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Engine Table: Implementation and closely-coupled utilities
/**
* Copyright (c) 2016-2022 Deephaven Data Labs and Patent Pending
*/
/* ---------------------------------------------------------------------------------------------------------------------
* AUTO-GENERATED CLASS - DO NOT EDIT MANUALLY - for any changes edit CharSsaSsaStamp and regenerate
* ------------------------------------------------------------------------------------------------------------------ */
package io.deephaven.engine.table.impl.ssa;
import io.deephaven.util.QueryConstants;
import io.deephaven.util.compare.CharComparisons;
import io.deephaven.chunk.*;
import io.deephaven.engine.rowset.chunkattributes.RowKeys;
import io.deephaven.chunk.attributes.Values;
import io.deephaven.chunk.sized.SizedLongChunk;
import io.deephaven.engine.rowset.RowSequence;
import io.deephaven.engine.table.impl.util.WritableRowRedirection;
import io.deephaven.engine.table.impl.util.RowRedirection;
import io.deephaven.engine.rowset.RowSetBuilderRandom;
/**
* Stamp kernel for when the left hand side is a sorted chunk and the right hand side is a ticking SegmentedSortedArray.
*/
public class NullAwareCharSsaSsaStamp implements SsaSsaStamp {
static NullAwareCharSsaSsaStamp INSTANCE = new NullAwareCharSsaSsaStamp();
private NullAwareCharSsaSsaStamp() {} // use the instance
@Override
public void processEntry(SegmentedSortedArray leftSsa, SegmentedSortedArray rightSsa, WritableRowRedirection rowRedirection, boolean disallowExactMatch) {
processEntry((NullAwareCharSegmentedSortedArray)leftSsa, (NullAwareCharSegmentedSortedArray)rightSsa, rowRedirection, disallowExactMatch);
}
private static void processEntry(NullAwareCharSegmentedSortedArray leftSsa, NullAwareCharSegmentedSortedArray rightSsa, WritableRowRedirection rowRedirection, boolean disallowExactMatch) {
final long rightSize = rightSsa.size();
if (rightSize == 0) {
fillWithNull(rowRedirection, leftSsa.iterator(disallowExactMatch, false));
return;
}
final NullAwareCharSegmentedSortedArray.Iterator rightIt = rightSsa.iterator(disallowExactMatch, true);
final NullAwareCharSegmentedSortedArray.Iterator leftIt = leftSsa.iterator(disallowExactMatch, false);
while (leftIt.hasNext()) {
leftIt.next();
final char leftValue = leftIt.getValue();
final int comparison = doComparison(leftValue, rightIt.getValue());
if (disallowExactMatch ? comparison <= 0 : comparison < 0) {
rowRedirection.removeVoid(leftIt.getKey());
continue;
}
else if (comparison == 0) {
rowRedirection.putVoid(leftIt.getKey(), rightIt.getKey());
continue;
}
rightIt.advanceToLast(leftValue);
final long redirectionKey = rightIt.getKey();
if (!rightIt.hasNext()) {
rowRedirection.put(leftIt.getKey(), redirectionKey);
fillWithValue(rowRedirection, leftIt, redirectionKey);
return;
} else {
rowRedirection.putVoid(leftIt.getKey(), redirectionKey);
final char nextRightValue = rightIt.nextValue();
while (leftIt.hasNext() && (disallowExactMatch ? leq(leftIt.nextValue(), nextRightValue) : lt(leftIt.nextValue(), nextRightValue))) {
leftIt.next();
rowRedirection.put(leftIt.getKey(), redirectionKey);
}
}
}
}
private static void fillWithNull(WritableRowRedirection rowRedirection, NullAwareCharSegmentedSortedArray.Iterator leftIt) {
while (leftIt.hasNext()) {
leftIt.next();
rowRedirection.removeVoid(leftIt.getKey());
}
}
private static void fillWithValue(WritableRowRedirection rowRedirection, NullAwareCharSegmentedSortedArray.Iterator leftIt, long rightKey) {
while (leftIt.hasNext()) {
leftIt.next();
rowRedirection.putVoid(leftIt.getKey(), rightKey);
}
}
@Override
public void processRemovals(SegmentedSortedArray leftSsa, Chunk extends Values> rightStampChunk, LongChunk rightKeys, WritableLongChunk priorRedirections, WritableRowRedirection rowRedirection, RowSetBuilderRandom modifiedBuilder, boolean disallowExactMatch) {
processRemovals((NullAwareCharSegmentedSortedArray)leftSsa, rightStampChunk.asCharChunk(), rightKeys, priorRedirections, rowRedirection, modifiedBuilder, disallowExactMatch);
}
static private void processRemovals(NullAwareCharSegmentedSortedArray leftSsa, CharChunk extends Values> rightStampChunk, LongChunk rightKeys, WritableLongChunk nextRedirections, WritableRowRedirection rowRedirection, RowSetBuilderRandom modifiedBuilder, boolean disallowExactMatch) {
// When removing a row, record the stamp, redirection key, and prior redirection key. Binary search
// in the left for the removed key to find the smallest value geq the removed right. Update all rows
// with the removed redirection to the previous key.
final NullAwareCharSegmentedSortedArray.Iterator leftIt = leftSsa.iterator(disallowExactMatch, false);
try (final SizedLongChunk modifiedKeys = new SizedLongChunk<>()) {
int capacity = rightStampChunk.size();
modifiedKeys.ensureCapacity(capacity).setSize(capacity);
int mks = 0;
for (int ii = 0; ii < rightStampChunk.size(); ++ii) {
final char rightStampValue = rightStampChunk.get(ii);
final long rightStampKey = rightKeys.get(ii);
final long newRightStampKey = nextRedirections.get(ii);
leftIt.advanceToBeforeFirst(rightStampValue);
while (leftIt.hasNext()) {
final long leftKey = leftIt.nextKey();
final long leftRedirectionKey = rowRedirection.get(leftKey);
if (leftRedirectionKey == rightStampKey) {
if (mks == capacity) {
capacity *= 2;
modifiedKeys.ensureCapacityPreserve(capacity).setSize(capacity);
}
modifiedKeys.get().set(mks++, leftKey);
if (newRightStampKey == RowSequence.NULL_ROW_KEY) {
rowRedirection.removeVoid(leftKey);
} else {
rowRedirection.putVoid(leftKey, newRightStampKey);
}
leftIt.next();
} else {
break;
}
}
}
if (mks > 0) {
modifiedKeys.get().setSize(mks);
modifiedKeys.get().sort();
modifiedBuilder.addOrderedRowKeysChunk(WritableLongChunk.downcast(modifiedKeys.get()));
}
}
}
@Override
public void processInsertion(SegmentedSortedArray leftSsa, Chunk extends Values> rightStampChunk, LongChunk rightKeys, Chunk nextRightValue, WritableRowRedirection rowRedirection, RowSetBuilderRandom modifiedBuilder, boolean endsWithLastValue, boolean disallowExactMatch) {
processInsertion((NullAwareCharSegmentedSortedArray)leftSsa, rightStampChunk.asCharChunk(), rightKeys, nextRightValue.asCharChunk(), rowRedirection, modifiedBuilder, endsWithLastValue, disallowExactMatch);
}
static private void processInsertion(NullAwareCharSegmentedSortedArray leftSsa, CharChunk extends Values> rightStampChunk, LongChunk rightKeys, CharChunk nextRightValue, WritableRowRedirection rowRedirection, RowSetBuilderRandom modifiedBuilder, boolean endsWithLastValue, boolean disallowExactMatch) {
// We've already filtered out duplicate right stamps by the time we get here, which means that the rightStampChunk
// contains only values that are the last in any given run; and thus are possible matches.
// We binary search in the left for the first value >=, everything up until the next extant right value (contained
// in the nextRightValue chunk) should be re-stamped with our value
final NullAwareCharSegmentedSortedArray.Iterator leftIt = leftSsa.iterator(disallowExactMatch, false);
try (final SizedLongChunk modifiedKeys = new SizedLongChunk<>()) {
int capacity = rightStampChunk.size();
modifiedKeys.ensureCapacity(capacity).setSize(capacity);
int mks = 0;
for (int ii = 0; ii < rightStampChunk.size(); ++ii) {
final char rightStampValue = rightStampChunk.get(ii);
leftIt.advanceToBeforeFirst(rightStampValue);
final long rightStampKey = rightKeys.get(ii);
if (ii == rightStampChunk.size() - 1 && endsWithLastValue) {
while (leftIt.hasNext()) {
leftIt.next();
final long leftKey = leftIt.getKey();
rowRedirection.putVoid(leftKey, rightStampKey);
if (mks == capacity) {
capacity *= 2;
modifiedKeys.ensureCapacityPreserve(capacity).setSize(capacity);
}
modifiedKeys.get().set(mks++, leftKey);
}
} else {
final char nextRight = nextRightValue.get(ii);
while (leftIt.hasNext()) {
final char leftValue = leftIt.nextValue();
if (disallowExactMatch ? leq(leftValue, nextRight) : lt(leftValue, nextRight)) {
final long leftKey = leftIt.nextKey();
rowRedirection.putVoid(leftKey, rightStampKey);
if (mks == capacity) {
capacity *= 2;
modifiedKeys.ensureCapacityPreserve(capacity).setSize(capacity);
}
modifiedKeys.get().set(mks++, leftKey);
leftIt.next();
} else {
break;
}
}
}
}
if (mks > 0) {
modifiedKeys.get().setSize(mks);
modifiedKeys.get().sort();
modifiedBuilder.addOrderedRowKeysChunk(WritableLongChunk.downcast(modifiedKeys.get()));
}
}
}
@Override
public void findModified(SegmentedSortedArray leftSsa, RowRedirection rowRedirection, Chunk extends Values> rightStampChunk, LongChunk rightStampIndices, RowSetBuilderRandom modifiedBuilder, boolean disallowExactMatch) {
findModified((NullAwareCharSegmentedSortedArray)leftSsa, rowRedirection, rightStampChunk.asCharChunk(), rightStampIndices, modifiedBuilder, disallowExactMatch);
}
private static void findModified(NullAwareCharSegmentedSortedArray leftSsa, RowRedirection rowRedirection, CharChunk extends Values> rightStampChunk, LongChunk rightStampIndices, RowSetBuilderRandom modifiedBuilder, boolean disallowExactMatch) {
final NullAwareCharSegmentedSortedArray.Iterator leftIt = leftSsa.iterator(disallowExactMatch, false);
try (final SizedLongChunk modifiedKeys = new SizedLongChunk<>()) {
int capacity = rightStampChunk.size();
modifiedKeys.ensureCapacity(capacity).setSize(capacity);
int mks = 0;
for (int ii = 0; ii < rightStampChunk.size(); ++ii) {
final char rightStampValue = rightStampChunk.get(ii);
// now find the lowest left value leq (lt) than rightStampValue
leftIt.advanceToBeforeFirst(rightStampValue);
final long rightStampKey = rightStampIndices.get(ii);
while (leftIt.hasNext() && rowRedirection.get(leftIt.nextKey()) == rightStampKey) {
leftIt.next();
if (mks == capacity) {
capacity *= 2;
modifiedKeys.ensureCapacityPreserve(capacity).setSize(capacity);
}
modifiedKeys.get().set(mks++, leftIt.getKey());
}
}
if (mks > 0) {
modifiedKeys.get().setSize(mks);
modifiedKeys.get().sort();
modifiedBuilder.addOrderedRowKeysChunk(WritableLongChunk.downcast(modifiedKeys.get()));
}
}
}
@Override
public void applyShift(SegmentedSortedArray leftSsa, Chunk extends Values> rightStampChunk, LongChunk rightStampKeys, long shiftDelta, WritableRowRedirection rowRedirection, boolean disallowExactMatch) {
applyShift((NullAwareCharSegmentedSortedArray)leftSsa, rightStampChunk.asCharChunk(), rightStampKeys, shiftDelta, rowRedirection, disallowExactMatch);
}
private void applyShift(NullAwareCharSegmentedSortedArray leftSsa, CharChunk extends Values> rightStampChunk, LongChunk rightStampKeys, long shiftDelta, WritableRowRedirection rowRedirection, boolean disallowExactMatch) {
final NullAwareCharSegmentedSortedArray.Iterator leftIt = leftSsa.iterator(disallowExactMatch, false);
for (int ii = 0; ii < rightStampChunk.size(); ++ii) {
final char rightStampValue = rightStampChunk.get(ii);
leftIt.advanceToBeforeFirst(rightStampValue);
final long rightStampKey = rightStampKeys.get(ii);
while (leftIt.hasNext() && rowRedirection.get(leftIt.nextKey()) == rightStampKey) {
leftIt.next();
rowRedirection.putVoid(leftIt.getKey(), rightStampKey + shiftDelta);
}
}
}
// region comparison functions
private static int doComparison(char lhs, char rhs) {
return CharComparisons.compare(lhs, rhs);
}
// endregion comparison functions
private static boolean lt(char lhs, char rhs) {
return doComparison(lhs, rhs) < 0;
}
private static boolean leq(char lhs, char rhs) {
return doComparison(lhs, rhs) <= 0;
}
}
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