/* * Copyright (c) 1999, 2013, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.sun.tools.javac.code; import java.util.*; import javax.lang.model.element.ElementVisitor; import javax.lang.model.type.TypeVisitor; import com.sun.tools.javac.code.Symbol.*; import com.sun.tools.javac.code.Type.*; import com.sun.tools.javac.jvm.*; import com.sun.tools.javac.util.*; import com.sun.tools.javac.util.List; import static com.sun.tools.javac.code.Flags.*; import static com.sun.tools.javac.jvm.ByteCodes.*; import static com.sun.tools.javac.code.TypeTag.*; /** A class that defines all predefined constants and operators * as well as special classes such as java.lang.Object, which need * to be known to the compiler. All symbols are held in instance * fields. This makes it possible to work in multiple concurrent * projects, which might use different class files for library classes. * *

This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice. */ public class Symtab { /** The context key for the symbol table. */ protected static final Context.Key symtabKey = new Context.Key(); /** Get the symbol table instance. */ public static Symtab instance(Context context) { Symtab instance = context.get(symtabKey); if (instance == null) instance = new Symtab(context); return instance; } /** Builtin types. */ public final Type byteType = new Type(BYTE, null); public final Type charType = new Type(CHAR, null); public final Type shortType = new Type(SHORT, null); public final Type intType = new Type(INT, null); public final Type longType = new Type(LONG, null); public final Type floatType = new Type(FLOAT, null); public final Type doubleType = new Type(DOUBLE, null); public final Type booleanType = new Type(BOOLEAN, null); public final Type botType = new BottomType(); public final JCNoType voidType = new JCNoType(VOID); private final Names names; private final ClassReader reader; private final Target target; /** A symbol for the root package. */ public final PackageSymbol rootPackage; /** A symbol for the unnamed package. */ public final PackageSymbol unnamedPackage; /** A symbol that stands for a missing symbol. */ public final TypeSymbol noSymbol; /** The error symbol. */ public final ClassSymbol errSymbol; /** The unknown symbol. */ public final ClassSymbol unknownSymbol; /** A value for the errType, with a originalType of noType */ public final Type errType; /** A value for the unknown type. */ public final Type unknownType; /** The builtin type of all arrays. */ public final ClassSymbol arrayClass; public final MethodSymbol arrayCloneMethod; /** VGJ: The (singleton) type of all bound types. */ public final ClassSymbol boundClass; /** The builtin type of all methods. */ public final ClassSymbol methodClass; /** Predefined types. */ public final Type objectType; public final Type classType; public final Type classLoaderType; public final Type numberType; public final Type stringType; public final Type stringBufferType; public final Type stringBuilderType; public final Type cloneableType; public final Type serializableType; public final Type serializedLambdaType; public final Type methodHandleType; public final Type methodHandleLookupType; public final Type methodTypeType; public final Type nativeHeaderType; public final Type throwableType; public final Type errorType; public final Type interruptedExceptionType; public final Type illegalArgumentExceptionType; public final Type exceptionType; public final Type runtimeExceptionType; public final Type classNotFoundExceptionType; public final Type noClassDefFoundErrorType; public final Type noSuchFieldErrorType; public final Type assertionErrorType; public final Type cloneNotSupportedExceptionType; public final Type annotationType; public final TypeSymbol enumSym; public final Type listType; public final Type collectionsType; public final Type comparableType; public final Type comparatorType; public final Type arraysType; public final Type iterableType; public final Type iteratorType; public final Type annotationTargetType; public final Type overrideType; public final Type retentionType; public final Type deprecatedType; public final Type suppressWarningsType; public final Type inheritedType; public final Type profileType; public final Type proprietaryType; public final Type systemType; public final Type autoCloseableType; public final Type trustMeType; public final Type lambdaMetafactory; public final Type repeatableType; public final Type documentedType; public final Type elementTypeType; public final Type functionalInterfaceType; /** The symbol representing the length field of an array. */ public final VarSymbol lengthVar; /** The null check operator. */ public final OperatorSymbol nullcheck; /** The symbol representing the final finalize method on enums */ public final MethodSymbol enumFinalFinalize; /** The symbol representing the close method on TWR AutoCloseable type */ public final MethodSymbol autoCloseableClose; /** The predefined type that belongs to a tag. */ public final Type[] typeOfTag = new Type[TypeTag.getTypeTagCount()]; /** The name of the class that belongs to a basix type tag. */ public final Name[] boxedName = new Name[TypeTag.getTypeTagCount()]; /** A set containing all operator names. */ public final Set operatorNames = new HashSet(); /** A hashtable containing the encountered top-level and member classes, * indexed by flat names. The table does not contain local classes. * It should be updated from the outside to reflect classes defined * by compiled source files. */ public final Map classes = new HashMap(); /** A hashtable containing the encountered packages. * the table should be updated from outside to reflect packages defined * by compiled source files. */ public final Map packages = new HashMap(); public void initType(Type type, ClassSymbol c) { type.tsym = c; typeOfTag[type.tag.ordinal()] = type; } public void initType(Type type, String name) { initType( type, new ClassSymbol( PUBLIC, names.fromString(name), type, rootPackage)); } public void initType(Type type, String name, String bname) { initType(type, name); boxedName[type.tag.ordinal()] = names.fromString("java.lang." + bname); } /** The class symbol that owns all predefined symbols. */ public final ClassSymbol predefClass; /** Enter a constant into symbol table. * @param name The constant's name. * @param type The constant's type. */ private VarSymbol enterConstant(String name, Type type) { VarSymbol c = new VarSymbol( PUBLIC | STATIC | FINAL, names.fromString(name), type, predefClass); c.setData(type.constValue()); predefClass.members().enter(c); return c; } /** Enter a binary operation into symbol table. * @param name The name of the operator. * @param left The type of the left operand. * @param right The type of the left operand. * @param res The operation's result type. * @param opcode The operation's bytecode instruction. */ private void enterBinop(String name, Type left, Type right, Type res, int opcode) { predefClass.members().enter( new OperatorSymbol( makeOperatorName(name), new MethodType(List.of(left, right), res, List.nil(), methodClass), opcode, predefClass)); } /** Enter a binary operation, as above but with two opcodes, * which get encoded as * {@code (opcode1 << ByteCodeTags.preShift) + opcode2 }. * @param opcode1 First opcode. * @param opcode2 Second opcode. */ private void enterBinop(String name, Type left, Type right, Type res, int opcode1, int opcode2) { enterBinop( name, left, right, res, (opcode1 << ByteCodes.preShift) | opcode2); } /** Enter a unary operation into symbol table. * @param name The name of the operator. * @param arg The type of the operand. * @param res The operation's result type. * @param opcode The operation's bytecode instruction. */ private OperatorSymbol enterUnop(String name, Type arg, Type res, int opcode) { OperatorSymbol sym = new OperatorSymbol(makeOperatorName(name), new MethodType(List.of(arg), res, List.nil(), methodClass), opcode, predefClass); predefClass.members().enter(sym); return sym; } /** * Create a new operator name from corresponding String representation * and add the name to the set of known operator names. */ private Name makeOperatorName(String name) { Name opName = names.fromString(name); operatorNames.add(opName); return opName; } /** Enter a class into symbol table. * @param s The name of the class. */ private Type enterClass(String s) { return reader.enterClass(names.fromString(s)).type; } public void synthesizeEmptyInterfaceIfMissing(final Type type) { final Completer completer = type.tsym.completer; if (completer != null) { type.tsym.completer = new Completer() { public void complete(Symbol sym) throws CompletionFailure { try { completer.complete(sym); } catch (CompletionFailure e) { sym.flags_field |= (PUBLIC | INTERFACE); ((ClassType) sym.type).supertype_field = objectType; } } }; } } public void synthesizeBoxTypeIfMissing(final Type type) { ClassSymbol sym = reader.enterClass(boxedName[type.tag.ordinal()]); final Completer completer = sym.completer; if (completer != null) { sym.completer = new Completer() { public void complete(Symbol sym) throws CompletionFailure { try { completer.complete(sym); } catch (CompletionFailure e) { sym.flags_field |= PUBLIC; ((ClassType) sym.type).supertype_field = objectType; Name n = target.boxWithConstructors() ? names.init : names.valueOf; MethodSymbol boxMethod = new MethodSymbol(PUBLIC | STATIC, n, new MethodType(List.of(type), sym.type, List.nil(), methodClass), sym); sym.members().enter(boxMethod); MethodSymbol unboxMethod = new MethodSymbol(PUBLIC, type.tsym.name.append(names.Value), // x.intValue() new MethodType(List.nil(), type, List.nil(), methodClass), sym); sym.members().enter(unboxMethod); } } }; } } // Enter a synthetic class that is used to mark classes in ct.sym. // This class does not have a class file. private Type enterSyntheticAnnotation(String name) { ClassType type = (ClassType)enterClass(name); ClassSymbol sym = (ClassSymbol)type.tsym; sym.completer = null; sym.flags_field = PUBLIC|ACYCLIC|ANNOTATION|INTERFACE; sym.erasure_field = type; sym.members_field = new Scope(sym); type.typarams_field = List.nil(); type.allparams_field = List.nil(); type.supertype_field = annotationType; type.interfaces_field = List.nil(); return type; } /** Constructor; enters all predefined identifiers and operators * into symbol table. */ protected Symtab(Context context) throws CompletionFailure { context.put(symtabKey, this); names = Names.instance(context); target = Target.instance(context); // Create the unknown type unknownType = new Type(UNKNOWN, null) { @Override public R accept(TypeVisitor v, P p) { return v.visitUnknown(this, p); } }; // create the basic builtin symbols rootPackage = new PackageSymbol(names.empty, null); final JavacMessages messages = JavacMessages.instance(context); unnamedPackage = new PackageSymbol(names.empty, rootPackage) { public String toString() { return messages.getLocalizedString("compiler.misc.unnamed.package"); } }; noSymbol = new TypeSymbol(Kinds.NIL, 0, names.empty, Type.noType, rootPackage) { public R accept(ElementVisitor v, P p) { return v.visitUnknown(this, p); } }; // create the error symbols errSymbol = new ClassSymbol(PUBLIC|STATIC|ACYCLIC, names.any, null, rootPackage); errType = new ErrorType(errSymbol, Type.noType); unknownSymbol = new ClassSymbol(PUBLIC|STATIC|ACYCLIC, names.fromString(""), null, rootPackage); unknownSymbol.members_field = new Scope.ErrorScope(unknownSymbol); unknownSymbol.type = unknownType; // initialize builtin types initType(byteType, "byte", "Byte"); initType(shortType, "short", "Short"); initType(charType, "char", "Character"); initType(intType, "int", "Integer"); initType(longType, "long", "Long"); initType(floatType, "float", "Float"); initType(doubleType, "double", "Double"); initType(booleanType, "boolean", "Boolean"); initType(voidType, "void", "Void"); initType(botType, ""); initType(errType, errSymbol); initType(unknownType, unknownSymbol); // the builtin class of all arrays arrayClass = new ClassSymbol(PUBLIC|ACYCLIC, names.Array, noSymbol); // VGJ boundClass = new ClassSymbol(PUBLIC|ACYCLIC, names.Bound, noSymbol); boundClass.members_field = new Scope.ErrorScope(boundClass); // the builtin class of all methods methodClass = new ClassSymbol(PUBLIC|ACYCLIC, names.Method, noSymbol); methodClass.members_field = new Scope.ErrorScope(boundClass); // Create class to hold all predefined constants and operations. predefClass = new ClassSymbol(PUBLIC|ACYCLIC, names.empty, rootPackage); Scope scope = new Scope(predefClass); predefClass.members_field = scope; // Enter symbols for basic types. scope.enter(byteType.tsym); scope.enter(shortType.tsym); scope.enter(charType.tsym); scope.enter(intType.tsym); scope.enter(longType.tsym); scope.enter(floatType.tsym); scope.enter(doubleType.tsym); scope.enter(booleanType.tsym); scope.enter(errType.tsym); // Enter symbol for the errSymbol scope.enter(errSymbol); classes.put(predefClass.fullname, predefClass); reader = ClassReader.instance(context); reader.init(this); // Enter predefined classes. objectType = enterClass("java.lang.Object"); classType = enterClass("java.lang.Class"); numberType = enterClass("java.lang.Number"); stringType = enterClass("java.lang.String"); stringBufferType = enterClass("java.lang.StringBuffer"); stringBuilderType = enterClass("java.lang.StringBuilder"); cloneableType = enterClass("java.lang.Cloneable"); throwableType = enterClass("java.lang.Throwable"); serializableType = enterClass("java.io.Serializable"); serializedLambdaType = enterClass("java.lang.invoke.SerializedLambda"); methodHandleType = enterClass("java.lang.invoke.MethodHandle"); methodHandleLookupType = enterClass("java.lang.invoke.MethodHandles$Lookup"); methodTypeType = enterClass("java.lang.invoke.MethodType"); errorType = enterClass("java.lang.Error"); illegalArgumentExceptionType = enterClass("java.lang.IllegalArgumentException"); interruptedExceptionType = enterClass("java.lang.InterruptedException"); exceptionType = enterClass("java.lang.Exception"); runtimeExceptionType = enterClass("java.lang.RuntimeException"); classNotFoundExceptionType = enterClass("java.lang.ClassNotFoundException"); noClassDefFoundErrorType = enterClass("java.lang.NoClassDefFoundError"); noSuchFieldErrorType = enterClass("java.lang.NoSuchFieldError"); assertionErrorType = enterClass("java.lang.AssertionError"); cloneNotSupportedExceptionType = enterClass("java.lang.CloneNotSupportedException"); annotationType = enterClass("java.lang.annotation.Annotation"); classLoaderType = enterClass("java.lang.ClassLoader"); enumSym = reader.enterClass(names.java_lang_Enum); enumFinalFinalize = new MethodSymbol(PROTECTED|FINAL|HYPOTHETICAL, names.finalize, new MethodType(List.nil(), voidType, List.nil(), methodClass), enumSym); listType = enterClass("java.util.List"); collectionsType = enterClass("java.util.Collections"); comparableType = enterClass("java.lang.Comparable"); comparatorType = enterClass("java.util.Comparator"); arraysType = enterClass("java.util.Arrays"); iterableType = target.hasIterable() ? enterClass("java.lang.Iterable") : enterClass("java.util.Collection"); iteratorType = enterClass("java.util.Iterator"); annotationTargetType = enterClass("java.lang.annotation.Target"); overrideType = enterClass("java.lang.Override"); retentionType = enterClass("java.lang.annotation.Retention"); deprecatedType = enterClass("java.lang.Deprecated"); suppressWarningsType = enterClass("java.lang.SuppressWarnings"); inheritedType = enterClass("java.lang.annotation.Inherited"); repeatableType = enterClass("java.lang.annotation.Repeatable"); documentedType = enterClass("java.lang.annotation.Documented"); elementTypeType = enterClass("java.lang.annotation.ElementType"); systemType = enterClass("java.lang.System"); autoCloseableType = enterClass("java.lang.AutoCloseable"); autoCloseableClose = new MethodSymbol(PUBLIC, names.close, new MethodType(List.nil(), voidType, List.of(exceptionType), methodClass), autoCloseableType.tsym); trustMeType = enterClass("java.lang.SafeVarargs"); nativeHeaderType = enterClass("java.lang.annotation.Native"); lambdaMetafactory = enterClass("java.lang.invoke.LambdaMetafactory"); functionalInterfaceType = enterClass("java.lang.FunctionalInterface"); synthesizeEmptyInterfaceIfMissing(autoCloseableType); synthesizeEmptyInterfaceIfMissing(cloneableType); synthesizeEmptyInterfaceIfMissing(serializableType); synthesizeEmptyInterfaceIfMissing(lambdaMetafactory); synthesizeEmptyInterfaceIfMissing(serializedLambdaType); synthesizeBoxTypeIfMissing(doubleType); synthesizeBoxTypeIfMissing(floatType); synthesizeBoxTypeIfMissing(voidType); // Enter a synthetic class that is used to mark internal // proprietary classes in ct.sym. This class does not have a // class file. proprietaryType = enterSyntheticAnnotation("sun.Proprietary+Annotation"); // Enter a synthetic class that is used to provide profile info for // classes in ct.sym. This class does not have a class file. profileType = enterSyntheticAnnotation("jdk.Profile+Annotation"); MethodSymbol m = new MethodSymbol(PUBLIC | ABSTRACT, names.value, intType, profileType.tsym); profileType.tsym.members().enter(m); // Enter a class for arrays. // The class implements java.lang.Cloneable and java.io.Serializable. // It has a final length field and a clone method. ClassType arrayClassType = (ClassType)arrayClass.type; arrayClassType.supertype_field = objectType; arrayClassType.interfaces_field = List.of(cloneableType, serializableType); arrayClass.members_field = new Scope(arrayClass); lengthVar = new VarSymbol( PUBLIC | FINAL, names.length, intType, arrayClass); arrayClass.members().enter(lengthVar); arrayCloneMethod = new MethodSymbol( PUBLIC, names.clone, new MethodType(List.nil(), objectType, List.nil(), methodClass), arrayClass); arrayClass.members().enter(arrayCloneMethod); // Enter operators. enterUnop("+", doubleType, doubleType, nop); enterUnop("+", floatType, floatType, nop); enterUnop("+", longType, longType, nop); enterUnop("+", intType, intType, nop); enterUnop("-", doubleType, doubleType, dneg); enterUnop("-", floatType, floatType, fneg); enterUnop("-", longType, longType, lneg); enterUnop("-", intType, intType, ineg); enterUnop("~", longType, longType, lxor); enterUnop("~", intType, intType, ixor); enterUnop("++", doubleType, doubleType, dadd); enterUnop("++", floatType, floatType, fadd); enterUnop("++", longType, longType, ladd); enterUnop("++", intType, intType, iadd); enterUnop("++", charType, charType, iadd); enterUnop("++", shortType, shortType, iadd); enterUnop("++", byteType, byteType, iadd); enterUnop("--", doubleType, doubleType, dsub); enterUnop("--", floatType, floatType, fsub); enterUnop("--", longType, longType, lsub); enterUnop("--", intType, intType, isub); enterUnop("--", charType, charType, isub); enterUnop("--", shortType, shortType, isub); enterUnop("--", byteType, byteType, isub); enterUnop("!", booleanType, booleanType, bool_not); nullcheck = enterUnop("<*nullchk*>", objectType, objectType, nullchk); // string concatenation enterBinop("+", stringType, objectType, stringType, string_add); enterBinop("+", objectType, stringType, stringType, string_add); enterBinop("+", stringType, stringType, stringType, string_add); enterBinop("+", stringType, intType, stringType, string_add); enterBinop("+", stringType, longType, stringType, string_add); enterBinop("+", stringType, floatType, stringType, string_add); enterBinop("+", stringType, doubleType, stringType, string_add); enterBinop("+", stringType, booleanType, stringType, string_add); enterBinop("+", stringType, botType, stringType, string_add); enterBinop("+", intType, stringType, stringType, string_add); enterBinop("+", longType, stringType, stringType, string_add); enterBinop("+", floatType, stringType, stringType, string_add); enterBinop("+", doubleType, stringType, stringType, string_add); enterBinop("+", booleanType, stringType, stringType, string_add); enterBinop("+", botType, stringType, stringType, string_add); // these errors would otherwise be matched as string concatenation enterBinop("+", botType, botType, botType, error); enterBinop("+", botType, intType, botType, error); enterBinop("+", botType, longType, botType, error); enterBinop("+", botType, floatType, botType, error); enterBinop("+", botType, doubleType, botType, error); enterBinop("+", botType, booleanType, botType, error); enterBinop("+", botType, objectType, botType, error); enterBinop("+", intType, botType, botType, error); enterBinop("+", longType, botType, botType, error); enterBinop("+", floatType, botType, botType, error); enterBinop("+", doubleType, botType, botType, error); enterBinop("+", booleanType, botType, botType, error); enterBinop("+", objectType, botType, botType, error); enterBinop("+", doubleType, doubleType, doubleType, dadd); enterBinop("+", floatType, floatType, floatType, fadd); enterBinop("+", longType, longType, longType, ladd); enterBinop("+", intType, intType, intType, iadd); enterBinop("-", doubleType, doubleType, doubleType, dsub); enterBinop("-", floatType, floatType, floatType, fsub); enterBinop("-", longType, longType, longType, lsub); enterBinop("-", intType, intType, intType, isub); enterBinop("*", doubleType, doubleType, doubleType, dmul); enterBinop("*", floatType, floatType, floatType, fmul); enterBinop("*", longType, longType, longType, lmul); enterBinop("*", intType, intType, intType, imul); enterBinop("/", doubleType, doubleType, doubleType, ddiv); enterBinop("/", floatType, floatType, floatType, fdiv); enterBinop("/", longType, longType, longType, ldiv); enterBinop("/", intType, intType, intType, idiv); enterBinop("%", doubleType, doubleType, doubleType, dmod); enterBinop("%", floatType, floatType, floatType, fmod); enterBinop("%", longType, longType, longType, lmod); enterBinop("%", intType, intType, intType, imod); enterBinop("&", booleanType, booleanType, booleanType, iand); enterBinop("&", longType, longType, longType, land); enterBinop("&", intType, intType, intType, iand); enterBinop("|", booleanType, booleanType, booleanType, ior); enterBinop("|", longType, longType, longType, lor); enterBinop("|", intType, intType, intType, ior); enterBinop("^", booleanType, booleanType, booleanType, ixor); enterBinop("^", longType, longType, longType, lxor); enterBinop("^", intType, intType, intType, ixor); enterBinop("<<", longType, longType, longType, lshll); enterBinop("<<", intType, longType, intType, ishll); enterBinop("<<", longType, intType, longType, lshl); enterBinop("<<", intType, intType, intType, ishl); enterBinop(">>", longType, longType, longType, lshrl); enterBinop(">>", intType, longType, intType, ishrl); enterBinop(">>", longType, intType, longType, lshr); enterBinop(">>", intType, intType, intType, ishr); enterBinop(">>>", longType, longType, longType, lushrl); enterBinop(">>>", intType, longType, intType, iushrl); enterBinop(">>>", longType, intType, longType, lushr); enterBinop(">>>", intType, intType, intType, iushr); enterBinop("<", doubleType, doubleType, booleanType, dcmpg, iflt); enterBinop("<", floatType, floatType, booleanType, fcmpg, iflt); enterBinop("<", longType, longType, booleanType, lcmp, iflt); enterBinop("<", intType, intType, booleanType, if_icmplt); enterBinop(">", doubleType, doubleType, booleanType, dcmpl, ifgt); enterBinop(">", floatType, floatType, booleanType, fcmpl, ifgt); enterBinop(">", longType, longType, booleanType, lcmp, ifgt); enterBinop(">", intType, intType, booleanType, if_icmpgt); enterBinop("<=", doubleType, doubleType, booleanType, dcmpg, ifle); enterBinop("<=", floatType, floatType, booleanType, fcmpg, ifle); enterBinop("<=", longType, longType, booleanType, lcmp, ifle); enterBinop("<=", intType, intType, booleanType, if_icmple); enterBinop(">=", doubleType, doubleType, booleanType, dcmpl, ifge); enterBinop(">=", floatType, floatType, booleanType, fcmpl, ifge); enterBinop(">=", longType, longType, booleanType, lcmp, ifge); enterBinop(">=", intType, intType, booleanType, if_icmpge); enterBinop("==", objectType, objectType, booleanType, if_acmpeq); enterBinop("==", booleanType, booleanType, booleanType, if_icmpeq); enterBinop("==", doubleType, doubleType, booleanType, dcmpl, ifeq); enterBinop("==", floatType, floatType, booleanType, fcmpl, ifeq); enterBinop("==", longType, longType, booleanType, lcmp, ifeq); enterBinop("==", intType, intType, booleanType, if_icmpeq); enterBinop("!=", objectType, objectType, booleanType, if_acmpne); enterBinop("!=", booleanType, booleanType, booleanType, if_icmpne); enterBinop("!=", doubleType, doubleType, booleanType, dcmpl, ifne); enterBinop("!=", floatType, floatType, booleanType, fcmpl, ifne); enterBinop("!=", longType, longType, booleanType, lcmp, ifne); enterBinop("!=", intType, intType, booleanType, if_icmpne); enterBinop("&&", booleanType, booleanType, booleanType, bool_and); enterBinop("||", booleanType, booleanType, booleanType, bool_or); } }