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package com.dyuproject.protostuff.runtime;

import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_BOOL;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_BYTE;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_CHAR;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_DOUBLE;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_FLOAT;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_INT32;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_INT64;
import static com.dyuproject.protostuff.runtime.RuntimeFieldFactory.ID_SHORT;

import java.io.IOException;
import java.lang.reflect.Modifier;
import java.util.Collection;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;

import com.dyuproject.protostuff.CollectionSchema;
import com.dyuproject.protostuff.Input;
import com.dyuproject.protostuff.MapSchema;
import com.dyuproject.protostuff.Message;
import com.dyuproject.protostuff.Output;
import com.dyuproject.protostuff.Pipe;
import com.dyuproject.protostuff.ProtostuffException;
import com.dyuproject.protostuff.Schema;

/***
 * The FQCN(fully qualified class name) will serve as the id (string). 
 * Does not need any registration in the user-code (works out-of-the-box).
 * The size of serialized representation may be not very efficient.   
 * 
 * @author Leo Romanoff
 * @author David Yu
 *
 */
public final class DefaultIdStrategy extends IdStrategy 
{
    
    final ConcurrentHashMap> pojoMapping = 
            new ConcurrentHashMap>();
    
    final ConcurrentHashMap> enumMapping = 
            new ConcurrentHashMap>();
    
    final ConcurrentHashMap collectionMapping = 
            new ConcurrentHashMap();
    
    final ConcurrentHashMap mapMapping = 
            new ConcurrentHashMap();
    
    final ConcurrentHashMap> delegateMapping = 
            new ConcurrentHashMap>();
    
    public DefaultIdStrategy()
    {
        super(null, 0);
    }
    
    public DefaultIdStrategy(IdStrategy primaryGroup, int groupId)
    {
        super(primaryGroup, groupId);
    }
    
    /**
     * Registers a pojo lazily.
     * Used by {@link RuntimeSchema#register(Class, Schema)}.
     */
    public  boolean registerPojo(Class typeClass)
    {
        assert typeClass != null;
        
        final HasSchema last = pojoMapping.putIfAbsent(typeClass.getName(), 
                new LazyRegister(typeClass, this));
        
        return last == null || last instanceof LazyRegister;
    }
    
    /**
     * Registers a pojo.
     * Returns true if registration is successful or if the same exact schema 
     * was previously registered.
     * Used by {@link RuntimeSchema#register(Class, Schema)}.
     */
    public  boolean registerPojo(Class typeClass, Schema schema)
    {
        assert typeClass != null && schema != null;
        
        final HasSchema last = pojoMapping.putIfAbsent(typeClass.getName(), 
                new Registered(schema, this));
        
        return last == null || (last instanceof Registered && 
                ((Registered)last).schema == schema);
    }
    
    /**
     * Registers an enum.
     * Returns true if registration is successful.
     */
    public > boolean registerEnum(Class enumClass)
    {
        return null == enumMapping.putIfAbsent(enumClass.getName(), 
                EnumIO.newEnumIO(enumClass, this));
    }
    
    /**
     * Registers a delegate. Returns true if registration is successful.
     */
    public  boolean registerDelegate(Delegate delegate)
    {
        return null == delegateMapping.putIfAbsent(delegate.typeClass().getName(), 
                new HasDelegate(delegate, this));
    }
    
    /**
     * Registers a collection. Returns true if registration is successful.
     */
    public boolean registerCollection(CollectionSchema.MessageFactory factory)
    {
        return null == collectionMapping.putIfAbsent(factory.typeClass().getName(), 
                factory);
    }
    
    /**
     * Registers a map.  Returns true if registration is successful.
     */
    public boolean registerMap(MapSchema.MessageFactory factory)
    {
        return null == mapMapping.putIfAbsent(factory.typeClass().getName(), 
                factory);
    }
    
    /**
     * Used by {@link RuntimeSchema#map(Class, Class)}.
     */
    public  boolean map(Class baseClass, Class typeClass)
    {
        assert baseClass != null && typeClass != null;
        
        if(typeClass.isInterface() || Modifier.isAbstract(typeClass.getModifiers()))
        {
            throw new IllegalArgumentException(typeClass + 
                    " cannot be an interface/abstract class.");
        }
        
        final HasSchema last = pojoMapping.putIfAbsent(baseClass.getName(), 
                new Mapped(baseClass, typeClass, this));
        
        return last == null || (last instanceof Mapped && 
                ((Mapped)last).typeClass == typeClass);
    }
    
    public boolean isDelegateRegistered(Class typeClass)
    {
        return delegateMapping.containsKey(typeClass.getName());
    }
    
    @SuppressWarnings("unchecked")
    public  HasDelegate getDelegateWrapper(Class typeClass)
    {
        return (HasDelegate)delegateMapping.get(typeClass.getName());
    }

    @SuppressWarnings("unchecked")
    public  Delegate getDelegate(Class typeClass)
    {
        final HasDelegate last = (HasDelegate)delegateMapping.get(typeClass.getName());
        return last == null ? null : last.delegate;
    }
    
    public boolean isRegistered(Class typeClass)
    {
        final HasSchema last = pojoMapping.get(typeClass.getName());
        return last != null && !(last instanceof Lazy);
    }
    
    @SuppressWarnings("unchecked")
    public  HasSchema getRegistered(Class typeClass)
    {
        HasSchema hs = (HasSchema)pojoMapping.get(typeClass.getName());
        return hs != null && !(hs instanceof Lazy) ? hs : null;
    }
    
    @SuppressWarnings("unchecked")
    private  HasSchema getSchemaWrapper(String className, boolean load)
    {
        HasSchema hs = (HasSchema)pojoMapping.get(className);
        if(hs == null)
        {
            if(!load)
                return null;
            
            final Class typeClass = RuntimeEnv.loadClass(className);
            
            hs = new Lazy(typeClass, this);
            final HasSchema last = (HasSchema)pojoMapping.putIfAbsent(
                    typeClass.getName(), hs);
            if(last != null)
                hs = last;
        }
        
        return hs;
    }
    
    @SuppressWarnings("unchecked")
    public  HasSchema getSchemaWrapper(Class typeClass, boolean create)
    {
        HasSchema hs = (HasSchema)pojoMapping.get(typeClass.getName());
        if(hs == null && create)
        {
            hs = new Lazy(typeClass, this);
            final HasSchema last = (HasSchema)pojoMapping.putIfAbsent(
                    typeClass.getName(), hs);
            if(last != null)
                hs = last;
        }
        
        return hs;
    }
    
    private EnumIO> getEnumIO(String className, boolean load)
    {
        EnumIO eio = enumMapping.get(className);
        if(eio == null)
        {
            if(!load)
                return null;
            
            final Class enumClass = RuntimeEnv.loadClass(className);
            
            eio = EnumIO.newEnumIO(enumClass, this);
            
            final EnumIO existing = enumMapping.putIfAbsent(enumClass.getName(), eio);
            if(existing != null)
                eio = existing;
        }
        
        return eio;
    }
    
    protected EnumIO> getEnumIO(Class enumClass)
    {
        EnumIO eio = enumMapping.get(enumClass.getName());
        if(eio == null)
        {
            eio = EnumIO.newEnumIO(enumClass, this);
            
            final EnumIO existing = enumMapping.putIfAbsent(enumClass.getName(), eio);
            if(existing != null)
                eio = existing;
        }
        
        return eio;
    }
    
    protected CollectionSchema.MessageFactory getCollectionFactory(Class clazz)
    {
        final String className = clazz.getName();
        CollectionSchema.MessageFactory factory = collectionMapping.get(className);
        if(factory == null)
        {
            if(className.startsWith("java.util"))
            {
                factory = CollectionSchema.MessageFactories.valueOf(clazz.getSimpleName());
            }
            else
            {
                factory = new RuntimeCollectionFactory(clazz);
                CollectionSchema.MessageFactory f = collectionMapping.putIfAbsent(
                        className, factory);
                if(f != null)
                    factory = f;
            }
        }
        
        return factory;
    }
    
    protected MapSchema.MessageFactory getMapFactory(Class clazz)
    {
        final String className = clazz.getName();
        MapSchema.MessageFactory factory = mapMapping.get(className);
        if(factory == null)
        {
            if(className.startsWith("java.util"))
            {
                factory = MapSchema.MessageFactories.valueOf(clazz.getSimpleName());
            }
            else
            {
                factory = new RuntimeMapFactory(clazz);
                MapSchema.MessageFactory f = mapMapping.putIfAbsent(
                        className, factory);
                if(f != null)
                    factory = f;
            }
        }
        
        return factory;
    }
    
    protected void writeCollectionIdTo(Output output, int fieldNumber, Class clazz)
            throws IOException
    {
        final CollectionSchema.MessageFactory factory = collectionMapping.get(clazz);
        if(factory == null && clazz.getName().startsWith("java.util"))
        {
            // jdk collection
            // better not to register the jdk collection if using this strategy
            // as it saves space by not writing the full package
            output.writeString(fieldNumber, clazz.getSimpleName(), false);
        }
        else
        {
            output.writeString(fieldNumber, clazz.getName(), false);
        }
    }
    
    protected void transferCollectionId(Input input, Output output, 
            int fieldNumber) throws IOException
    {
        input.transferByteRangeTo(output, true, fieldNumber, false);
    }
    
    protected CollectionSchema.MessageFactory resolveCollectionFrom(Input input) 
            throws IOException 
    {
        final String className = input.readString();
        CollectionSchema.MessageFactory factory = collectionMapping.get(className);
        if(factory == null)
        {
            if(className.indexOf('.') == -1)
            {
                factory = CollectionSchema.MessageFactories.valueOf(className);
            }
            else
            {
                factory = new RuntimeCollectionFactory(RuntimeEnv.loadClass(className));
                CollectionSchema.MessageFactory f = collectionMapping.putIfAbsent(
                        className, factory);
                if(f != null)
                    factory = f;
            }
        }
        
        return factory;
    }
    
    protected void writeMapIdTo(Output output, int fieldNumber, Class clazz)
            throws IOException
    {
        final MapSchema.MessageFactory factory = mapMapping.get(clazz);
        if(factory == null && clazz.getName().startsWith("java.util"))
        {
            // jdk map
            // better not to register the jdk map if using this strategy
            // as it saves space by not writing the full package
            output.writeString(fieldNumber, clazz.getSimpleName(), false);
        }
        else
        {
            output.writeString(fieldNumber, clazz.getName(), false);
        }
    }
    
    protected void transferMapId(Input input, Output output, 
            int fieldNumber) throws IOException
    {
        input.transferByteRangeTo(output, true, fieldNumber, false);
    }
    
    protected MapSchema.MessageFactory resolveMapFrom(Input input) 
            throws IOException 
    {
        final String className = input.readString();
        MapSchema.MessageFactory factory = mapMapping.get(className);
        if(factory == null)
        {
            if(className.indexOf('.') == -1)
            {
                factory = MapSchema.MessageFactories.valueOf(className);
            }
            else
            {
                factory = new RuntimeMapFactory(RuntimeEnv.loadClass(className));
                MapSchema.MessageFactory f = mapMapping.putIfAbsent(
                        className, factory);
                if(f != null)
                    factory = f;
            }
        }
        
        return factory;
    }
    
    protected void writeEnumIdTo(Output output, int fieldNumber, 
            Class clazz) throws IOException
    {
        output.writeString(fieldNumber, clazz.getName(), false);
    }
    
    protected void transferEnumId(Input input, Output output, 
            int fieldNumber) throws IOException 
    {
        input.transferByteRangeTo(output, true, fieldNumber, false);
    }
    
    protected EnumIO resolveEnumFrom(Input input) throws IOException 
    {
        return getEnumIO(input.readString(), true);
    }
    
    @SuppressWarnings("unchecked")
    protected  HasDelegate tryWriteDelegateIdTo(Output output, int fieldNumber, 
            Class clazz) throws IOException
    {
        final HasDelegate hd = (HasDelegate)delegateMapping.get(clazz.getName());
        if(hd == null)
            return null;
        
        output.writeString(fieldNumber, clazz.getName(), false);
        
        return hd;
    }
    
    @SuppressWarnings("unchecked")
    protected  HasDelegate transferDelegateId(Input input, Output output, 
            int fieldNumber) throws IOException
    {
        final String className = input.readString();
        
        final HasDelegate hd = (HasDelegate)delegateMapping.get(className);
        if(hd == null)
            throw new UnknownTypeException("delegate: " + className + " (Outdated registry)");
        
        output.writeString(fieldNumber, className, false);
        
        return hd;
    }
    
    @SuppressWarnings("unchecked")
    protected  HasDelegate resolveDelegateFrom(Input input) throws IOException
    {
        final String className = input.readString();
        
        final HasDelegate hd = (HasDelegate)delegateMapping.get(className);
        if(hd == null)
            throw new UnknownTypeException("delegate: " + className + " (Outdated registry)");
        
        return hd;
    }
    
    protected  void writePojoIdTo(Output output, int fieldNumber, 
            Class clazz, HasSchema hs) throws IOException
    {
        output.writeString(fieldNumber, clazz.getName(), false);
    }
    
    protected  HasSchema writePojoIdTo(Output output, int fieldNumber, Class clazz) 
            throws IOException
    {
        output.writeString(fieldNumber, clazz.getName(), false);
        
        // it is important to return the schema initialized (if it hasn't been).
        return getSchemaWrapper(clazz, true);
    }

    protected  HasSchema transferPojoId(Input input, Output output, 
            int fieldNumber) throws IOException
    {
        final String className = input.readString();
        
        final HasSchema wrapper = getSchemaWrapper(className, 
                RuntimeEnv.AUTO_LOAD_POLYMORPHIC_CLASSES);
        if(wrapper == null)
        {
            throw new ProtostuffException("polymorphic pojo not registered: " + 
                    className);
        }
        
        output.writeString(fieldNumber, className, false);
        
        return wrapper;
    }
    
    protected  HasSchema resolvePojoFrom(Input input, int fieldNumber) 
            throws IOException
    {
        final String className = input.readString();
        
        final HasSchema wrapper = getSchemaWrapper(className, 
                RuntimeEnv.AUTO_LOAD_POLYMORPHIC_CLASSES);
        if(wrapper == null)
            throw new ProtostuffException("polymorphic pojo not registered: " + className);
        
        return wrapper;
    }
    
    protected  Schema writeMessageIdTo(Output output, int fieldNumber, Message message)
            throws IOException
    {
        output.writeString(fieldNumber, message.getClass().getName(), false);
        
        return message.cachedSchema();
    }
    
    protected void writeArrayIdTo(Output output, Class componentType) 
            throws IOException
    {
        output.writeString(RuntimeFieldFactory.ID_ARRAY, componentType.getName(), false);
    }
    
    protected void transferArrayId(Input input, Output output, int fieldNumber, 
            boolean mapped) throws IOException 
    {
        input.transferByteRangeTo(output, true, fieldNumber, false);
    }
    
    protected Class resolveArrayComponentTypeFrom(Input input, 
            boolean mapped) throws IOException 
    {
        return resolveClass(input.readString());
    }
    
    static Class resolveClass(String className)
    {
        final RuntimeFieldFactory inline = RuntimeFieldFactory.getInline(
                className);
        
        if(inline == null)
            return RuntimeEnv.loadClass(className);
        
        if(className.indexOf('.') != -1)
            return inline.typeClass();
        
        switch(inline.id)
        {
            case ID_BOOL: return boolean.class;
            case ID_BYTE: return byte.class;
            case ID_CHAR: return char.class;
            case ID_SHORT: return short.class;
            case ID_INT32: return int.class;
            case ID_INT64: return long.class;
            case ID_FLOAT: return float.class;
            case ID_DOUBLE: return double.class;
            default: throw new RuntimeException("Should never happen.");
        }
    }
    
    protected void writeClassIdTo(Output output, Class componentType, boolean array) 
            throws IOException
    {
        final int id = array ? 
                RuntimeFieldFactory.ID_CLASS_ARRAY : RuntimeFieldFactory.ID_CLASS;
        
        output.writeString(id, componentType.getName(), false);
    }
    
    protected void transferClassId(Input input, Output output, int fieldNumber, 
            boolean mapped, boolean array) throws IOException
    {
        input.transferByteRangeTo(output, true, fieldNumber, false);
    }
    
    protected Class resolveClassFrom(Input input, boolean mapped, boolean array) 
            throws IOException
    {
        return resolveClass(input.readString());
    }
    
    static final class RuntimeCollectionFactory implements CollectionSchema.MessageFactory 
    {
        
        final Class collectionClass;
        final RuntimeEnv.Instantiator instantiator;
        
        public RuntimeCollectionFactory(Class collectionClass)
        {
            this.collectionClass = collectionClass;
            instantiator = RuntimeEnv.newInstantiator(collectionClass);
        }

        @SuppressWarnings("unchecked")
        public  Collection newMessage()
        {
            return (Collection)instantiator.newInstance();
        }

        public Class typeClass()
        {
            return collectionClass;
        }
    }
    
    static final class RuntimeMapFactory implements MapSchema.MessageFactory 
    {
        
        final Class mapClass;
        final RuntimeEnv.Instantiator instantiator;
        
        public RuntimeMapFactory(Class mapClass)
        {
            this.mapClass = mapClass;
            instantiator = RuntimeEnv.newInstantiator(mapClass);
        }

        @SuppressWarnings("unchecked")
        public  Map newMessage()
        {
            return (Map)instantiator.newInstance();
        }
        
        public Class typeClass()
        {
            return mapClass;
        }

    }
    
    static class LazyRegister extends HasSchema
    {
        final Class typeClass;
        private volatile Schema schema;
        private volatile Pipe.Schema pipeSchema;
        
        LazyRegister(Class typeClass, IdStrategy strategy)
        {
            super(strategy);
            this.typeClass = typeClass;
        }

        @SuppressWarnings("unchecked")
        public Schema getSchema()
        {
            Schema schema = this.schema;
            if(schema==null)
            {
                synchronized(this)
                {
                    if((schema = this.schema) == null)
                    {
                        if(Message.class.isAssignableFrom(typeClass))
                        {
                            // use the message's schema.
                            try
                            {
                                final Message m = (Message)typeClass.newInstance();
                                this.schema = schema = m.cachedSchema();
                            }
                            catch (InstantiationException e)
                            {
                                throw new RuntimeException(e);
                            }
                            catch (IllegalAccessException e)
                            {
                                throw new RuntimeException(e);
                            }
                        }
                        else
                        {
                            // create new
                            this.schema = schema = strategy.newSchema(typeClass);
                        }
                    }
                }
            }

            return schema;
        }
        
        public Pipe.Schema getPipeSchema()
        {
            Pipe.Schema pipeSchema = this.pipeSchema;
            if(pipeSchema == null)
            {
                synchronized(this)
                {
                    if((pipeSchema = this.pipeSchema) == null)
                    {
                        this.pipeSchema = pipeSchema = RuntimeSchema.resolvePipeSchema(
                                getSchema(), typeClass, true);
                    }
                }
            }
            return pipeSchema;
        }
    }
    
    static final class Lazy extends LazyRegister
    {
        Lazy(Class typeClass, IdStrategy strategy)
        {
            super(typeClass, strategy);
        }
    }
    
    static final class Mapped extends HasSchema
    {
        
        final Class baseClass;
        final Class typeClass;
        private volatile HasSchema wrapper;
        
        Mapped(Class baseClass, Class typeClass, IdStrategy strategy)
        {
            super(strategy);
            this.baseClass = baseClass;
            this.typeClass = typeClass;
        }

        public Schema getSchema()
        {
            HasSchema wrapper = this.wrapper;
            if(wrapper == null)
            {
                synchronized(this)
                {
                    if((wrapper = this.wrapper) == null)
                    {
                        this.wrapper = wrapper = strategy.getSchemaWrapper(typeClass, true);
                    }
                }
            }
            
            return wrapper.getSchema();
        }

        public Pipe.Schema getPipeSchema()
        {
            HasSchema wrapper = this.wrapper;
            if(wrapper == null)
            {
                synchronized(this)
                {
                    if((wrapper = this.wrapper) == null)
                    {
                        this.wrapper = wrapper = strategy.getSchemaWrapper(typeClass, true);
                    }
                }
            }
            
            return wrapper.getPipeSchema();
        }
        
    }
    
    static final class Registered extends HasSchema
    {
        final Schema schema;
        private volatile Pipe.Schema pipeSchema;
        
        Registered(Schema schema, IdStrategy strategy)
        {
            super(strategy);
            this.schema = schema;
        }

        public Schema getSchema()
        {
            return schema;
        }
        
        public Pipe.Schema getPipeSchema()
        {
            Pipe.Schema pipeSchema = this.pipeSchema;
            if(pipeSchema == null)
            {
                synchronized(this)
                {
                    if((pipeSchema = this.pipeSchema) == null)
                    {
                        this.pipeSchema = pipeSchema = RuntimeSchema.resolvePipeSchema(
                                schema, schema.typeClass(), true);
                    }
                }
            }
            return pipeSchema;
        }
    }
}