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package com.fasterxml.jackson.databind.ser;

import java.util.*;

import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.ser.impl.ReadOnlyClassToSerializerMap;

/**
 * Simple cache object that allows for doing 2-level lookups: first level is
 * by "local" read-only lookup Map (used without locking)
 * and second backup level is by a shared modifiable HashMap.
 * The idea is that after a while, most serializers are found from the
 * local Map (to optimize performance, reduce lock contention),
 * but that during buildup we can use a shared map to reduce both
 * number of distinct read-only maps constructed, and number of
 * serializers constructed.
 *

* Since version 1.5 cache will actually contain three kinds of entries, * based on combination of class pair key. First class in key is for the * type to serialize, and second one is type used for determining how * to resolve value type. One (but not both) of entries can be null. */ public final class SerializerCache { /** * Shared, modifiable map; all access needs to be through synchronized blocks. *

* NOTE: keys are of various types (see below for key types), in addition to * basic {@link JavaType} used for "untyped" serializers. */ private HashMap> _sharedMap = new HashMap>(64); /** * Most recent read-only instance, created from _sharedMap, if any. */ private volatile ReadOnlyClassToSerializerMap _readOnlyMap = null; public SerializerCache() { } /** * Method that can be called to get a read-only instance populated from the * most recent version of the shared lookup Map. */ public ReadOnlyClassToSerializerMap getReadOnlyLookupMap() { ReadOnlyClassToSerializerMap m = _readOnlyMap; if(m == null) { synchronized (this) { m = _readOnlyMap; if (m == null) { _readOnlyMap = m = ReadOnlyClassToSerializerMap.from(_sharedMap); } } } return m.instance(); } /* /********************************************************** /* Lookup methods for accessing shared (slow) cache /********************************************************** */ public synchronized int size() { return _sharedMap.size(); } /** * Method that checks if the shared (and hence, synchronized) lookup Map might have * untyped serializer for given type. */ public JsonSerializer untypedValueSerializer(Class type) { synchronized (this) { return _sharedMap.get(new TypeKey(type, false)); } } public JsonSerializer untypedValueSerializer(JavaType type) { synchronized (this) { return _sharedMap.get(new TypeKey(type, false)); } } public JsonSerializer typedValueSerializer(JavaType type) { synchronized (this) { return _sharedMap.get(new TypeKey(type, true)); } } public JsonSerializer typedValueSerializer(Class cls) { synchronized (this) { return _sharedMap.get(new TypeKey(cls, true)); } } /* /********************************************************** /* Methods for adding shared serializer instances /********************************************************** */ /** * Method called if none of lookups succeeded, and caller had to construct * a serializer. If so, we will update the shared lookup map so that it * can be resolved via it next time. */ public void addTypedSerializer(JavaType type, JsonSerializer ser) { synchronized (this) { if (_sharedMap.put(new TypeKey(type, true), ser) == null) { // let's invalidate the read-only copy, too, to get it updated _readOnlyMap = null; } } } public void addTypedSerializer(Class cls, JsonSerializer ser) { synchronized (this) { if (_sharedMap.put(new TypeKey(cls, true), ser) == null) { // let's invalidate the read-only copy, too, to get it updated _readOnlyMap = null; } } } public void addAndResolveNonTypedSerializer(Class type, JsonSerializer ser, SerializerProvider provider) throws JsonMappingException { synchronized (this) { if (_sharedMap.put(new TypeKey(type, false), ser) == null) { // let's invalidate the read-only copy, too, to get it updated _readOnlyMap = null; } /* Finally: some serializers want to do post-processing, after * getting registered (to handle cyclic deps). */ /* 14-May-2011, tatu: As per [JACKSON-570], resolving needs to be done * in synchronized manner; this because while we do need to register * instance first, we also must keep lock until resolution is complete */ if (ser instanceof ResolvableSerializer) { ((ResolvableSerializer) ser).resolve(provider); } } } public void addAndResolveNonTypedSerializer(JavaType type, JsonSerializer ser, SerializerProvider provider) throws JsonMappingException { synchronized (this) { if (_sharedMap.put(new TypeKey(type, false), ser) == null) { // let's invalidate the read-only copy, too, to get it updated _readOnlyMap = null; } /* Finally: some serializers want to do post-processing, after * getting registered (to handle cyclic deps). */ /* 14-May-2011, tatu: As per [JACKSON-570], resolving needs to be done * in synchronized manner; this because while we do need to register * instance first, we also must keep lock until resolution is complete */ if (ser instanceof ResolvableSerializer) { ((ResolvableSerializer) ser).resolve(provider); } } } /** * Method called by StdSerializerProvider#flushCachedSerializers() to * clear all cached serializers */ public synchronized void flush() { _sharedMap.clear(); } /* /************************************************************** /* Helper class(es) /************************************************************** */ /** * Key that offers two "modes"; one with raw class, as used for * cases were raw class type is available (for example, when using * runtime type); and one with full generics-including. */ public final static class TypeKey { protected int _hashCode; protected Class _class; protected JavaType _type; /** * Indicator of whether serializer stored has a type serializer * wrapper around it or not; if not, it is "untyped" serializer; * if it has, it is "typed" */ protected boolean _isTyped; public TypeKey(Class key, boolean typed) { _class = key; _type = null; _isTyped = typed; _hashCode = hash(key, typed); } public TypeKey(JavaType key, boolean typed) { _type = key; _class = null; _isTyped = typed; _hashCode = hash(key, typed); } private final static int hash(Class cls, boolean typed) { int hash = cls.getName().hashCode(); if (typed) { ++hash; } return hash; } private final static int hash(JavaType type, boolean typed) { int hash = type.hashCode() - 1; if (typed) { --hash; } return hash; } public void resetTyped(Class cls) { _type = null; _class = cls; _isTyped = true; _hashCode = hash(cls, true); } public void resetUntyped(Class cls) { _type = null; _class = cls; _isTyped = false; _hashCode = hash(cls, false); } public void resetTyped(JavaType type) { _type = type; _class = null; _isTyped = true; _hashCode = hash(type, true); } public void resetUntyped(JavaType type) { _type = type; _class = null; _isTyped = false; _hashCode = hash(type, false); } @Override public final int hashCode() { return _hashCode; } @Override public final String toString() { if (_class != null) { return "{class: "+_class.getName()+", typed? "+_isTyped+"}"; } return "{type: "+_type+", typed? "+_isTyped+"}"; } // note: we assume key is never used for anything other than as map key, so: @Override public final boolean equals(Object o) { if (o == null) return false; if (o == this) return true; if (o.getClass() != getClass()) { return false; } TypeKey other = (TypeKey) o; if (other._isTyped == _isTyped) { if (_class != null) { return other._class == _class; } return _type.equals(other._type); } return false; } } }