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    Guava is a suite of core and expanded libraries that include     utility classes, google's collections, io classes, and much     much more.       Guava has only one code dependency - javax.annotation,     per the JSR-305 spec.

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/*
 * 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.checkNotNull;

import com.google.common.annotations.GwtCompatible;

import java.util.Collections;
import java.util.Comparator;
import java.util.List;

import javax.annotation.Nullable;

/**
 * An implementation of {@link ImmutableTable} holding an arbitrary number of
 * cells.
 *
 * @author Gregory Kick
 */
@GwtCompatible
abstract class RegularImmutableTable extends ImmutableTable {
  RegularImmutableTable() {}
  
  abstract Cell getCell(int iterationIndex);
  
  @Override
  final ImmutableSet> createCellSet() {
    return isEmpty() ? ImmutableSet.>of() : new CellSet();
  }

  private final class CellSet extends ImmutableSet> {
    @Override
    public int size() {
      return RegularImmutableTable.this.size();
    }

    @Override
    public UnmodifiableIterator> iterator() {
      return asList().iterator();
    }

    @Override
    ImmutableList> createAsList() {
      return new ImmutableAsList>() {
        @Override
        public Cell get(int index) {
          return getCell(index);
        }

        @Override
        ImmutableCollection> delegateCollection() {
          return CellSet.this;
        }
      };
    }

    @Override
    public boolean contains(@Nullable Object object) {
      if (object instanceof Cell) {
        Cell cell = (Cell) object;
        Object value = 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();
  }
  
  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,
      @Nullable final Comparator rowComparator,
      @Nullable final Comparator 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 = new Comparator>() {
        @Override public int compare(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);
  }

  /**
   * A factory that chooses the most space-efficient representation of the
   * table.
   */
  private static final  RegularImmutableTable
      forCellsInternal(Iterable> cells,
          @Nullable Comparator rowComparator,
          @Nullable Comparator columnComparator) {
    ImmutableSet.Builder rowSpaceBuilder = ImmutableSet.builder();
    ImmutableSet.Builder columnSpaceBuilder = ImmutableSet.builder();
    ImmutableList> cellList = ImmutableList.copyOf(cells);
    for (Cell cell : cellList) {
      rowSpaceBuilder.add(cell.getRowKey());
      columnSpaceBuilder.add(cell.getColumnKey());
    }

    ImmutableSet rowSpace = rowSpaceBuilder.build();
    if (rowComparator != null) {
      List rowList = Lists.newArrayList(rowSpace);
      Collections.sort(rowList, rowComparator);
      rowSpace = ImmutableSet.copyOf(rowList);
    }
    ImmutableSet columnSpace = columnSpaceBuilder.build();
    if (columnComparator != null) {
      List columnList = Lists.newArrayList(columnSpace);
      Collections.sort(columnList, columnComparator);
      columnSpace = ImmutableSet.copyOf(columnList);
    }

    // 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);
  }
}




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