com.google.common.collect.RegularImmutableTable Maven / Gradle / Ivy
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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including
all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and
JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up
with different versions on classes on the class path).
/*
* Copyright (C) 2009 The Guava Authors
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License
* is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
* or implied. See the License for the specific language governing permissions and limitations under
* the License.
*/
package com.google.common.collect;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import com.google.common.annotations.GwtCompatible;
import com.google.j2objc.annotations.WeakOuter;
import java.util.Collections;
import java.util.Comparator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Set;
import javax.annotation.CheckForNull;
/**
* An implementation of {@link ImmutableTable} holding an arbitrary number of cells.
*
* @author Gregory Kick
*/
@GwtCompatible
@ElementTypesAreNonnullByDefault
abstract class RegularImmutableTable extends ImmutableTable {
RegularImmutableTable() {}
abstract Cell getCell(int iterationIndex);
@Override
final ImmutableSet> createCellSet() {
return isEmpty() ? ImmutableSet.>of() : new CellSet();
}
@WeakOuter
private final class CellSet extends IndexedImmutableSet> {
@Override
public int size() {
return RegularImmutableTable.this.size();
}
@Override
Cell get(int index) {
return getCell(index);
}
@Override
public boolean contains(@CheckForNull Object object) {
if (object instanceof Cell) {
Cell, ?, ?> cell = (Cell, ?, ?>) object;
Object value = RegularImmutableTable.this.get(cell.getRowKey(), cell.getColumnKey());
return value != null && value.equals(cell.getValue());
}
return false;
}
@Override
boolean isPartialView() {
return false;
}
}
abstract V getValue(int iterationIndex);
@Override
final ImmutableCollection createValues() {
return isEmpty() ? ImmutableList.of() : new Values();
}
@WeakOuter
private final class Values extends ImmutableList {
@Override
public int size() {
return RegularImmutableTable.this.size();
}
@Override
public V get(int index) {
return getValue(index);
}
@Override
boolean isPartialView() {
return true;
}
}
static RegularImmutableTable forCells(
List> cells,
@CheckForNull Comparator super R> rowComparator,
@CheckForNull Comparator super C> columnComparator) {
checkNotNull(cells);
if (rowComparator != null || columnComparator != null) {
/*
* This sorting logic leads to a cellSet() ordering that may not be expected and that isn't
* documented in the Javadoc. If a row Comparator is provided, cellSet() iterates across the
* columns in the first row, the columns in the second row, etc. If a column Comparator is
* provided but a row Comparator isn't, cellSet() iterates across the rows in the first
* column, the rows in the second column, etc.
*/
Comparator> comparator =
(Cell cell1, Cell cell2) -> {
int rowCompare =
(rowComparator == null)
? 0
: rowComparator.compare(cell1.getRowKey(), cell2.getRowKey());
if (rowCompare != 0) {
return rowCompare;
}
return (columnComparator == null)
? 0
: columnComparator.compare(cell1.getColumnKey(), cell2.getColumnKey());
};
Collections.sort(cells, comparator);
}
return forCellsInternal(cells, rowComparator, columnComparator);
}
static RegularImmutableTable forCells(Iterable> cells) {
return forCellsInternal(cells, null, null);
}
private static RegularImmutableTable forCellsInternal(
Iterable> cells,
@CheckForNull Comparator super R> rowComparator,
@CheckForNull Comparator super C> columnComparator) {
Set rowSpaceBuilder = new LinkedHashSet<>();
Set columnSpaceBuilder = new LinkedHashSet<>();
ImmutableList> cellList = ImmutableList.copyOf(cells);
for (Cell cell : cells) {
rowSpaceBuilder.add(cell.getRowKey());
columnSpaceBuilder.add(cell.getColumnKey());
}
ImmutableSet rowSpace =
(rowComparator == null)
? ImmutableSet.copyOf(rowSpaceBuilder)
: ImmutableSet.copyOf(ImmutableList.sortedCopyOf(rowComparator, rowSpaceBuilder));
ImmutableSet columnSpace =
(columnComparator == null)
? ImmutableSet.copyOf(columnSpaceBuilder)
: ImmutableSet.copyOf(ImmutableList.sortedCopyOf(columnComparator, columnSpaceBuilder));
return forOrderedComponents(cellList, rowSpace, columnSpace);
}
/** A factory that chooses the most space-efficient representation of the table. */
static RegularImmutableTable forOrderedComponents(
ImmutableList> cellList,
ImmutableSet rowSpace,
ImmutableSet columnSpace) {
// use a dense table if more than half of the cells have values
// TODO(gak): tune this condition based on empirical evidence
return (cellList.size() > (((long) rowSpace.size() * columnSpace.size()) / 2))
? new DenseImmutableTable(cellList, rowSpace, columnSpace)
: new SparseImmutableTable(cellList, rowSpace, columnSpace);
}
/** @throws IllegalArgumentException if {@code existingValue} is not null. */
/*
* We could have declared this method 'static' but the additional compile-time checks achieved by
* referencing the type variables seem worthwhile.
*/
final void checkNoDuplicate(R rowKey, C columnKey, @CheckForNull V existingValue, V newValue) {
checkArgument(
existingValue == null,
"Duplicate key: (row=%s, column=%s), values: [%s, %s].",
rowKey,
columnKey,
newValue,
existingValue);
}
}
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