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/*
 * Copyright (C) 2016 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 static com.google.common.collect.CollectPreconditions.checkNonnegative;

import com.google.common.annotations.GwtCompatible;
import java.util.Comparator;
import java.util.Iterator;
import java.util.List;
import java.util.Optional;
import java.util.stream.Collector;
import org.checkerframework.checker.nullness.qual.Nullable;

/**
 * Provides static methods for working with {@link Comparator} instances. For many other helpful
 * comparator utilities, see either {@code Comparator} itself (for Java 8+), or {@code
 * com.google.common.collect.Ordering} (otherwise).
 *
 * 

Relationship to {@code Ordering}

* *

In light of the significant enhancements to {@code Comparator} in Java 8, the overwhelming * majority of usages of {@code Ordering} can be written using only built-in JDK APIs. This class is * intended to "fill the gap" and provide those features of {@code Ordering} not already provided by * the JDK. * * @since 21.0 * @author Louis Wasserman */ @GwtCompatible @ElementTypesAreNonnullByDefault public final class Comparators { private Comparators() {} /** * Returns a new comparator which sorts iterables by comparing corresponding elements pairwise * until a nonzero result is found; imposes "dictionary order." If the end of one iterable is * reached, but not the other, the shorter iterable is considered to be less than the longer one. * For example, a lexicographical natural ordering over integers considers {@code [] < [1] < [1, * 1] < [1, 2] < [2]}. * *

Note that {@code Collections.reverseOrder(lexicographical(comparator))} is not equivalent to * {@code lexicographical(Collections.reverseOrder(comparator))} (consider how each would order * {@code [1]} and {@code [1, 1]}). */ // Note: 90% of the time we don't add type parameters or wildcards that serve only to "tweak" the // desired return type. However, *nested* generics introduce a special class of problems that we // think tip it over into being worthwhile. public static Comparator> lexicographical( Comparator comparator) { return new LexicographicalOrdering(checkNotNull(comparator)); } /** * Returns {@code true} if each element in {@code iterable} after the first is greater than or * equal to the element that preceded it, according to the specified comparator. Note that this is * always true when the iterable has fewer than two elements. */ public static boolean isInOrder( Iterable iterable, Comparator comparator) { checkNotNull(comparator); Iterator it = iterable.iterator(); if (it.hasNext()) { T prev = it.next(); while (it.hasNext()) { T next = it.next(); if (comparator.compare(prev, next) > 0) { return false; } prev = next; } } return true; } /** * Returns {@code true} if each element in {@code iterable} after the first is strictly * greater than the element that preceded it, according to the specified comparator. Note that * this is always true when the iterable has fewer than two elements. */ public static boolean isInStrictOrder( Iterable iterable, Comparator comparator) { checkNotNull(comparator); Iterator it = iterable.iterator(); if (it.hasNext()) { T prev = it.next(); while (it.hasNext()) { T next = it.next(); if (comparator.compare(prev, next) >= 0) { return false; } prev = next; } } return true; } /** * Returns a {@code Collector} that returns the {@code k} smallest (relative to the specified * {@code Comparator}) input elements, in ascending order, as an unmodifiable {@code List}. Ties * are broken arbitrarily. * *

For example: * *

{@code
   * Stream.of("foo", "quux", "banana", "elephant")
   *     .collect(least(2, comparingInt(String::length)))
   * // returns {"foo", "quux"}
   * }
* *

This {@code Collector} uses O(k) memory and takes expected time O(n) (worst-case O(n log * k)), as opposed to e.g. {@code Stream.sorted(comparator).limit(k)}, which currently takes O(n * log n) time and O(n) space. * * @throws IllegalArgumentException if {@code k < 0} * @since 22.0 */ public static Collector> least( int k, Comparator comparator) { checkNonnegative(k, "k"); checkNotNull(comparator); return Collector.of( () -> TopKSelector.least(k, comparator), TopKSelector::offer, TopKSelector::combine, TopKSelector::topK, Collector.Characteristics.UNORDERED); } /** * Returns a {@code Collector} that returns the {@code k} greatest (relative to the specified * {@code Comparator}) input elements, in descending order, as an unmodifiable {@code List}. Ties * are broken arbitrarily. * *

For example: * *

{@code
   * Stream.of("foo", "quux", "banana", "elephant")
   *     .collect(greatest(2, comparingInt(String::length)))
   * // returns {"elephant", "banana"}
   * }
* *

This {@code Collector} uses O(k) memory and takes expected time O(n) (worst-case O(n log * k)), as opposed to e.g. {@code Stream.sorted(comparator.reversed()).limit(k)}, which currently * takes O(n log n) time and O(n) space. * * @throws IllegalArgumentException if {@code k < 0} * @since 22.0 */ public static Collector> greatest( int k, Comparator comparator) { return least(k, comparator.reversed()); } /** * Returns a comparator of {@link Optional} values which treats {@link Optional#empty} as less * than all other values, and orders the rest using {@code valueComparator} on the contained * value. * * @since 22.0 */ public static Comparator> emptiesFirst(Comparator valueComparator) { checkNotNull(valueComparator); return Comparator., @Nullable T>comparing( o -> o.orElse(null), Comparator.nullsFirst(valueComparator)); } /** * Returns a comparator of {@link Optional} values which treats {@link Optional#empty} as greater * than all other values, and orders the rest using {@code valueComparator} on the contained * value. * * @since 22.0 */ public static Comparator> emptiesLast(Comparator valueComparator) { checkNotNull(valueComparator); return Comparator., @Nullable T>comparing( o -> o.orElse(null), Comparator.nullsLast(valueComparator)); } /** * Returns the minimum of the two values. If the values compare as 0, the first is returned. * *

The recommended solution for finding the {@code minimum} of some values depends on the type * of your data and the number of elements you have. Read more in the Guava User Guide article on * {@code * Comparators}. * * @param a first value to compare, returned if less than or equal to b. * @param b second value to compare. * @throws ClassCastException if the parameters are not mutually comparable. * @since 30.0 */ public static > T min(T a, T b) { return (a.compareTo(b) <= 0) ? a : b; } /** * Returns the minimum of the two values, according to the given comparator. If the values compare * as equal, the first is returned. * *

The recommended solution for finding the {@code minimum} of some values depends on the type * of your data and the number of elements you have. Read more in the Guava User Guide article on * {@code * Comparators}. * * @param a first value to compare, returned if less than or equal to b * @param b second value to compare. * @throws ClassCastException if the parameters are not mutually comparable using the given * comparator. * @since 30.0 */ @ParametricNullness public static T min( @ParametricNullness T a, @ParametricNullness T b, Comparator comparator) { return (comparator.compare(a, b) <= 0) ? a : b; } /** * Returns the maximum of the two values. If the values compare as 0, the first is returned. * *

The recommended solution for finding the {@code maximum} of some values depends on the type * of your data and the number of elements you have. Read more in the Guava User Guide article on * {@code * Comparators}. * * @param a first value to compare, returned if greater than or equal to b. * @param b second value to compare. * @throws ClassCastException if the parameters are not mutually comparable. * @since 30.0 */ public static > T max(T a, T b) { return (a.compareTo(b) >= 0) ? a : b; } /** * Returns the maximum of the two values, according to the given comparator. If the values compare * as equal, the first is returned. * *

The recommended solution for finding the {@code maximum} of some values depends on the type * of your data and the number of elements you have. Read more in the Guava User Guide article on * {@code * Comparators}. * * @param a first value to compare, returned if greater than or equal to b. * @param b second value to compare. * @throws ClassCastException if the parameters are not mutually comparable using the given * comparator. * @since 30.0 */ @ParametricNullness public static T max( @ParametricNullness T a, @ParametricNullness T b, Comparator comparator) { return (comparator.compare(a, b) >= 0) ? a : b; } }





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