/**
* 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();
}
private boolean saveSamples()
throws SchemaChangeException, ClassTransformationException, IOException {
recordsSampled = 0;
IterOutcome upstream;
// Start collecting batches until recordsToSample records have been collected
SortRecordBatchBuilder builder =
new SortRecordBatchBuilder(oContext.getAllocator(), MAX_SORT_BYTES);
builder.add(incoming);
recordsSampled += incoming.getRecordCount();
outer:
while (recordsSampled < recordsToSample) {
upstream = next(incoming);
switch (upstream) {
case NONE:
case NOT_YET:
case STOP:
upstreamNone = true;
break outer;
default:
// fall through
}
builder.add(incoming);
recordsSampled += incoming.getRecordCount();
if (upstream == IterOutcome.NONE) break;
}
VectorContainer sortedSamples = new VectorContainer();
builder.build(context, sortedSamples);
// Sort the records according the orderings given in the configuration
Sorter sorter = SortBatch.createNewSorter(context, popConfig.getOrderings(), sortedSamples);
SelectionVector4 sv4 = builder.getSv4();
sorter.setup(context, sv4, sortedSamples);
sorter.sort(sv4, sortedSamples);
// Project every Nth record to a new vector container, where N = recordsSampled/(samplingFactor
// * partitions).
// Uses the
// the expressions from the Orderings to populate each column. There is one column for each
// Ordering in
// popConfig.orderings.
VectorContainer containerToCache = new VectorContainer();
List<ValueVector> localAllocationVectors = Lists.newArrayList();
SampleCopier copier =
getCopier(
sv4, sortedSamples, containerToCache, popConfig.getOrderings(), localAllocationVectors);
int allocationSize = 50;
while (true) {
for (ValueVector vv : localAllocationVectors) {
AllocationHelper.allocate(vv, samplingFactor * partitions, allocationSize);
}
if (copier.copyRecords(
recordsSampled / (samplingFactor * partitions), 0, samplingFactor * partitions)) {
break;
} else {
containerToCache.zeroVectors();
allocationSize *= 2;
}
}
for (VectorWrapper<?> vw : containerToCache) {
vw.getValueVector().getMutator().setValueCount(copier.getOutputRecords());
}
containerToCache.setRecordCount(copier.getOutputRecords());
// Get a distributed multimap handle from the distributed cache, and put the vectors from the
// new vector container
// into a serializable wrapper object, and then add to distributed map
WritableBatch batch =
WritableBatch.getBatchNoHVWrap(containerToCache.getRecordCount(), containerToCache, false);
CachedVectorContainer sampleToSave = new CachedVectorContainer(batch, context.getAllocator());
mmap.put(mapKey, sampleToSave);
this.sampledIncomingBatches = builder.getHeldRecordBatches();
builder.clear();
batch.clear();
containerToCache.clear();
sampleToSave.clear();
return true;
}