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js-graph-algorithms

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Package implements data structures and algorithms for processing various types of graphs

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<html> <head> <title> Connected Components on Graph </title> <script src="../third-party-libs/vis/vis.js" type="text/javascript"></script> <script src="../src/jsgraphs.js" type="text/javascript"></script> <link href="../third-party-libs/vis/vis.css" type="text/css" /> </head> <body> <h2>Connected Components on Graph</h2> <div id="mynetwork"></div> <script type="text/javascript"> (function(){ var g = new jsgraphs.Graph(13); g.addEdge(0, 5); g.addEdge(4, 3); g.addEdge(0, 1); g.addEdge(9, 12); g.addEdge(6, 4); g.addEdge(5, 4); g.addEdge(0, 2); g.addEdge(11, 12); g.addEdge(9,10); g.addEdge(0, 6); g.addEdge(7, 8); g.addEdge(9, 11); g.addEdge(5, 3); var cc = new jsgraphs.ConnectedComponents(g); console.log(cc.componentCount()); // display 3 for (var v = 0; v < g.V; ++v) { console.log('id[' + v + ']: ' + cc.componentId(v)); } var g_nodes = []; var g_edges = []; for(var v=0; v < g.V; ++v){ g.node(v).label = 'Node ' + v; // assigned 'Node {v}' as label for node v g_nodes.push({ id: v, label: g.node(v).label, group: cc.componentId(v) }); var adj_v = g.adj(v); for(var i = 0; i < adj_v.length; ++i) { var w = adj_v[i]; if(w > v) continue; // make sure only one edge between w and v since the graph is undirected g_edges.push({ from: v, to: w }); }; } console.log(g.V); // display 6, which is the number of vertices in g console.log(g.adj(0)); // display [5, 1, 2], which is the adjacent list to vertex 0 var nodes = new vis.DataSet(g_nodes); // create an array with edges var edges = new vis.DataSet(g_edges); // create a network var container = document.getElementById('mynetwork'); var data = { nodes: nodes, edges: edges }; var options = {}; var network = new vis.Network(container, data, options); })(); </script> </body> </html>