D', 'E');
g.addEdge('E', 'F');
g.addEdge('E', 'C');
g.addEdge('C', 'F');
// prints all vertex and
// its adjacency list
// A -> B D E
// B -> A C
// C -> B E F
// D -> A E
// E -> A D F C
// F -> E C
g.printGraph();