Java tutorial
/* * Cloud9: A Hadoop toolkit for working with big data * * Licensed under the Apache License, Version 2.0 (the "License"); you * may not use this file except in compliance with the License. You may * obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing * permissions and limitations under the License. */ //package edu.umd.cloud9.example.pagerank; import java.io.IOException; import java.text.DecimalFormat; import java.text.NumberFormat; import java.util.ArrayList; import java.util.Arrays; import java.util.Iterator; import org.apache.commons.cli.CommandLine; import org.apache.commons.cli.CommandLineParser; import org.apache.commons.cli.GnuParser; import org.apache.commons.cli.HelpFormatter; import org.apache.commons.cli.Option; import org.apache.commons.cli.OptionBuilder; import org.apache.commons.cli.Options; import org.apache.commons.cli.ParseException; import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.conf.Configured; import org.apache.hadoop.fs.FSDataInputStream; import org.apache.hadoop.fs.FSDataOutputStream; import org.apache.hadoop.fs.FileStatus; import org.apache.hadoop.fs.FileSystem; import org.apache.hadoop.fs.Path; import org.apache.hadoop.io.IntWritable; import org.apache.hadoop.io.LongWritable; import org.apache.hadoop.io.Text; import org.apache.hadoop.mapreduce.Job; import org.apache.hadoop.mapreduce.Mapper; import org.apache.hadoop.mapreduce.Reducer; import org.apache.hadoop.mapreduce.lib.input.FileInputFormat; import org.apache.hadoop.mapreduce.lib.output.FileOutputFormat; import org.apache.hadoop.mapreduce.lib.output.SequenceFileOutputFormat; import org.apache.hadoop.util.Tool; import org.apache.hadoop.util.ToolRunner; import org.apache.log4j.Logger; import com.google.common.base.Preconditions; import edu.umd.cloud9.io.array.ArrayListOfIntsWritable; import edu.umd.cloud9.mapreduce.lib.input.NonSplitableSequenceFileInputFormat; import edu.umd.cloud9.util.map.HMapIF; import edu.umd.cloud9.util.map.MapIF; import edu.umd.cloud9.io.map.HMapIFW; import pagerank.PageRankNodeMultiSrc; /** * <p> * Main driver program for running the basic (non-Schimmy) implementation of * PageRank. * </p> * * <p> * The starting and ending iterations will correspond to paths * <code>/base/path/iterXXXX</code> and <code>/base/path/iterYYYY</code>. As a * example, if you specify 0 and 10 as the starting and ending iterations, the * driver program will start with the graph structure stored at * <code>/base/path/iter0000</code>; final results will be stored at * <code>/base/path/iter0010</code>. * </p> * * @see RunPageRankSchimmy * @author Jimmy Lin * @author Michael Schatz */ public class RunPersonalizedPageRankBasic extends Configured implements Tool { private static final Logger LOG = Logger.getLogger(RunPersonalizedPageRankBasic.class); private static final String NODE_SRC = "source_pagerank"; private static enum PageRank { nodes, edges, massMessages, massMessagesSaved, massMessagesReceived, missingStructure }; // Mapper, no in-mapper combining. private static class MapClass extends Mapper<IntWritable, PageRankNodeMultiSrc, IntWritable, PageRankNodeMultiSrc> { // The neighbor to which we're sending messages. private static final IntWritable neighbor = new IntWritable(); // Contents of the messages: partial PageRank mass. private static final PageRankNodeMultiSrc intermediateMass = new PageRankNodeMultiSrc(); // For passing along node structure. private static final PageRankNodeMultiSrc intermediateStructure = new PageRankNodeMultiSrc(); private static final HMapIFW InterMass = new HMapIFW(); @Override public void map(IntWritable nid, PageRankNodeMultiSrc node, Context context) throws IOException, InterruptedException { // Pass along node structure. intermediateStructure.setNodeId(node.getNodeId()); intermediateStructure.setType(PageRankNodeMultiSrc.Type.Structure); intermediateStructure.setAdjacencyList(node.getAdjacenyList()); context.write(nid, intermediateStructure); int massMessages = 0; int[] PGlist = node.getSrc(); HMapIFW PGmap = node.getPageRankM(); // Distribute PageRank mass to neighbors (along outgoing edges). if (node.getAdjacenyList().size() > 0) { // Each neighbor gets an equal share of PageRank mass. intermediateMass.setType(PageRankNodeMultiSrc.Type.Mass); ArrayListOfIntsWritable list = node.getAdjacenyList(); int degree = list.size(); //System.out.print(PGlist[0]+"\n\n"+"HIHIHIHIHIHIHHIIHIH"); for (int j = 0; j < PGlist.length; j++) { InterMass.put(PGlist[j], 0); } for (int i = 0; i < PGlist.length; i++) { //random jump to source node InterMass.put(PGlist[i], (ALPHA) * node.getPageRank(PGlist[i])); intermediateMass.setNodeId(PGlist[i]); intermediateMass.setPageRank(0); intermediateMass.setPageRank(InterMass); neighbor.set(PGlist[i]); context.write(neighbor, intermediateMass); massMessages++; InterMass.put(PGlist[i], 0); } for (int i = 0; i < PGlist.length; i++) { InterMass.put(PGlist[i], ((1 - ALPHA) * node.getPageRank(PGlist[i])) / degree); } context.getCounter(PageRank.edges).increment(list.size()); // Iterate over neighbors. for (int i = 0; i < list.size(); i++) { neighbor.set(list.get(i)); intermediateMass.setNodeId(list.get(i)); intermediateMass.setPageRank(0); intermediateMass.setPageRank(InterMass); // Emit messages with PageRank mass to neighbors. context.write(neighbor, intermediateMass); if (intermediateMass.getPageRank(9627181) >= 0.0255 && intermediateMass.getPageRank(9627181) <= 0.026) { System.out.print( nid.get() + " " + neighbor.toString() + intermediateMass.toString() + "\n\n"); } massMessages++; } } //Dangling node emit PageRank back to Source node else { intermediateMass.setType(PageRankNodeMultiSrc.Type.Mass); intermediateMass.setPageRank(0); for (int i = 0; i < PGlist.length; i++) { InterMass.put(PGlist[i], 0); } for (int i = 0; i < PGlist.length; i++) { InterMass.put(PGlist[i], node.getPageRank(PGlist[i])); intermediateMass.setNodeId(PGlist[i]); intermediateMass.setPageRank(InterMass); neighbor.set(PGlist[i]); context.write(neighbor, intermediateMass); InterMass.put(PGlist[i], 0); } } // Bookkeeping. context.getCounter(PageRank.nodes).increment(1); context.getCounter(PageRank.massMessages).increment(massMessages); } } // Mapper with in-mapper combiner optimization. /*private static class MapWithInMapperCombiningClass extends Mapper<IntWritable, PageRankNode, IntWritable, PageRankNode> { // For buffering PageRank mass contributes keyed by destination node. private static final HMapIF map = new HMapIF(); // For passing along node structure. private static final PageRankNode intermediateStructure = new PageRankNode(); @Override public void map(IntWritable nid, PageRankNode node, Context context) throws IOException, InterruptedException { // Pass along node structure. intermediateStructure.setNodeId(node.getNodeId()); intermediateStructure.setType(PageRankNode.Type.Structure); intermediateStructure.setAdjacencyList(node.getAdjacenyList()); context.write(nid, intermediateStructure); int massMessages = 0; int massMessagesSaved = 0; // Distribute PageRank mass to neighbors (along outgoing edges). if (node.getAdjacenyList().size() > 0) { // Each neighbor gets an equal share of PageRank mass. ArrayListOfIntsWritable list = node.getAdjacenyList(); float mass = node.getPageRank() - (float) StrictMath.log(list.size()); context.getCounter(PageRank.edges).increment(list.size()); // Iterate over neighbors. for (int i = 0; i < list.size(); i++) { int neighbor = list.get(i); if (map.containsKey(neighbor)) { // Already message destined for that node; add PageRank mass contribution. massMessagesSaved++; map.put(neighbor, sumLogProbs(map.get(neighbor), mass)); } else { // New destination node; add new entry in map. massMessages++; map.put(neighbor, mass); } } } // Bookkeeping. context.getCounter(PageRank.nodes).increment(1); context.getCounter(PageRank.massMessages).increment(massMessages); context.getCounter(PageRank.massMessagesSaved).increment(massMessagesSaved); } @Override public void cleanup(Context context) throws IOException, InterruptedException { // Now emit the messages all at once. IntWritable k = new IntWritable(); PageRankNode mass = new PageRankNode(); for (MapIF.Entry e : map.entrySet()) { k.set(e.getKey()); mass.setNodeId(e.getKey()); mass.setType(PageRankNode.Type.Mass); mass.setPageRank(e.getValue()); context.write(k, mass); } } }*/ // Combiner: sums partial PageRank contributions and passes node structure along. private static class CombineClass extends Reducer<IntWritable, PageRankNodeMultiSrc, IntWritable, PageRankNodeMultiSrc> { private static final PageRankNodeMultiSrc intermediateMass = new PageRankNodeMultiSrc(); @Override public void reduce(IntWritable nid, Iterable<PageRankNodeMultiSrc> values, Context context) throws IOException, InterruptedException { int massMessages = 0; // Remember, PageRank mass is stored as a log prob. //float mass = Float.NEGATIVE_INFINITY; for (PageRankNodeMultiSrc n : values) { if (n.getType() == PageRankNodeMultiSrc.Type.Structure) { // Simply pass along node structure. context.write(nid, n); } else { // Accumulate PageRank mass contributions. intermediateMass.Sum(n.getPageRankM()); massMessages++; } } // Emit aggregated results. if (massMessages > 0) { intermediateMass.setNodeId(nid.get()); intermediateMass.setType(PageRankNodeMultiSrc.Type.Mass); intermediateMass.setPageRank(0); context.write(nid, intermediateMass); } } } // Reduce: sums incoming PageRank contributions, rewrite graph structure. private static class ReduceClass extends Reducer<IntWritable, PageRankNodeMultiSrc, IntWritable, PageRankNodeMultiSrc> { // For keeping track of PageRank mass encountered, so we can compute missing PageRank mass lost // through dangling nodes. private PageRankNodeMultiSrc totalMass = new PageRankNodeMultiSrc(); private static String SrcNode; private static int[] src; private static PageRankNodeMultiSrc node = new PageRankNodeMultiSrc(); @Override public void setup( Reducer<IntWritable, PageRankNodeMultiSrc, IntWritable, PageRankNodeMultiSrc>.Context context) { SrcNode = context.getConfiguration().get(NODE_SRC); String[] sources = SrcNode.split(","); node.setType(PageRankNodeMultiSrc.Type.Complete); node.setPageRank(0); //unused //System.out.print(sources[0]+sources[1]+"\n\n\n\n"); src = new int[sources.length]; for (int i = 0; i < sources.length; i++) { src[i] = Integer.parseInt(sources[i]); } node.setSrcNode(src); } @Override public void reduce(IntWritable nid, Iterable<PageRankNodeMultiSrc> iterable, Context context) throws IOException, InterruptedException { Iterator<PageRankNodeMultiSrc> values = iterable.iterator(); // Create the node structure that we're going to assemble back together from shuffled pieces. node.setType(PageRankNodeMultiSrc.Type.Complete); node.setNodeId(nid.get()); int massMessagesReceived = 0; int structureReceived = 0; //float mass = Float.NEGATIVE_INFINITY; while (values.hasNext()) { PageRankNodeMultiSrc n = values.next(); if (n.getType().equals(PageRankNodeMultiSrc.Type.Structure)) { // This is the structure; update accordingly. ArrayListOfIntsWritable list = n.getAdjacenyList(); structureReceived++; node.setAdjacencyList(list); } else { // This is a message that contains PageRank mass; accumulate. node.Sum(n.getPageRankM()); massMessagesReceived++; } } // Update the final accumulated PageRank mass. context.getCounter(PageRank.massMessagesReceived).increment(massMessagesReceived); // Error checking. if (structureReceived == 1) { // Everything checks out, emit final node structure with updated PageRank value. context.write(nid, node); // Keep track of total PageRank mass. totalMass.Sum(node.getPageRankM()); } else if (structureReceived == 0) { // We get into this situation if there exists an edge pointing to a node which has no // corresponding node structure (i.e., PageRank mass was passed to a non-existent node)... // log and count but move on. context.getCounter(PageRank.missingStructure).increment(1); LOG.warn("No structure received for nodeid: " + nid.get() + " mass: " + massMessagesReceived); // It's important to note that we don't add the PageRank mass to total... if PageRank mass // was sent to a non-existent node, it should simply vanish. } else { // This shouldn't happen! throw new RuntimeException("Multiple structure received for nodeid: " + nid.get() + " mass: " + massMessagesReceived + " struct: " + structureReceived); } node.setSrcNode(src); } @Override public void cleanup(Context context) throws IOException { Configuration conf = context.getConfiguration(); String taskId = conf.get("mapred.task.id"); //String path = conf.get("PageRankMassPath"); Preconditions.checkNotNull(taskId); //Preconditions.checkNotNull(path); // Write to a file the amount of PageRank mass we've seen in this reducer. /*FileSystem fs = FileSystem.get(context.getConfiguration()); FSDataOutputStream out = fs.create(new Path(path + "/" + taskId), false); int[] key=totalMass.getSrc(); for(int i=0; i<key.length;i++) { out.writeFloat(totalMass.getPageRank(key[i])); } out.close();*/ } } // Mapper that distributes the missing PageRank mass (lost at the dangling nodes) and takes care // of the random jump factor. /* private static class MapPageRankMassDistributionClass extends Mapper<IntWritable, PageRankNodeMultiSrc, IntWritable, PageRankNodeMultiSrc> { private float missingMass = 0.0f; private int nodeCnt = 0; @Override public void setup(Context context) throws IOException { Configuration conf = context.getConfiguration(); missingMass = conf.getFloat("MissingMass", 0.0f); nodeCnt = conf.getInt("NodeCount", 0); } @Override public void map(IntWritable nid, PageRankNodeMultiSrc node, Context context) throws IOException, InterruptedException { float p = node.getPageRank(); //float jump = (float) (Math.log(ALPHA) - Math.log(nodeCnt)); float link = (float) Math.log(1.0f - ALPHA) + sumLogProbs(p, (float) (Math.log(missingMass) - Math.log(nodeCnt))); p = sumLogProbs(jump, link); node.setPageRank(p); context.write(nid, node); } }*/ // Random jump factor. private static float ALPHA = 0.15f; private static NumberFormat formatter = new DecimalFormat("0000"); /** * Dispatches command-line arguments to the tool via the {@code ToolRunner}. */ public static void main(String[] args) throws Exception { ToolRunner.run(new RunPersonalizedPageRankBasic(), args); } public RunPersonalizedPageRankBasic() { } private static final String BASE = "base"; private static final String NUM_NODES = "numNodes"; private static final String START = "start"; private static final String END = "end"; private static final String COMBINER = "useCombiner"; private static final String INMAPPER_COMBINER = "useInMapperCombiner"; private static final String RANGE = "range"; private static final String SRC_NODES = "sources"; /** * Runs this tool. */ @SuppressWarnings({ "static-access" }) public int run(String[] args) throws Exception { Options options = new Options(); options.addOption(new Option(COMBINER, "use combiner")); options.addOption(new Option(INMAPPER_COMBINER, "user in-mapper combiner")); options.addOption(new Option(RANGE, "use range partitioner")); options.addOption(OptionBuilder.withArgName("path").hasArg().withDescription("base path").create(BASE)); options.addOption( OptionBuilder.withArgName("num").hasArg().withDescription("start iteration").create(START)); options.addOption(OptionBuilder.withArgName("num").hasArg().withDescription("end iteration").create(END)); options.addOption( OptionBuilder.withArgName("num").hasArg().withDescription("number of nodes").create(NUM_NODES)); options.addOption(OptionBuilder.withArgName("sources").hasArg().withDescription("personalized source nodes") .create(SRC_NODES)); CommandLine cmdline; CommandLineParser parser = new GnuParser(); try { cmdline = parser.parse(options, args); } catch (ParseException exp) { System.err.println("Error parsing command line: " + exp.getMessage()); return -1; } if (!cmdline.hasOption(BASE) || !cmdline.hasOption(START) || !cmdline.hasOption(END) || !cmdline.hasOption(NUM_NODES)) { System.out.println("args: " + Arrays.toString(args)); HelpFormatter formatter = new HelpFormatter(); formatter.setWidth(120); formatter.printHelp(this.getClass().getName(), options); ToolRunner.printGenericCommandUsage(System.out); return -1; } String basePath = cmdline.getOptionValue(BASE); int n = Integer.parseInt(cmdline.getOptionValue(NUM_NODES)); int s = Integer.parseInt(cmdline.getOptionValue(START)); int e = Integer.parseInt(cmdline.getOptionValue(END)); boolean useCombiner = cmdline.hasOption(COMBINER); boolean useInmapCombiner = cmdline.hasOption(INMAPPER_COMBINER); boolean useRange = cmdline.hasOption(RANGE); String src = cmdline.getOptionValue(SRC_NODES); LOG.info("Tool name: RunPageRank"); LOG.info(" - base path: " + basePath); LOG.info(" - num nodes: " + n); LOG.info(" - start iteration: " + s); LOG.info(" - end iteration: " + e); LOG.info(" - use combiner: " + useCombiner); LOG.info(" - use in-mapper combiner: " + useInmapCombiner); LOG.info(" - user range partitioner: " + useRange); Configuration conf = getConf(); conf.set(NODE_SRC, src); // Iterate PageRank. for (int i = s; i < e; i++) { iteratePageRank(i, i + 1, basePath, n, useCombiner, useInmapCombiner); } return 0; } // Run each iteration. private void iteratePageRank(int i, int j, String basePath, int numNodes, boolean useCombiner, boolean useInMapperCombiner) throws Exception { // Each iteration consists of two phases (two MapReduce jobs). // Job 1: distribute PageRank mass along outgoing edges. phase1(i, j, basePath, numNodes, useCombiner, useInMapperCombiner); // Find out how much PageRank mass got lost at the dangling nodes. //float missing = 1.0f - (float) StrictMath.exp(mass); // Job 2: distribute missing mass, take care of random jump factor. //phase2(i, j, missing, basePath, numNodes); } private void phase1(int i, int j, String basePath, int numNodes, boolean useCombiner, boolean useInMapperCombiner) throws Exception { Job job = Job.getInstance(getConf()); job.setJobName("PageRank:Basic:iteration" + j + ":Phase1"); job.setJarByClass(RunPersonalizedPageRankBasic.class); String in = basePath + "/iter" + formatter.format(i); String out = basePath + "/iter" + formatter.format(j); //String outm = out + "-mass"; // We need to actually count the number of part files to get the number of partitions (because // the directory might contain _log). int numPartitions = 0; for (FileStatus s : FileSystem.get(getConf()).listStatus(new Path(in))) { if (s.getPath().getName().contains("part-")) numPartitions++; } LOG.info("PageRank: iteration " + j + ": Phase1"); LOG.info(" - input: " + in); LOG.info(" - output: " + out); LOG.info(" - nodeCnt: " + numNodes); LOG.info(" - useCombiner: " + useCombiner); LOG.info(" - useInmapCombiner: " + useInMapperCombiner); LOG.info("computed number of partitions: " + numPartitions); int numReduceTasks = numPartitions; job.getConfiguration().setInt("NodeCount", numNodes); job.getConfiguration().setBoolean("mapred.map.tasks.speculative.execution", false); job.getConfiguration().setBoolean("mapred.reduce.tasks.speculative.execution", false); //job.getConfiguration().set("mapred.child.java.opts", "-Xmx2048m"); //job.getConfiguration().set("PageRankMassPath", outm); job.setNumReduceTasks(numReduceTasks); FileInputFormat.setInputPaths(job, new Path(in)); FileOutputFormat.setOutputPath(job, new Path(out)); job.setInputFormatClass(NonSplitableSequenceFileInputFormat.class); job.setOutputFormatClass(SequenceFileOutputFormat.class); job.setMapOutputKeyClass(IntWritable.class); job.setMapOutputValueClass(PageRankNodeMultiSrc.class); job.setOutputKeyClass(IntWritable.class); job.setOutputValueClass(PageRankNodeMultiSrc.class); job.setMapperClass(/*useInMapperCombiner ? MapWithInMapperCombiningClass.class : */MapClass.class); if (useCombiner) { job.setCombinerClass(CombineClass.class); } job.setReducerClass(ReduceClass.class); FileSystem.get(getConf()).delete(new Path(out), true); //FileSystem.get(getConf()).delete(new Path(outm), true); long startTime = System.currentTimeMillis(); job.waitForCompletion(true); System.out.println("Job Finished in " + (System.currentTimeMillis() - startTime) / 1000.0 + " seconds"); //ArrayList<Float> mass; /*float[] masslist; FileSystem fs = FileSystem.get(getConf()); int flag=0 for (FileStatus f : fs.listStatus(new Path(outm))) { FSDataInputStream fin = fs.open(f.getPath()); while(fin.available()>0) { if (flag==0) { mass.add(fin.readFloat()); flag++; } } fin.close(); } return mass;*/ } /* private void phase2(int i, int j, float missing, String basePath, int numNodes) throws Exception { Job job = Job.getInstance(getConf()); job.setJobName("PageRank:Basic:iteration" + j + ":Phase2"); job.setJarByClass(RunPersonalizedPageRankBasic.class); LOG.info("missing PageRank mass: " + missing); LOG.info("number of nodes: " + numNodes); String in = basePath + "/iter" + formatter.format(j) + "t"; String out = basePath + "/iter" + formatter.format(j); LOG.info("PageRank: iteration " + j + ": Phase2"); LOG.info(" - input: " + in); LOG.info(" - output: " + out); job.getConfiguration().setBoolean("mapred.map.tasks.speculative.execution", false); job.getConfiguration().setBoolean("mapred.reduce.tasks.speculative.execution", false); job.getConfiguration().setFloat("MissingMass", (float) missing); job.getConfiguration().setInt("NodeCount", numNodes); job.setNumReduceTasks(0); FileInputFormat.setInputPaths(job, new Path(in)); FileOutputFormat.setOutputPath(job, new Path(out)); job.setInputFormatClass(NonSplitableSequenceFileInputFormat.class); job.setOutputFormatClass(SequenceFileOutputFormat.class); job.setMapOutputKeyClass(IntWritable.class); job.setMapOutputValueClass(PageRankNodeMultiSrc.class); job.setOutputKeyClass(IntWritable.class); job.setOutputValueClass(PageRankNodeMultiSrc.class); job.setMapperClass(MapPageRankMassDistributionClass.class); FileSystem.get(getConf()).delete(new Path(out), true); long startTime = System.currentTimeMillis(); job.waitForCompletion(true); System.out.println("Job Finished in " + (System.currentTimeMillis() - startTime) / 1000.0 + " seconds"); }*/ // Adds two log probs. private static float sumLogProbs(float a, float b) { if (a == Float.NEGATIVE_INFINITY) return b; if (b == Float.NEGATIVE_INFINITY) return a; if (a < b) { return (float) (b + StrictMath.log1p(StrictMath.exp(a - b))); } return (float) (a + StrictMath.log1p(StrictMath.exp(b - a))); } }