use of org.apache.hyracks.storage.am.lsm.rtree.tuples.LSMRTreeCopyTupleWriterFactory in project asterixdb by apache.
the class LSMRTreeUtils method createLSMTreeWithAntiMatterTuples.
public static LSMRTreeWithAntiMatterTuples createLSMTreeWithAntiMatterTuples(IIOManager ioManager, List<IVirtualBufferCache> virtualBufferCaches, FileReference file, IBufferCache diskBufferCache, IFileMapProvider diskFileMapProvider, ITypeTraits[] typeTraits, IBinaryComparatorFactory[] rtreeCmpFactories, IBinaryComparatorFactory[] btreeComparatorFactories, IPrimitiveValueProviderFactory[] valueProviderFactories, RTreePolicyType rtreePolicyType, ILSMMergePolicy mergePolicy, ILSMOperationTracker opTracker, ILSMIOOperationScheduler ioScheduler, ILSMIOOperationCallback ioOpCallback, ILinearizeComparatorFactory linearizerCmpFactory, int[] rtreeFields, ITypeTraits[] filterTypeTraits, IBinaryComparatorFactory[] filterCmpFactories, int[] filterFields, boolean durable, boolean isPointMBR, IMetadataPageManagerFactory freePageManagerFactory) throws HyracksDataException {
ITreeIndexTupleWriterFactory rtreeInteriorFrameTupleWriterFactory = new LSMRTreeTupleWriterFactory(typeTraits, false);
ITreeIndexTupleWriterFactory rtreeLeafFrameTupleWriterFactory;
ITreeIndexTupleWriterFactory rtreeLeafFrameCopyTupleWriterFactory;
ITreeIndexTupleWriterFactory rtreeLeafFrameBulkLoadWriterFactory;
if (isPointMBR) {
int keyFieldCount = rtreeCmpFactories.length;
int valueFieldCount = btreeComparatorFactories.length - keyFieldCount;
rtreeLeafFrameTupleWriterFactory = new LSMRTreeTupleWriterFactoryForPointMBR(typeTraits, keyFieldCount, valueFieldCount, true, false);
rtreeLeafFrameCopyTupleWriterFactory = new LSMRTreeTupleWriterFactoryForPointMBR(typeTraits, keyFieldCount, valueFieldCount, true, false);
rtreeLeafFrameBulkLoadWriterFactory = new LSMRTreeTupleWriterFactoryForPointMBR(typeTraits, keyFieldCount, valueFieldCount, true, false);
} else {
rtreeLeafFrameTupleWriterFactory = new LSMRTreeTupleWriterFactory(typeTraits, false);
rtreeLeafFrameCopyTupleWriterFactory = new LSMRTreeCopyTupleWriterFactory(typeTraits);
rtreeLeafFrameBulkLoadWriterFactory = new LSMRTreeTupleWriterFactory(typeTraits, false);
}
LSMRTreeTupleWriterFactory btreeTupleWriterFactory = new LSMRTreeTupleWriterFactory(typeTraits, true);
ITreeIndexFrameFactory rtreeInteriorFrameFactory = new RTreeNSMInteriorFrameFactory(rtreeInteriorFrameTupleWriterFactory, valueProviderFactories, rtreePolicyType, isPointMBR);
ITreeIndexFrameFactory rtreeLeafFrameFactory = new RTreeNSMLeafFrameFactory(rtreeLeafFrameTupleWriterFactory, valueProviderFactories, rtreePolicyType, isPointMBR);
ITreeIndexFrameFactory rtreeLeafFrameBulkLoadFactory = new RTreeNSMLeafFrameFactory(rtreeLeafFrameBulkLoadWriterFactory, valueProviderFactories, rtreePolicyType, isPointMBR);
ITreeIndexFrameFactory btreeInteriorFrameFactory = new BTreeNSMInteriorFrameFactory(btreeTupleWriterFactory);
ITreeIndexFrameFactory btreeLeafFrameFactory = new BTreeNSMLeafFrameFactory(btreeTupleWriterFactory);
ITreeIndexFrameFactory copyTupleLeafFrameFactory = new RTreeNSMLeafFrameFactory(rtreeLeafFrameCopyTupleWriterFactory, valueProviderFactories, rtreePolicyType, isPointMBR);
TreeIndexFactory<RTree> diskRTreeFactory = new RTreeFactory(ioManager, diskBufferCache, diskFileMapProvider, freePageManagerFactory, rtreeInteriorFrameFactory, copyTupleLeafFrameFactory, rtreeCmpFactories, typeTraits.length, isPointMBR);
TreeIndexFactory<RTree> bulkLoadRTreeFactory = new RTreeFactory(ioManager, diskBufferCache, diskFileMapProvider, freePageManagerFactory, rtreeInteriorFrameFactory, rtreeLeafFrameBulkLoadFactory, rtreeCmpFactories, typeTraits.length, isPointMBR);
// The first field is for the sorted curve (e.g. Hilbert curve), and the
// second field is for the primary key.
int[] comparatorFields = new int[btreeComparatorFactories.length - rtreeCmpFactories.length + 1];
IBinaryComparatorFactory[] linearizerArray = new IBinaryComparatorFactory[btreeComparatorFactories.length - rtreeCmpFactories.length + 1];
comparatorFields[0] = 0;
for (int i = 1; i < comparatorFields.length; i++) {
comparatorFields[i] = rtreeCmpFactories.length - 1 + i;
}
linearizerArray[0] = linearizerCmpFactory;
int j = 1;
for (int i = rtreeCmpFactories.length; i < btreeComparatorFactories.length; i++) {
linearizerArray[j] = btreeComparatorFactories[i];
j++;
}
ComponentFilterHelper filterHelper = null;
LSMComponentFilterFrameFactory filterFrameFactory = null;
LSMComponentFilterManager filterManager = null;
if (filterCmpFactories != null) {
TypeAwareTupleWriterFactory filterTupleWriterFactory = new TypeAwareTupleWriterFactory(filterTypeTraits);
filterHelper = new ComponentFilterHelper(filterTupleWriterFactory, filterCmpFactories);
filterFrameFactory = new LSMComponentFilterFrameFactory(filterTupleWriterFactory);
filterManager = new LSMComponentFilterManager(filterFrameFactory);
}
ILSMIndexFileManager fileNameManager = new LSMRTreeWithAntiMatterTuplesFileManager(ioManager, diskFileMapProvider, file, diskRTreeFactory);
return new LSMRTreeWithAntiMatterTuples(ioManager, virtualBufferCaches, rtreeInteriorFrameFactory, rtreeLeafFrameFactory, btreeInteriorFrameFactory, btreeLeafFrameFactory, fileNameManager, diskRTreeFactory, bulkLoadRTreeFactory, filterHelper, filterFrameFactory, filterManager, diskFileMapProvider, typeTraits.length, rtreeCmpFactories, btreeComparatorFactories, linearizerCmpFactory, comparatorFields, linearizerArray, mergePolicy, opTracker, ioScheduler, ioOpCallback, rtreeFields, filterFields, durable, isPointMBR);
}
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