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/*
* Copyright (C) 2010 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.
*/
/*
* Portions Copyright (c) Microsoft Corporation
*/
package com.azure.cosmos.implementation.guava25.base;
import static com.azure.cosmos.implementation.guava25.base.Preconditions.checkNotNull;
import java.io.Serializable;
import java.util.function.BiPredicate;
/**
* A strategy for determining whether two instances are considered equivalent, and for computing
* hash codes in a manner consistent with that equivalence. Two examples of equivalences are the
* {@linkplain #identity() identity equivalence} and the {@linkplain #equals "equals" equivalence}.
*
* @author Bob Lee
* @author Ben Yu
* @author Gregory Kick
* @since 10.0 (mostly
* source-compatible since 4.0)
*/
public abstract class Equivalence implements BiPredicate {
/** Constructor for use by subclasses. */
protected Equivalence() {}
/**
* Returns {@code true} if the given objects are considered equivalent.
*
* This method describes an equivalence relation on object references, meaning that for
* all references {@code x}, {@code y}, and {@code z} (any of which may be null):
*
*
* - {@code equivalent(x, x)} is true (reflexive property)
*
- {@code equivalent(x, y)} and {@code equivalent(y, x)} each return the same result
* (symmetric property)
*
- If {@code equivalent(x, y)} and {@code equivalent(y, z)} are both true, then {@code
* equivalent(x, z)} is also true (transitive property)
*
*
* Note that all calls to {@code equivalent(x, y)} are expected to return the same result as
* long as neither {@code x} nor {@code y} is modified.
*/
public final boolean equivalent(T a, T b) {
if (a == b) {
return true;
}
if (a == null || b == null) {
return false;
}
return doEquivalent(a, b);
}
/**
* @deprecated Provided only to satisfy the {@link BiPredicate} interface; use {@link #equivalent}
* instead.
* @since 21.0
*/
@Deprecated
@Override
public final boolean test(T t, T u) {
return equivalent(t, u);
}
/**
* Implemented by the user to determine whether {@code a} and {@code b} are considered equivalent,
* subject to the requirements specified in {@link #equivalent}.
*
*
This method should not be called except by {@link #equivalent}. When {@link #equivalent}
* calls this method, {@code a} and {@code b} are guaranteed to be distinct, non-null instances.
*
* @since 10.0 (previously, subclasses would override equivalent())
*/
protected abstract boolean doEquivalent(T a, T b);
/**
* Returns a hash code for {@code t}.
*
*
The {@code hash} has the following properties:
*
*
* - It is consistent: for any reference {@code x}, multiple invocations of {@code
* hash(x}} consistently return the same value provided {@code x} remains unchanged
* according to the definition of the equivalence. The hash need not remain consistent from
* one execution of an application to another execution of the same application.
*
- It is distributable across equivalence: for any references {@code x} and {@code
* y}, if {@code equivalent(x, y)}, then {@code hash(x) == hash(y)}. It is not
* necessary that the hash be distributable across inequivalence. If {@code
* equivalence(x, y)} is false, {@code hash(x) == hash(y)} may still be true.
*
- {@code hash(null)} is {@code 0}.
*
*/
public final int hash(T t) {
if (t == null) {
return 0;
}
return doHash(t);
}
/**
* Implemented by the user to return a hash code for {@code t}, subject to the requirements
* specified in {@link #hash}.
*
* This method should not be called except by {@link #hash}. When {@link #hash} calls this
* method, {@code t} is guaranteed to be non-null.
*
* @since 10.0 (previously, subclasses would override hash())
*/
protected abstract int doHash(T t);
/**
* Returns a new equivalence relation for {@code F} which evaluates equivalence by first applying
* {@code function} to the argument, then evaluating using {@code this}. That is, for any pair of
* non-null objects {@code x} and {@code y}, {@code equivalence.onResultOf(function).equivalent(a,
* b)} is true if and only if {@code equivalence.equivalent(function.apply(a), function.apply(b))}
* is true.
*
*
For example:
*
*
{@code
* Equivalence SAME_AGE = Equivalence.equals().onResultOf(GET_PERSON_AGE);
* }
*
* {@code function} will never be invoked with a null value.
*
*
Note that {@code function} must be consistent according to {@code this} equivalence
* relation. That is, invoking {@link Function#apply} multiple times for a given value must return
* equivalent results. For example, {@code
* Equivalence.identity().onResultOf(Functions.toStringFunction())} is broken because it's not
* guaranteed that {@link Object#toString}) always returns the same string instance.
*
* @since 10.0
*/
public final Equivalence onResultOf(Function function) {
return new FunctionalEquivalence<>(function, this);
}
/**
* Returns a wrapper of {@code reference} that implements {@link Wrapper#equals(Object)
* Object.equals()} such that {@code wrap(a).equals(wrap(b))} if and only if {@code equivalent(a,
* b)}.
*
* @since 10.0
*/
public final Wrapper wrap(S reference) {
return new Wrapper(this, reference);
}
/**
* Wraps an object so that {@link #equals(Object)} and {@link #hashCode()} delegate to an {@link
* Equivalence}.
*
* For example, given an {@link Equivalence} for {@link String strings} named {@code equiv}
* that tests equivalence using their lengths:
*
*
{@code
* equiv.wrap("a").equals(equiv.wrap("b")) // true
* equiv.wrap("a").equals(equiv.wrap("hello")) // false
* }
*
* Note in particular that an equivalence wrapper is never equal to the object it wraps.
*
*
{@code
* equiv.wrap(obj).equals(obj) // always false
* }
*
* @since 10.0
*/
public static final class Wrapper implements Serializable {
private final Equivalence equivalence;
private final T reference;
private Wrapper(Equivalence equivalence, T reference) {
this.equivalence = checkNotNull(equivalence);
this.reference = reference;
}
/** Returns the (possibly null) reference wrapped by this instance. */
public T get() {
return reference;
}
/**
* Returns {@code true} if {@link Equivalence#equivalent(Object, Object)} applied to the wrapped
* references is {@code true} and both wrappers use the {@link Object#equals(Object) same}
* equivalence.
*/
@Override
public boolean equals(Object obj) {
if (obj == this) {
return true;
}
if (obj instanceof Wrapper) {
Wrapper that = (Wrapper) obj; // note: not necessarily a Wrapper
if (this.equivalence.equals(that.equivalence)) {
/*
* We'll accept that as sufficient "proof" that either equivalence should be able to
* handle either reference, so it's safe to circumvent compile-time type checking.
*/
@SuppressWarnings("unchecked")
Equivalence