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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc.  All rights reserved.
// https://developers.google.com/protocol-buffers/
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package com.google.protobuf;

import java.util.Collections;
import java.util.HashMap;
import java.util.Map;

/**
 * Equivalent to {@link ExtensionRegistry} but supports only "lite" types.
 * 

* If all of your types are lite types, then you only need to use * {@code ExtensionRegistryLite}. Similarly, if all your types are regular * types, then you only need {@link ExtensionRegistry}. Typically it does not * make sense to mix the two, since if you have any regular types in your * program, you then require the full runtime and lose all the benefits of * the lite runtime, so you might as well make all your types be regular types. * However, in some cases (e.g. when depending on multiple third-party libraries * where one uses lite types and one uses regular), you may find yourself * wanting to mix the two. In this case things get more complicated. *

* There are three factors to consider: Whether the type being extended is * lite, whether the embedded type (in the case of a message-typed extension) * is lite, and whether the extension itself is lite. Since all three are * declared in different files, they could all be different. Here are all * the combinations and which type of registry to use: *

 *   Extended type     Inner type    Extension         Use registry
 *   =======================================================================
 *   lite              lite          lite              ExtensionRegistryLite
 *   lite              regular       lite              ExtensionRegistry
 *   regular           regular       regular           ExtensionRegistry
 *   all other combinations                            not supported
 * 
*

* Note that just as regular types are not allowed to contain lite-type fields, * they are also not allowed to contain lite-type extensions. This is because * regular types must be fully accessible via reflection, which in turn means * that all the inner messages must also support reflection. On the other hand, * since regular types implement the entire lite interface, there is no problem * with embedding regular types inside lite types. * * @author [email protected] Kenton Varda */ public class ExtensionRegistryLite { // Set true to enable lazy parsing feature for MessageSet. // // TODO(xiangl): Now we use a global flag to control whether enable lazy // parsing feature for MessageSet, which may be too crude for some // applications. Need to support this feature on smaller granularity. private static volatile boolean eagerlyParseMessageSets = false; // Visible for testing. static final String EXTENSION_CLASS_NAME = "com.google.protobuf.Extension"; /* @Nullable */ static Class resolveExtensionClass() { try { return Class.forName(EXTENSION_CLASS_NAME); } catch (ClassNotFoundException e) { // See comment in ExtensionRegistryFactory on the potential expense of this. return null; } } /* @Nullable */ private static final Class extensionClass = resolveExtensionClass(); public static boolean isEagerlyParseMessageSets() { return eagerlyParseMessageSets; } public static void setEagerlyParseMessageSets(boolean isEagerlyParse) { eagerlyParseMessageSets = isEagerlyParse; } /** * Construct a new, empty instance. * *

* This may be an {@code ExtensionRegistry} if the full (non-Lite) proto libraries are available. */ public static ExtensionRegistryLite newInstance() { return ExtensionRegistryFactory.create(); } /** * Get the unmodifiable singleton empty instance of either ExtensionRegistryLite or * {@code ExtensionRegistry} (if the full (non-Lite) proto libraries are available). */ public static ExtensionRegistryLite getEmptyRegistry() { return ExtensionRegistryFactory.createEmpty(); } /** Returns an unmodifiable view of the registry. */ public ExtensionRegistryLite getUnmodifiable() { return new ExtensionRegistryLite(this); } /** * Find an extension by containing type and field number. * * @return Information about the extension if found, or {@code null} * otherwise. */ @SuppressWarnings("unchecked") public GeneratedMessageLite.GeneratedExtension findLiteExtensionByNumber( final ContainingType containingTypeDefaultInstance, final int fieldNumber) { return (GeneratedMessageLite.GeneratedExtension) extensionsByNumber.get( new ObjectIntPair(containingTypeDefaultInstance, fieldNumber)); } /** Add an extension from a lite generated file to the registry. */ public final void add( final GeneratedMessageLite.GeneratedExtension extension) { extensionsByNumber.put( new ObjectIntPair(extension.getContainingTypeDefaultInstance(), extension.getNumber()), extension); } /** * Add an extension from a lite generated file to the registry only if it is * a non-lite extension i.e. {@link GeneratedMessageLite.GeneratedExtension}. */ public final void add(ExtensionLite extension) { if (GeneratedMessageLite.GeneratedExtension.class.isAssignableFrom(extension.getClass())) { add((GeneratedMessageLite.GeneratedExtension) extension); } if (ExtensionRegistryFactory.isFullRegistry(this)) { try { this.getClass().getMethod("add", extensionClass).invoke(this, extension); } catch (Exception e) { throw new IllegalArgumentException( String.format("Could not invoke ExtensionRegistry#add for %s", extension), e); } } } // ================================================================= // Private stuff. // Constructors are package-private so that ExtensionRegistry can subclass // this. ExtensionRegistryLite() { this.extensionsByNumber = new HashMap>(); } static final ExtensionRegistryLite EMPTY_REGISTRY_LITE = new ExtensionRegistryLite(true); ExtensionRegistryLite(ExtensionRegistryLite other) { if (other == EMPTY_REGISTRY_LITE) { this.extensionsByNumber = Collections.emptyMap(); } else { this.extensionsByNumber = Collections.unmodifiableMap(other.extensionsByNumber); } } private final Map> extensionsByNumber; ExtensionRegistryLite(boolean empty) { this.extensionsByNumber = Collections.emptyMap(); } /** A (Object, int) pair, used as a map key. */ private static final class ObjectIntPair { private final Object object; private final int number; ObjectIntPair(final Object object, final int number) { this.object = object; this.number = number; } @Override public int hashCode() { return System.identityHashCode(object) * ((1 << 16) - 1) + number; } @Override public boolean equals(final Object obj) { if (!(obj instanceof ObjectIntPair)) { return false; } final ObjectIntPair other = (ObjectIntPair)obj; return object == other.object && number == other.number; } } }





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