// // $Id$ // // Narya library - tools for developing networked games // Copyright (C) 2002-2009 Three Rings Design, Inc., All Rights Reserved // http://www.threerings.net/code/narya/ // // This library is free software; you can redistribute it and/or modify it // under the terms of the GNU Lesser General Public License as published // by the Free Software Foundation; either version 2.1 of the License, or // (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA package com.threerings.io; import java.util.Collection; import java.util.Set; import java.io.IOException; import java.io.OutputStream; import com.google.common.collect.Sets; /** * Extends {@link ObjectOutputStream} for use in unreliable channels, where we must transmit class * mappings with every object until we are explicitly notified that the receiver has cached the * mappings. */ public class UnreliableObjectOutputStream extends ObjectOutputStream { /** * Constructs an object output stream which will write its data to the supplied target stream. */ public UnreliableObjectOutputStream (OutputStream target) { super(target); } /** * Sets the reference to the set that will hold the classes for which mappings have been * written. */ public void setMappedClasses (Set> mappedClasses) { _mappedClasses = mappedClasses; } /** * Returns a reference to the set of classes for which mappings have been written. */ public Set> getMappedClasses () { return _mappedClasses; } /** * Sets the reference to the set that will hold the pooled strings for which mappings have been * written. */ public void setMappedInterns (Set mappedInterns) { _mappedInterns = mappedInterns; } /** * Returns a reference to the set of pooled strings for which mappings have been written. */ public Set getMappedInterns () { return _mappedInterns; } /** * Notes that the receiver has received the mappings for a group of classes and thus that from * now on, only the codes need be sent. */ public void noteClassMappingsReceived (Collection> sclasses) { // sanity check if (_classmap == null) { throw new RuntimeException("Missing class map"); } // make each class's code positive to signify that we no longer need to send metadata for (Class sclass : sclasses) { ClassMapping cmap = _classmap.get(sclass); if (cmap == null) { throw new RuntimeException("No class mapping for " + sclass.getName()); } cmap.code = (short)Math.abs(cmap.code); } } /** * Notes that the receiver has received the mappings for a group of interns and thus that from * now on, only the codes need be sent. */ public void noteInternMappingsReceived (Collection sinterns) { // sanity check if (_internmap == null) { throw new RuntimeException("Missing intern map"); } // make each intern's code positive to signify that we no longer need to send metadata for (String sintern : sinterns) { Short code = _internmap.get(sintern); if (code == null) { throw new RuntimeException("No intern mapping for " + sintern); } short scode = code; if (scode < 0) { _internmap.put(sintern, (short)-code); } } } @Override // documentation inherited protected Short createInternMapping (short code) { // the negative intern code indicates that we must rewrite the metadata for the first // instance in each go-round; when we are notified that the other side has cached the // mapping, we can simply write the (positive) code return (short)-code; } @Override // documentation inherited protected void writeNewInternMapping (short code, String value) throws IOException { writeInternMapping(code, value); } @Override // documentation inherited protected void writeExistingInternMapping (short code, String value) throws IOException { // if the other side has received the mapping, we need only send the reference if (code > 0) { writeShort(code); // likewise if we've written the value once this go-round } else if (_mappedInterns.contains(value)) { writeShort(-code); // otherwise, we must retransmit the mapping } else { writeInternMapping(code, value); } } @Override // documentation inherited protected void writeInternMapping (int code, String value) throws IOException { super.writeInternMapping(code, value); // note that we've written the mapping _mappedInterns.add(value); } @Override // documentation inherited protected ClassMapping createClassMapping (short code, Class sclass, Streamer streamer) { // the negative class code indicates that we must rewrite the metadata for the first // instance in each go-round; when we are notified that the other side has cached the // mapping, we can simply write the (positive) code return new ClassMapping((short)(-code), sclass, streamer); } @Override // documentation inherited protected void writeNewClassMapping (ClassMapping cmap) throws IOException { writeClassMapping(cmap.code, cmap.sclass); } @Override // documentation inherited protected void writeExistingClassMapping (ClassMapping cmap) throws IOException { // if the other side has received the mapping, we need only send the reference if (cmap.code > 0) { writeShort(cmap.code); // likewise if we've written the class once this go-round } else if (_mappedClasses.contains(cmap.sclass)) { writeShort(-cmap.code); // otherwise, we must retransmit the mapping } else { writeClassMapping(cmap.code, cmap.sclass); } } @Override // documentation inherited protected void writeClassMapping (int code, Class sclass) throws IOException { super.writeClassMapping(code, sclass); // note that we've written the mapping _mappedClasses.add(sclass); } /** The set of classes for which we have written mappings. */ protected Set> _mappedClasses = Sets.newHashSet(); /** The set of pooled strings for which we have written mappings. */ protected Set _mappedInterns = Sets.newHashSet(); }