@SuppressWarnings("unchecked")
protected BufferingSequence(
String workspaceName,
NodeSequence delegate,
ExtractFromRow extractor,
BufferManager bufferMgr,
CachedNodeSupplier nodeCache,
boolean pack,
boolean useHeap,
boolean allowDuplicates) {
super(delegate);
assert extractor != null;
this.workspaceName = workspaceName;
this.width = delegate.width();
this.cache = nodeCache;
this.extractor = extractor;
// Set up the row factory based upon the width of the delegate sequence...
this.rowFactory = BufferedRows.serializer(nodeCache, width);
// Set up the buffer ...
SortingBuffer<Object, BufferedRow> buffer = null;
TypeFactory<?> keyType = extractor.getType();
if (allowDuplicates) {
@SuppressWarnings("rawtypes")
Serializer<? extends Comparable> keySerializer =
(Serializer<? extends Comparable<?>>) bufferMgr.serializerFor(keyType);
buffer =
bufferMgr
.createSortingWithDuplicatesBuffer(
keySerializer,
extractor.getType().getComparator(),
(BufferedRowFactory<BufferedRow>) rowFactory)
.keepSize(true)
.useHeap(useHeap)
.make();
} else {
BTreeKeySerializer<Object> keySerializer =
(BTreeKeySerializer<Object>) bufferMgr.bTreeKeySerializerFor(keyType, pack);
if (keySerializer instanceof KeySerializerWithComparator) {
keySerializer =
((KeySerializerWithComparator<Object>) keySerializer)
.withComparator(extractor.getType().getComparator());
}
buffer =
bufferMgr
.createSortingBuffer(keySerializer, (BufferedRowFactory<BufferedRow>) rowFactory)
.keepSize(true)
.useHeap(useHeap)
.make();
}
this.buffer = buffer;
}
/**
* Load all of the rows from the supplied sequence into the buffer.
*
* @param sequence the node sequence; may not be null
* @param extractor the extractor for the sortable value; may not be null
* @param rowsWithNullKey the buffer into which should be placed all rows for which the extracted
* key value is null; may be null if these are not to be kept
* @return the size of the first batch, or 0 if there are no rows found
*/
protected int loadAll(
NodeSequence sequence,
ExtractFromRow extractor,
DistinctBuffer<BufferedRow> rowsWithNullKey) {
// Put all of the batches from the sequence into the buffer
Batch batch = sequence.nextBatch();
int batchSize = 0;
Object value = null;
while (batch != null && batchSize == 0) {
while (batch.hasNext()) {
batch.nextRow();
value = extractor.getValueInRow(batch);
if (value instanceof Object[]) {
// Put each of the values in the buffer ...
for (Object v : (Object[]) value) {
buffer.put(v, createRow(batch));
}
} else if (value != null) {
buffer.put(value, createRow(batch));
} else if (rowsWithNullKey != null) {
rowsWithNullKey.addIfAbsent(createRow(batch));
}
++batchSize;
}
batch = sequence.nextBatch();
}
while (batch != null) {
while (batch.hasNext()) {
batch.nextRow();
value = extractor.getValueInRow(batch);
if (value instanceof Object[]) {
// Put each of the values in the buffer ...
for (Object v : (Object[]) value) {
buffer.put(v, createRow(batch));
}
} else if (value != null) {
buffer.put(value, createRow(batch));
} else if (rowsWithNullKey != null) {
rowsWithNullKey.addIfAbsent(createRow(batch));
}
}
batch = sequence.nextBatch();
}
return batchSize;
}
