/** * This method is called when the first batch comes in. Incoming batches are collected until a * threshold is met. At that point, the records in the batches are sorted and sampled, and the * sampled records are stored in the distributed cache. Once a sufficient fraction of the * fragments have shared their samples, each fragment grabs all the samples, sorts all the * records, builds a partition table, and attempts to push the partition table to the distributed * cache. Whichever table gets pushed first becomes the table used by all fragments for * partitioning. * * @return True is successful. False if failed. */ private boolean getPartitionVectors() { try { if (!saveSamples()) { return false; } CachedVectorContainer finalTable = null; long val = minorFragmentSampleCount.incrementAndGet(); logger.debug("Incremented mfsc, got {}", val); final long fragmentsBeforeProceed = (long) Math.ceil(sendingMajorFragmentWidth * completionFactor); final String finalTableKey = mapKey + "final"; if (val == fragmentsBeforeProceed) { // we crossed the barrier, build table and get data. buildTable(); finalTable = tableMap.get(finalTableKey); } else { // Wait until sufficient number of fragments have submitted samples, or proceed after xx ms // passed // TODO: this should be polling. if (val < fragmentsBeforeProceed) Thread.sleep(10); for (int i = 0; i < 100 && finalTable == null; i++) { finalTable = tableMap.get(finalTableKey); if (finalTable != null) { break; } Thread.sleep(10); } if (finalTable == null) { buildTable(); } finalTable = tableMap.get(finalTableKey); } Preconditions.checkState(finalTable != null); // Extract vectors from the wrapper, and add to partition vectors. These vectors will be used // for partitioning in // the rest of this operator for (VectorWrapper<?> w : finalTable.get()) { partitionVectors.add(w.getValueVector()); } } catch (ClassTransformationException | IOException | SchemaChangeException | InterruptedException ex) { kill(false); logger.error("Failure while building final partition table.", ex); context.fail(ex); return false; } return true; }
private void buildTable() throws SchemaChangeException, ClassTransformationException, IOException { // Get all samples from distributed map SortRecordBatchBuilder containerBuilder = new SortRecordBatchBuilder(context.getAllocator(), MAX_SORT_BYTES); for (CachedVectorContainer w : mmap.get(mapKey)) { containerBuilder.add(w.get()); } VectorContainer allSamplesContainer = new VectorContainer(); containerBuilder.build(context, allSamplesContainer); List<Ordering> orderDefs = Lists.newArrayList(); int i = 0; for (Ordering od : popConfig.getOrderings()) { SchemaPath sp = SchemaPath.getSimplePath("f" + i++); orderDefs.add(new Ordering(od.getDirection(), new FieldReference(sp))); } // sort the data incoming samples. SelectionVector4 newSv4 = containerBuilder.getSv4(); Sorter sorter = SortBatch.createNewSorter(context, orderDefs, allSamplesContainer); sorter.setup(context, newSv4, allSamplesContainer); sorter.sort(newSv4, allSamplesContainer); // Copy every Nth record from the samples into a candidate partition table, where N = // totalSampledRecords/partitions // Attempt to push this to the distributed map. Only the first candidate to get pushed will be // used. VectorContainer candidatePartitionTable = new VectorContainer(); SampleCopier copier = null; List<ValueVector> localAllocationVectors = Lists.newArrayList(); copier = getCopier( newSv4, allSamplesContainer, candidatePartitionTable, orderDefs, localAllocationVectors); int allocationSize = 50; while (true) { for (ValueVector vv : localAllocationVectors) { AllocationHelper.allocate(vv, samplingFactor * partitions, allocationSize); } int skipRecords = containerBuilder.getSv4().getTotalCount() / partitions; if (copier.copyRecords(skipRecords, skipRecords, partitions - 1)) { assert copier.getOutputRecords() == partitions - 1 : String.format( "output records: %d partitions: %d", copier.getOutputRecords(), partitions); for (VectorWrapper<?> vw : candidatePartitionTable) { vw.getValueVector().getMutator().setValueCount(copier.getOutputRecords()); } break; } else { candidatePartitionTable.zeroVectors(); allocationSize *= 2; } } candidatePartitionTable.setRecordCount(copier.getOutputRecords()); WritableBatch batch = WritableBatch.getBatchNoHVWrap( candidatePartitionTable.getRecordCount(), candidatePartitionTable, false); CachedVectorContainer wrap = new CachedVectorContainer(batch, context.getDrillbitContext().getAllocator()); tableMap.putIfAbsent(mapKey + "final", wrap, 1, TimeUnit.MINUTES); candidatePartitionTable.clear(); allSamplesContainer.clear(); containerBuilder.clear(); wrap.clear(); }