/* Copyright (c) 1996, 1997, 1998, 1999, 2001, 2002 Free Software Foundation, Inc. This file is part of GNU Classpath. GNU Classpath is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Classpath 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 General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Classpath; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. Linking this library statically or dynamically with other modules is making a combined work based on this library. Thus, the terms and conditions of the GNU General Public License cover the whole combination. As a special exception, the copyright holders of this library give you permission to link this library with independent modules to produce an executable, regardless of the license terms of these independent modules, and to copy and distribute the resulting executable under terms of your choice, provided that you also meet, for each linked independent module, the terms and conditions of the license of that module. An independent module is a module which is not derived from or based on this library. If you modify this library, you may extend this exception to your version of the library, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. */ package gnu.java.rmi.rmic; import java.io.File; import java.io.FileWriter; import java.io.PrintWriter; import java.io.IOException; import java.lang.reflect.Method; import java.lang.reflect.Modifier; import java.util.HashSet; import java.util.Iterator; import java.util.Arrays; import java.lang.Comparable; import gnu.java.rmi.server.RMIHashes; public class RMIC { private String[] args; private int next; private Exception exception; private boolean keep = false; private boolean need11Stubs = true; private boolean need12Stubs = true; private boolean compile = true; private boolean verbose; private String destination; private PrintWriter out; private TabbedWriter ctrl; private Class clazz; private String classname; private String fullclassname; private MethodRef[] remotemethods; private String stubname; private String skelname; public RMIC(String[] a) { args = a; } public static void main(String args[]) { RMIC r = new RMIC(args); if (r.run() == false) { Exception exception = r.getException(); if (exception != null) { exception.printStackTrace(); } else { System.exit(1); } } } public boolean run() { parseOptions(); if (next >= args.length) { error("no class names found"); } for (int i = next; i < args.length; i++) { try { if (verbose) { System.out.println("[Processing class " + args[i] + ".class]"); } processClass(args[i]); } catch (Exception e) { exception = e; return (false); } } return (true); } private boolean processClass(String classname) throws Exception { analyzeClass(classname); generateStub(); if (need11Stubs) { generateSkel(); } if (compile) { compile(stubname + ".java"); if (need11Stubs) { compile(skelname + ".java"); } } if (!keep) { (new File(stubname + ".java")).delete(); if (need11Stubs) { (new File(skelname + ".java")).delete(); } } return (true); } private void analyzeClass(String cname) throws Exception { int p = cname.lastIndexOf('.'); if (p != -1) { classname = cname.substring(p+1); } else { classname = cname; } fullclassname = cname; HashSet rmeths = new HashSet(); findClass(); for (Class cls = clazz; cls != null; cls = cls.getSuperclass()) { // Keep going down the inheritence tree until we hit the system if (cls.getName().startsWith("java.")) { break; } Method[] meths = cls.getDeclaredMethods(); for (int i = 0; i < meths.length; i++) { // Only include public methods int mods = meths[i].getModifiers(); if (Modifier.isPublic(mods) && !Modifier.isStatic(mods)) { // Should check exceptions here. - XXX // Add this one in. rmeths.add(meths[i]); } } } // Convert into a MethodRef array and sort them remotemethods = new MethodRef[rmeths.size()]; int c = 0; for (Iterator i = rmeths.iterator(); i.hasNext(); ) { remotemethods[c++] = new MethodRef((Method)i.next()); } Arrays.sort(remotemethods); } public Exception getException() { return (exception); } private void findClass() throws ClassNotFoundException { clazz = Class.forName(fullclassname); } private void generateStub() throws IOException { stubname = classname + "_Stub"; ctrl = new TabbedWriter(new FileWriter(stubname + ".java")); out = new PrintWriter(ctrl); if (verbose) { System.out.println("[Generating class " + stubname + ".java]"); } out.println("// Stub class generated by rmic - DO NOT EDIT!"); out.println(); if (fullclassname != classname) { String pname = fullclassname.substring(0, fullclassname.lastIndexOf('.')); out.println("package " + pname + ";"); out.println(); } out.print("public final class " + stubname); ctrl.indent(); out.println("extends java.rmi.server.RemoteStub"); // Output interfaces we implement out.print("implements "); Class[] ifaces = clazz.getInterfaces(); for (int i = 0; i < ifaces.length; i++) { out.print(ifaces[i].getName()); if (i+1 < ifaces.length) { out.print(", "); } } ctrl.unindent(); out.print("{"); ctrl.indent(); // UID if (need12Stubs) { out.println("private static final long serialVersionUID = 2L;"); out.println(); } // InterfaceHash - don't know how to calculate this - XXX if (need11Stubs) { out.println("private static final long interfaceHash = " + RMIHashes.getInterfaceHash(clazz) + "L;"); out.println(); if (need12Stubs) { out.println("private static boolean useNewInvoke;"); out.println(); } // Operation table out.print("private static final java.rmi.server.Operation[] operations = {"); ctrl.indent(); for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; out.print("new java.rmi.server.Operation(\""); out.print(getPrettyName(m.getReturnType()) + " "); out.print(m.getName() + "("); // Output signature Class[] sig = m.getParameterTypes(); for (int j = 0; j < sig.length; j++) { out.print(getPrettyName(sig[j])); if (j+1 < sig.length) { out.print(", "); } } out.print(")\")"); if (i + 1 < remotemethods.length) { out.println(","); } } ctrl.unindent(); out.println("};"); out.println(); } // Set of method references. if (need12Stubs) { for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; out.println("private static java.lang.reflect.Method $method_" + m.getName() + "_" + i + ";"); } // Initialize the methods references. out.println(); out.print("static {"); ctrl.indent(); out.print("try {"); ctrl.indent(); if (need11Stubs) { out.println("java.rmi.server.RemoteRef.class.getMethod(\"invoke\", new java.lang.Class[] { java.rmi.Remote.class, java.lang.reflect.Method.class, java.lang.Object[].class, long.class });"); out.println("useNewInvoke = true;"); } for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; out.print("$method_" + m.getName() + "_" + i + " = "); out.print(fullclassname + ".class.getMethod(\"" + m.getName() + "\""); out.print(", new java.lang.Class[] {"); // Output signature Class[] sig = m.getParameterTypes(); for (int j = 0; j < sig.length; j++) { out.print(getPrettyName(sig[j]) + ".class"); if (j+1 < sig.length) { out.print(", "); } } out.println("});"); } ctrl.unindent(); out.println("}"); out.print("catch (java.lang.NoSuchMethodException e) {"); ctrl.indent(); if (need11Stubs) { out.print("useNewInvoke = false;"); } else { out.print("throw new java.lang.NoSuchMethodError(\"stub class initialization failed\");"); } ctrl.unindent(); out.print("}"); ctrl.unindent(); out.println("}"); out.println(); } // Constructors if (need11Stubs) { out.print("public " + stubname + "() {"); ctrl.indent(); out.print("super();"); ctrl.unindent(); out.println("}"); } if (need12Stubs) { out.print("public " + stubname + "(java.rmi.server.RemoteRef ref) {"); ctrl.indent(); out.print("super(ref);"); ctrl.unindent(); out.println("}"); } // Method implementations for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; Class[] sig = m.getParameterTypes(); Class returntype = m.getReturnType(); Class[] except = sortExceptions(m.getExceptionTypes()); out.println(); out.print("public " + getPrettyName(returntype) + " " + m.getName() + "("); for (int j = 0; j < sig.length; j++) { out.print(getPrettyName(sig[j])); out.print(" $param_" + j); if (j+1 < sig.length) { out.print(", "); } } out.print(") "); out.print("throws "); for (int j = 0; j < except.length; j++) { out.print(getPrettyName(except[j])); if (j+1 < except.length) { out.print(", "); } } out.print(" {"); ctrl.indent(); out.print("try {"); ctrl.indent(); if (need12Stubs) { if (need11Stubs) { out.print("if (useNewInvoke) {"); ctrl.indent(); } if (returntype != Void.TYPE) { out.print("java.lang.Object $result = "); } out.print("ref.invoke(this, $method_" + m.getName() + "_" + i + ", "); if (sig.length == 0) { out.print("null, "); } else { out.print("new java.lang.Object[] {"); for (int j = 0; j < sig.length; j++) { if (sig[j] == Boolean.TYPE) { out.print("new java.lang.Boolean($param_" + j + ")"); } else if (sig[j] == Byte.TYPE) { out.print("new java.lang.Byte($param_" + j + ")"); } else if (sig[j] == Character.TYPE) { out.print("new java.lang.Character($param_" + j + ")"); } else if (sig[j] == Short.TYPE) { out.print("new java.lang.Short($param_" + j + ")"); } else if (sig[j] == Integer.TYPE) { out.print("new java.lang.Integer($param_" + j + ")"); } else if (sig[j] == Long.TYPE) { out.print("new java.lang.Long($param_" + j + ")"); } else if (sig[j] == Float.TYPE) { out.print("new java.lang.Float($param_" + j + ")"); } else if (sig[j] == Double.TYPE) { out.print("new java.lang.Double($param_" + j + ")"); } else { out.print("$param_" + j); } if (j+1 < sig.length) { out.print(", "); } } out.print("}, "); } out.print(Long.toString(remotemethods[i].hash) + "L"); out.print(");"); if (returntype != Void.TYPE) { out.println(); out.print("return ("); if (returntype == Boolean.TYPE) { out.print("((java.lang.Boolean)$result).booleanValue()"); } else if (returntype == Byte.TYPE) { out.print("((java.lang.Byte)$result).byteValue()"); } else if (returntype == Character.TYPE) { out.print("((java.lang.Character)$result).charValue()"); } else if (returntype == Short.TYPE) { out.print("((java.lang.Short)$result).shortValue()"); } else if (returntype == Integer.TYPE) { out.print("((java.lang.Integer)$result).intValue()"); } else if (returntype == Long.TYPE) { out.print("((java.lang.Long)$result).longValue()"); } else if (returntype == Float.TYPE) { out.print("((java.lang.Float)$result).floatValue()"); } else if (returntype == Double.TYPE) { out.print("((java.lang.Double)$result).doubleValue()"); } else { out.print("(" + getPrettyName(returntype) + ")$result"); } out.print(");"); } if (need11Stubs) { ctrl.unindent(); out.println("}"); out.print("else {"); ctrl.indent(); } } if (need11Stubs) { out.println("java.rmi.server.RemoteCall call = ref.newCall((java.rmi.server.RemoteObject)this, operations, " + i + ", interfaceHash);"); out.print("try {"); ctrl.indent(); out.print("java.io.ObjectOutput out = call.getOutputStream();"); for (int j = 0; j < sig.length; j++) { out.println(); if (sig[j] == Boolean.TYPE) { out.print("out.writeBoolean("); } else if (sig[j] == Byte.TYPE) { out.print("out.writeByte("); } else if (sig[j] == Character.TYPE) { out.print("out.writeChar("); } else if (sig[j] == Short.TYPE) { out.print("out.writeShort("); } else if (sig[j] == Integer.TYPE) { out.print("out.writeInt("); } else if (sig[j] == Long.TYPE) { out.print("out.writeLong("); } else if (sig[j] == Float.TYPE) { out.print("out.writeFloat("); } else if (sig[j] == Double.TYPE) { out.print("out.writeDouble("); } else { out.print("out.writeObject("); } out.print("$param_" + j + ");"); } ctrl.unindent(); out.println("}"); out.print("catch (java.io.IOException e) {"); ctrl.indent(); out.print("throw new java.rmi.MarshalException(\"error marshalling arguments\", e);"); ctrl.unindent(); out.println("}"); out.println("ref.invoke(call);"); if (returntype != Void.TYPE) { out.println(getPrettyName(returntype) + " $result;"); } out.print("try {"); ctrl.indent(); out.print("java.io.ObjectInput in = call.getInputStream();"); boolean needcastcheck = false; if (returntype != Void.TYPE) { out.println(); out.print("$result = "); if (returntype == Boolean.TYPE) { out.print("in.readBoolean();"); } else if (returntype == Byte.TYPE) { out.print("in.readByte();"); } else if (returntype == Character.TYPE) { out.print("in.readChar();"); } else if (returntype == Short.TYPE) { out.print("in.readShort();"); } else if (returntype == Integer.TYPE) { out.print("in.readInt();"); } else if (returntype == Long.TYPE) { out.print("in.readLong();"); } else if (returntype == Float.TYPE) { out.print("in.readFloat();"); } else if (returntype == Double.TYPE) { out.print("in.readDouble();"); } else { if (returntype != Object.class) { out.print("(" + getPrettyName(returntype) + ")"); } else { needcastcheck = true; } out.print("in.readObject();"); } out.println(); out.print("return ($result);"); } ctrl.unindent(); out.println("}"); out.print("catch (java.io.IOException e) {"); ctrl.indent(); out.print("throw new java.rmi.UnmarshalException(\"error unmarshalling return\", e);"); ctrl.unindent(); out.println("}"); if (needcastcheck) { out.print("catch (java.lang.ClassNotFoundException e) {"); ctrl.indent(); out.print("throw new java.rmi.UnmarshalException(\"error unmarshalling return\", e);"); ctrl.unindent(); out.println("}"); } out.print("finally {"); ctrl.indent(); out.print("ref.done(call);"); ctrl.unindent(); out.print("}"); if (need12Stubs && need11Stubs) { ctrl.unindent(); out.print("}"); } } ctrl.unindent(); out.print("}"); boolean needgeneral = true; for (int j = 0; j < except.length; j++) { out.println(); out.print("catch (" + getPrettyName(except[j]) + " e) {"); ctrl.indent(); out.print("throw e;"); ctrl.unindent(); out.print("}"); if (except[j] == Exception.class) { needgeneral = false; } } if (needgeneral) { out.println(); out.print("catch (java.lang.Exception e) {"); ctrl.indent(); out.print("throw new java.rmi.UnexpectedException(\"undeclared checked exception\", e);"); ctrl.unindent(); out.print("}"); } ctrl.unindent(); out.print("}"); out.println(); } ctrl.unindent(); out.println("}"); out.close(); } private void generateSkel() throws IOException { skelname = classname + "_Skel"; ctrl = new TabbedWriter(new FileWriter(skelname + ".java")); out = new PrintWriter(ctrl); if (verbose) { System.out.println("[Generating class " + skelname + ".java]"); } out.println("// Skel class generated by rmic - DO NOT EDIT!"); out.println(); if (fullclassname != classname) { String pname = fullclassname.substring(0, fullclassname.lastIndexOf('.')); out.println("package " + pname + ";"); out.println(); } out.print("public final class " + skelname); ctrl.indent(); // Output interfaces we implement out.print("implements java.rmi.server.Skeleton"); ctrl.unindent(); out.print("{"); ctrl.indent(); // Interface hash - don't know how to calculate this - XXX out.println("private static final long interfaceHash = " + RMIHashes.getInterfaceHash(clazz) + "L;"); out.println(); // Operation table out.print("private static final java.rmi.server.Operation[] operations = {"); ctrl.indent(); for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; out.print("new java.rmi.server.Operation(\""); out.print(getPrettyName(m.getReturnType()) + " "); out.print(m.getName() + "("); // Output signature Class[] sig = m.getParameterTypes(); for (int j = 0; j < sig.length; j++) { out.print(getPrettyName(sig[j])); if (j+1 < sig.length) { out.print(", "); } } out.print("\")"); if (i + 1 < remotemethods.length) { out.println(","); } } ctrl.unindent(); out.println("};"); out.println(); // getOperations method out.print("public java.rmi.server.Operation[] getOperations() {"); ctrl.indent(); out.print("return ((java.rmi.server.Operation[]) operations.clone());"); ctrl.unindent(); out.println("}"); out.println(); // Dispatch method out.print("public void dispatch(java.rmi.Remote obj, java.rmi.server.RemoteCall call, int opnum, long hash) throws java.lang.Exception {"); ctrl.indent(); out.print("if (opnum < 0) {"); ctrl.indent(); for (int i = 0; i < remotemethods.length; i++) { out.print("if (hash == " + Long.toString(remotemethods[i].hash) + "L) {"); ctrl.indent(); out.print("opnum = " + i + ";"); ctrl.unindent(); out.println("}"); out.print("else "); } out.print("{"); ctrl.indent(); out.print("throw new java.rmi.server.SkeletonMismatchException(\"interface hash mismatch\");"); ctrl.unindent(); out.print("}"); ctrl.unindent(); out.println("}"); out.print("else if (hash != interfaceHash) {"); ctrl.indent(); out.print("throw new java.rmi.server.SkeletonMismatchException(\"interface hash mismatch\");"); ctrl.unindent(); out.println("}"); out.println(); out.println(fullclassname + " server = (" + fullclassname + ")obj;"); out.println("switch (opnum) {"); // Method dispatch for (int i = 0; i < remotemethods.length; i++) { Method m = remotemethods[i].meth; out.println("case " + i + ":"); out.print("{"); ctrl.indent(); Class[] sig = m.getParameterTypes(); for (int j = 0; j < sig.length; j++) { out.print(getPrettyName(sig[j])); out.println(" $param_" + j + ";"); } out.print("try {"); boolean needcastcheck = false; ctrl.indent(); out.println("java.io.ObjectInput in = call.getInputStream();"); for (int j = 0; j < sig.length; j++) { out.print("$param_" + j + " = "); if (sig[j] == Boolean.TYPE) { out.print("in.readBoolean();"); } else if (sig[j] == Byte.TYPE) { out.print("in.readByte();"); } else if (sig[j] == Character.TYPE) { out.print("in.readChar();"); } else if (sig[j] == Short.TYPE) { out.print("in.readShort();"); } else if (sig[j] == Integer.TYPE) { out.print("in.readInt();"); } else if (sig[j] == Long.TYPE) { out.print("in.readLong();"); } else if (sig[j] == Float.TYPE) { out.print("in.readFloat();"); } else if (sig[j] == Double.TYPE) { out.print("in.readDouble();"); } else { if (sig[j] != Object.class) { out.print("(" + getPrettyName(sig[j]) + ")"); needcastcheck = true; } out.print("in.readObject();"); } out.println(); } ctrl.unindent(); out.println("}"); out.print("catch (java.io.IOException e) {"); ctrl.indent(); out.print("throw new java.rmi.UnmarshalException(\"error unmarshalling arguments\", e);"); ctrl.unindent(); out.println("}"); if (needcastcheck) { out.print("catch (java.lang.ClassCastException e) {"); ctrl.indent(); out.print("throw new java.rmi.UnmarshalException(\"error unmarshalling arguments\", e);"); ctrl.unindent(); out.println("}"); } out.print("finally {"); ctrl.indent(); out.print("call.releaseInputStream();"); ctrl.unindent(); out.println("}"); Class returntype = m.getReturnType(); if (returntype != Void.TYPE) { out.print(getPrettyName(returntype) + " $result = "); } out.print("server." + m.getName() + "("); for (int j = 0; j < sig.length; j++) { out.print("$param_" + j); if (j + 1 < sig.length) { out.print(", "); } } out.println(");"); out.print("try {"); ctrl.indent(); out.print("java.io.ObjectOutput out = call.getResultStream(true);"); if (returntype != Void.TYPE) { out.println(); if (returntype == Boolean.TYPE) { out.print("out.writeBoolean($result);"); } else if (returntype == Byte.TYPE) { out.print("out.writeByte($result);"); } else if (returntype == Character.TYPE) { out.print("out.writeChar($result);"); } else if (returntype == Short.TYPE) { out.print("out.writeShort($result);"); } else if (returntype == Integer.TYPE) { out.print("out.writeInt($result);"); } else if (returntype == Long.TYPE) { out.print("out.writeLong($result);"); } else if (returntype == Float.TYPE) { out.print("out.writeFloat($result);"); } else if (returntype == Double.TYPE) { out.print("out.writeDouble($result);"); } else { out.print("out.writeObject($result);"); } } ctrl.unindent(); out.println("}"); out.print("catch (java.io.IOException e) {"); ctrl.indent(); out.print("throw new java.rmi.MarshalException(\"error marshalling return\", e);"); ctrl.unindent(); out.println("}"); out.print("break;"); ctrl.unindent(); out.println("}"); out.println(); } out.print("default:"); ctrl.indent(); out.print("throw new java.rmi.UnmarshalException(\"invalid method number\");"); ctrl.unindent(); out.print("}"); ctrl.unindent(); out.print("}"); ctrl.unindent(); out.println("}"); out.close(); } private void compile(String name) throws Exception { Compiler comp = Compiler.getInstance(); if (verbose) { System.out.println("[Compiling class " + name + "]"); } comp.setDestination(destination); comp.compile(name); } private static String getPrettyName(Class cls) { StringBuffer str = new StringBuffer(); for (int count = 0;; count++) { if (!cls.isArray()) { str.append(cls.getName()); for (; count > 0; count--) { str.append("[]"); } return (str.toString()); } cls = cls.getComponentType(); } } /** * Sort exceptions so the most general go last. */ private Class[] sortExceptions(Class[] except) { for (int i = 0; i < except.length; i++) { for (int j = i+1; j < except.length; j++) { if (except[i].isAssignableFrom(except[j])) { Class tmp = except[i]; except[i] = except[j]; except[j] = tmp; } } } return (except); } /** * Process the options until we find the first argument. */ private void parseOptions() { for (;;) { if (next >= args.length || args[next].charAt(0) != '-') { break; } String arg = args[next]; next++; // Accept `--' options if they look long enough. if (arg.length() > 3 && arg.charAt(0) == '-' && arg.charAt(1) == '-') arg = arg.substring(1); if (arg.equals("-keep")) { keep = true; } else if (arg.equals("-keepgenerated")) { keep = true; } else if (arg.equals("-v1.1")) { need11Stubs = true; need12Stubs = false; } else if (arg.equals("-vcompat")) { need11Stubs = true; need12Stubs = true; } else if (arg.equals("-v1.2")) { need11Stubs = false; need12Stubs = true; } else if (arg.equals("-g")) { } else if (arg.equals("-depend")) { } else if (arg.equals("-nowarn")) { } else if (arg.equals("-verbose")) { verbose = true; } else if (arg.equals("-nocompile")) { compile = false; } else if (arg.equals("-classpath")) { next++; } else if (arg.equals("-help")) { usage(); } else if (arg.equals("-version")) { System.out.println("rmic (GNU " + System.getProperty("java.vm.name") + ") " + System.getProperty("java.vm.version")); System.out.println(); System.out.println("Copyright 2002 Free Software Foundation, Inc."); System.out.println("This is free software; see the source for copying conditions. There is NO"); System.out.println("warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."); System.exit(0); } else if (arg.equals("-d")) { destination = args[next]; next++; } else if (arg.charAt(1) == 'J') { } else { error("unrecognized option `" + arg + "'"); } } } private static void error(String message) { System.err.println("rmic: " + message); System.err.println("Try `rmic --help' for more information."); System.exit(1); } private static void usage() { System.out.println( "Usage: rmic [OPTION]... CLASS...\n" + "\n" + " -keep Don't delete any intermediate files\n" + " -keepgenerated Same as -keep\n" + " -v1.1 Java 1.1 style stubs only\n" + " -vcompat Java 1.1 & Java 1.2 stubs\n" + " -v1.2 Java 1.2 style stubs only\n" + " -g * Generated debugging information\n" + " -depend * Recompile out-of-date files\n" + " -nowarn * Suppress warning messages\n" + " -nocompile Don't compile the generated files\n" + " -verbose Output what's going on\n" + " -classpath * Use given path as classpath\n" + " -d Specify where to place generated classes\n" + " -J * Pass flag to Java\n" + " -help Print this help, then exit\n" + " -version Print version number, then exit\n" + "\n" + " * Option currently ignored\n" + "Long options can be used with `--option' form as well." ); System.exit(0); } static class MethodRef implements Comparable { Method meth; String sig; long hash; MethodRef(Method m) { meth = m; // We match on the name - but what about overloading? - XXX sig = m.getName(); hash = RMIHashes.getMethodHash(m); } public int compareTo(Object obj) { MethodRef that = (MethodRef)obj; return (this.sig.compareTo(that.sig)); } } }