public SampledGraphProjection<SocialSparseGraph, SocialSparseVertex, SocialSparseEdge> buildGraph( List<String> alterTables, List<String> egoTables, List<String> sqlDumps) throws IOException { errLogger = new ErrorLogger(); /* * Load raw data. */ AlterTableReader alterReader = new AlterTableReader(alterTables); EgoTableReader egoReader = new EgoTableReader(egoTables); SQLDumpReader sqlReader = new SQLDumpReader(sqlDumps); /* * Build the raw graph and a sampled projection. */ graph = builder.createGraph(); proj = projBuilder.createGraph(graph); /* * Create the vertices. */ projMap = new HashMap<SocialSparseVertex, SampledVertexDecorator<SocialSparseVertex>>(); idMap = new HashMap<String, SocialSparseVertex>(); for (Entry<String, VertexRecord> entry : alterReader.getVertices().entrySet()) { VertexRecord vRecord = entry.getValue(); /* * Extract the home location. */ Point point; if (vRecord.isEgo) { point = sqlReader.getEgoLocation(vRecord.egoSQLId); if (point == null) { /* * try getting coordinates via google */ logger.info("Requesting google server for coordinates."); point = egoReader.getEgoLocation(vRecord.id); } } else { point = sqlReader.getAlterLocation(vRecord.alterKeys); } if (point == null) { errLogger.logNoCoordinate(vRecord.isEgo); // point = geoFacotry.createPoint(new Coordinate(0, 0)); } /* * Create a vertex and its projection. */ SocialSparseVertex vertex = builder.addVertex(graph, createPerson(vRecord, sqlReader), point); SampledVertexDecorator<SocialSparseVertex> vProj = projBuilder.addVertex(proj, vertex); /* * If it is an ego set the snowball attributes. */ if (vRecord.isEgo) { vProj.sample(infereIterationSampled(new Integer(vRecord.id))); vProj.detect(vProj.getIterationSampled() - 1); } projMap.put(vertex, vProj); idMap.put(vRecord.id, vertex); // recordMap.put(vRecord.id, vRecord); } /* * Create the edges. */ for (Tuple<VertexRecord, VertexRecord> edge : alterReader.getEdges()) { SocialSparseVertex v1 = idMap.get(edge.getFirst().id); SocialSparseVertex v2 = idMap.get(edge.getSecond().id); SocialSparseEdge socialEdge = builder.addEdge(graph, v1, v2); /* * Check if we have double edges. */ if (socialEdge != null) { SampledVertexDecorator<SocialSparseVertex> vProj1 = projMap.get(v1); SampledVertexDecorator<SocialSparseVertex> vProj2 = projMap.get(v2); projBuilder.addEdge(proj, vProj1, vProj2, socialEdge); /* * Set the snowball attributes if it is not an ego. */ if (!vProj1.isSampled()) { if (vProj1.isDetected()) /* * If this vertex is already detected check if the adjacent vertex has been sampled earlier. */ vProj1.detect(Math.min(vProj1.getIterationDetected(), vProj2.getIterationSampled())); else vProj1.detect(vProj2.getIterationSampled()); } if (!vProj2.isSampled()) { if (vProj2.isDetected()) /* * If this vertex is already detected check if the adjacent vertex has been sampled earlier. */ vProj2.detect(Math.min(vProj2.getIterationDetected(), vProj1.getIterationSampled())); else vProj2.detect(vProj1.getIterationSampled()); } /* * add edge attributes */ VertexRecord rec1 = edge.getFirst(); VertexRecord rec2 = edge.getSecond(); double freq = 0; if (rec1.isEgo) { freq = sqlReader.getF2FFrequencey(rec1.egoSQLId, rec2.alterKeys.get(rec1.egoSQLId)); } else { freq = sqlReader.getF2FFrequencey(rec2.egoSQLId, rec1.alterKeys.get(rec2.egoSQLId)); } socialEdge.setFrequency(freq); socialEdge.setType(sqlReader.getEdgeType(rec1, rec2)); } else { errLogger.logDoubleEdge(); } } /* * Sociogram */ loadSociogramData(alterReader.getVertices().values(), sqlReader); logger.info(errLogger.toString()); return proj; }
private void loadSociogramData(Collection<VertexRecord> records, SQLDumpReader sqlData) { logger.info("Loading sociogram data..."); Map<String, VertexRecord> map = sqlData.getFullAlterKeyMappping(records); TObjectIntHashMap<Vertex> rawDegrees = new TObjectIntHashMap<Vertex>(); for (Vertex v : proj.getVertices()) { rawDegrees.put(v, v.getNeighbours().size()); } int edgecnt = 0; int doublecnt = 0; int egoEdge = 0; Set<Vertex> notOkVertices = new HashSet<Vertex>(); Set<Vertex> okVertices = new HashSet<Vertex>(); DescriptiveStatistics notOkStats = new DescriptiveStatistics(); DescriptiveStatistics okStats = new DescriptiveStatistics(); DescriptiveStatistics numDistr = new DescriptiveStatistics(); DescriptiveStatistics numDistrNoZero = new DescriptiveStatistics(); DescriptiveStatistics sizeDistr = new DescriptiveStatistics(); TDoubleArrayList sizeValues = new TDoubleArrayList(); TDoubleArrayList kSizeValues = new TDoubleArrayList(); TDoubleArrayList numValues = new TDoubleArrayList(); TDoubleArrayList numValues2 = new TDoubleArrayList(); TDoubleArrayList kNumValues = new TDoubleArrayList(); for (VertexRecord record : records) { if (record.isEgo) { List<Set<String>> cliques = sqlData.getCliques(record); numDistr.addValue(cliques.size()); Vertex v = idMap.get(record.id); numValues.add(cliques.size()); kNumValues.add(v.getNeighbours().size()); if (!cliques.isEmpty()) numDistrNoZero.addValue(cliques.size()); for (Set<String> clique : cliques) { sizeDistr.addValue(clique.size()); sizeValues.add(clique.size()); kSizeValues.add(rawDegrees.get(projMap.get(v))); numValues2.add(cliques.size()); List<SocialSparseVertex> vertices = new ArrayList<SocialSparseVertex>(clique.size()); for (String alter : clique) { VertexRecord r = map.get(record.egoSQLId + alter); if (r != null) { SocialSparseVertex vertex = idMap.get(r.id); if (vertex != null) { vertices.add(vertex); } else { logger.warn("Vertex not found."); } } else { logger.warn("Record not found."); } } for (int i = 0; i < vertices.size(); i++) { for (int j = i + 1; j < vertices.size(); j++) { SampledVertexDecorator<SocialSparseVertex> vProj1 = projMap.get(vertices.get(i)); SampledVertexDecorator<SocialSparseVertex> vProj2 = projMap.get(vertices.get(j)); if (!vProj1.isSampled() && !vProj2.isSampled()) { if (Math.random() < 0.62) { SocialSparseEdge socialEdge = builder.addEdge(graph, vertices.get(i), vertices.get(j)); if (socialEdge != null) { projBuilder.addEdge(proj, vProj1, vProj2, socialEdge); edgecnt++; if (vProj1.isSampled() || vProj2.isSampled()) { egoEdge++; if (vProj1.isSampled()) notOkVertices.add(vProj1); else notOkVertices.add(vProj2); } } else { doublecnt++; if (vProj1.isSampled()) okVertices.add(vProj1); else if (vProj2.isSampled()) okVertices.add(vProj2); } } } } } } } } for (Vertex v : okVertices) okStats.addValue(rawDegrees.get(v)); for (Vertex v : notOkVertices) notOkStats.addValue(rawDegrees.get(v)); try { TDoubleDoubleHashMap hist = Histogram.createHistogram(okStats, new LinearDiscretizer(1), false); StatsWriter.writeHistogram( hist, "k", "n", "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/k_ok.txt"); TDoubleDoubleHashMap hist2 = Histogram.createHistogram(notOkStats, new LinearDiscretizer(1), false); StatsWriter.writeHistogram( hist2, "k", "n", "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/k_notok.txt"); TDoubleDoubleHashMap ratio = new TDoubleDoubleHashMap(); double[] keys = hist.keys(); for (double k : keys) { double val1 = hist2.get(k); double val2 = hist.get(k); ratio.put(k, val1 / (val2 + val1)); } StatsWriter.writeHistogram( ratio, "k", "p", "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/k_ratio.txt"); logger.info("Mean num of cliques: " + numDistrNoZero.getMean()); logger.info("Mean size: " + sizeDistr.getMean()); logger.info("Median num of cliques: " + StatUtils.percentile(numDistrNoZero.getValues(), 50)); logger.info("Median size: " + StatUtils.percentile(sizeDistr.getValues(), 50)); TDoubleDoubleHashMap histNum = Histogram.createHistogram( numDistrNoZero, FixedSampleSizeDiscretizer.create(numDistrNoZero.getValues(), 2, 20), true); Histogram.normalize(histNum); StatsWriter.writeHistogram( histNum, "num", "freq", "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/numCliques.txt"); TDoubleDoubleHashMap histSize = Histogram.createHistogram( sizeDistr, FixedSampleSizeDiscretizer.create(sizeDistr.getValues(), 2, 20), true); Histogram.normalize(histSize); StatsWriter.writeHistogram( histSize, "size", "freq", "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/numPersons.txt"); Discretizer discretizer = FixedSampleSizeDiscretizer.create(kSizeValues.toNativeArray(), 20, 20); TDoubleArrayList valuesX = new TDoubleArrayList(); for (int i = 0; i < kSizeValues.size(); i++) { valuesX.add(discretizer.discretize(kSizeValues.get(i))); } Correlations.writeToFile( Correlations.mean(valuesX.toNativeArray(), sizeValues.toNativeArray()), "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/size_k.txt", "k", "size"); discretizer = FixedSampleSizeDiscretizer.create(kNumValues.toNativeArray(), 20, 20); valuesX = new TDoubleArrayList(); for (int i = 0; i < kNumValues.size(); i++) { valuesX.add(discretizer.discretize(kNumValues.get(i))); } Correlations.writeToFile( Correlations.mean(valuesX.toNativeArray(), numValues.toNativeArray()), "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/num_k.txt", "k", "n"); Correlations.writeToFile( Correlations.mean(numValues2.toNativeArray(), sizeValues.toNativeArray()), "/Users/jillenberger/Work/socialnets/data/ivt2009/11-2011/augmented/size_num.txt", "num", "size"); } catch (FileNotFoundException e) { // TODO Auto-generated catch block e.printStackTrace(); } catch (IOException e) { // TODO Auto-generated catch block e.printStackTrace(); } logger.info( String.format("Inserted %1$s edges, %2$s edges already present.", edgecnt, doublecnt)); logger.info(String.format("Inserted %1$s edges between at least one ego.", egoEdge)); }