首先自己造了一份简单的社交关系的图
第一份是人物数据,id和姓名,person.txt
1 孙俪
2 邓超
3 佟大为
4 冯绍峰
5 黄晓明
6 angelababy
7 李冰冰
8 范冰冰
第二份是社交关系数据,两个人的id和社交关系,social.txt
1 丈夫 2
2 妻子 1
1 搭档 3
3 同学 4
3 好友 5
5 好友 3
5 妻子 6
5 好友 7
7 好友 8
使用SparkX和GraphStream来处理数据
package graphx import org.apache.spark.{SparkConf, SparkContext}
import org.apache.spark.graphx._
import org.apache.spark.rdd.RDD
import org.graphstream.graph.implementations.{AbstractEdge, SingleGraph, SingleNode} /**
* Created by common on 18-1-22.
*/
object GraphxLearning { def main(args: Array[String]): Unit = { val conf = new SparkConf().setAppName("GraphX").setMaster("local")
val sc = new SparkContext(conf) val path1 = "input/graphx/person.txt"
val path2 = "input/graphx/social.txt" // 顶点RDD[顶点的id,顶点的属性值]
val users: RDD[(VertexId, (String, String))] = sc.textFile(path1).map { line =>
val vertexId = line.split(" ")(0).toLong
val vertexName = line.split(" ")(1)
(vertexId, (vertexName, vertexName))
} // 边RDD[起始点id,终点id,边的属性(边的标注,边的权重等)]
val relationships: RDD[Edge[String]] = sc.textFile(path2).map { line =>
val arr = line.split(" ")
val edge = Edge(arr(0).toLong, arr(2).toLong, arr(1))
edge
} // 默认(缺失)用户
//Define a default user in case there are relationship with missing user
val defaultUser = ("John Doe", "Missing") //使用RDDs建立一个Graph(有许多建立Graph的数据来源和方法,后面会详细介绍)
val srcGraph = Graph(users, relationships, defaultUser) val graph: SingleGraph = new SingleGraph("graphDemo") // load the graphx vertices into GraphStream
for ((id, name) <- srcGraph.vertices.collect()) {
val node = graph.addNode(id.toString).asInstanceOf[SingleNode]
node.addAttribute("ui.label", name._1)
} // load the graphx edges into GraphStream edges
for (Edge(x, y, relation) <- srcGraph.edges.collect()) {
val edge = graph.addEdge(x.toString ++ y.toString, x.toString, y.toString, true).asInstanceOf[AbstractEdge]
edge.addAttribute("ui.label", relation)
} graph.setAttribute("ui.quality")
graph.setAttribute("ui.antialias") graph.display() } }
可视化的结果,该图数据节点数很少,本来想尝试一份百万节点的数据,结果遇到了爆内存的问题
后来发现爆内存是肯定的,而且显示的点太多也不太利于debug,解决方法是使用subgraph()方法来对图进行裁剪以减小节点和边的数量