public void createBCode(CodeGeneration gen) { super.createBCode(gen); if (hasResult()) { TypeDecl type = null; BodyDecl b = enclosingBodyDecl(); if (b instanceof MethodDecl) { type = ((MethodDecl) b).type(); } else { throw new Error("Can not create code that returns value within non method"); } getResult().createBCode(gen); getResult().type().emitCastTo(gen, type); if (!finallyList().isEmpty()) { type.emitStoreLocal(gen, resultSaveLocalNum()); } for (Iterator iter = finallyList().iterator(); iter.hasNext(); ) { FinallyHost stmt = (FinallyHost) iter.next(); gen.emitJsr(stmt.label_finally_block()); } if (!finallyList().isEmpty()) { type.emitLoadLocal(gen, resultSaveLocalNum()); } type.emitReturn(gen); } else { for (Iterator iter = finallyList().iterator(); iter.hasNext(); ) { FinallyHost stmt = (FinallyHost) iter.next(); gen.emitJsr(stmt.label_finally_block()); } gen.emitReturn(); } }
/** @apilevel internal */ private SimpleSet memberTypes_compute(String name) { SimpleSet set = localTypeDecls(name); if (!set.isEmpty()) return set; for (Iterator outerIter = superinterfacesIterator(); outerIter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) outerIter.next(); for (Iterator iter = typeDecl.memberTypes(name).iterator(); iter.hasNext(); ) { TypeDecl decl = (TypeDecl) iter.next(); if (!decl.isPrivate()) set = set.add(decl); } } return set; }
/** @apilevel internal */ private HashMap memberFieldsMap_compute() { HashMap map = new HashMap(localFieldsMap()); for (Iterator outerIter = superinterfacesIterator(); outerIter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) outerIter.next(); for (Iterator iter = typeDecl.fieldsIterator(); iter.hasNext(); ) { FieldDeclaration f = (FieldDeclaration) iter.next(); if (f.accessibleFrom(this) && !f.isPrivate() && !localFieldsMap().containsKey(f.name())) { putSimpleSetElement(map, f.name(), f); } } } return map; }
/** @apilevel internal */ private SimpleSet memberFields_compute(String name) { SimpleSet fields = localFields(name); if (!fields.isEmpty()) return fields; for (Iterator outerIter = superinterfacesIterator(); outerIter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) outerIter.next(); for (Iterator iter = typeDecl.memberFields(name).iterator(); iter.hasNext(); ) { FieldDeclaration f = (FieldDeclaration) iter.next(); if (f.accessibleFrom(this) && !f.isPrivate()) { fields = fields.add(f); } } } return fields; }
public boolean process(String[] args, BytecodeReader reader, JavaParser parser) { program.initBytecodeReader(reader); program.initJavaParser(parser); initOptions(); processArgs(args); Collection files = program.options().files(); if (program.options().hasOption("-version")) { printVersion(); return false; } if (program.options().hasOption("-help") || files.isEmpty()) { printUsage(); return false; } try { for (Iterator iter = files.iterator(); iter.hasNext(); ) { String name = (String) iter.next(); if (!new File(name).exists()) System.err.println("WARNING: file \"" + name + "\" does not exist"); program.addSourceFile(name); } for (Iterator iter = program.compilationUnitIterator(); iter.hasNext(); ) { CompilationUnit unit = (CompilationUnit) iter.next(); if (unit.fromSource()) { Collection errors = unit.parseErrors(); Collection warnings = new LinkedList(); // compute static semantic errors when there are no parse errors or // the recover from parse errors option is specified if (errors.isEmpty() || program.options().hasOption("-recover")) unit.errorCheck(errors, warnings); if (!errors.isEmpty()) { processErrors(errors, unit); return false; } else { if (!warnings.isEmpty()) processWarnings(warnings, unit); processNoErrors(unit); } } } } catch (Exception e) { System.err.println(e.getMessage()); e.printStackTrace(); } return true; }
/** @apilevel internal */ private boolean castingConversionTo_compute(TypeDecl type) { if (type.isArrayDecl()) { return type.instanceOf(this); } else if (type.isClassDecl()) { return !type.isFinal() || type.instanceOf(this); } else if (type.isInterfaceDecl()) { for (Iterator i1 = methodsIterator(); i1.hasNext(); ) { MethodDecl m = (MethodDecl) i1.next(); for (Iterator iter = type.methodsSignature(m.signature()).iterator(); iter.hasNext(); ) { MethodDecl n = (MethodDecl) iter.next(); if (n.type() != m.type()) return false; } } return true; } else return super.castingConversionTo(type); }
/** @apilevel internal */ private boolean isSupertypeOfClassDecl_compute(ClassDecl type) { if (super.isSupertypeOfClassDecl(type)) return true; for (Iterator iter = type.interfacesIterator(); iter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) iter.next(); if (typeDecl.instanceOf(this)) return true; } return type.hasSuperclass() && type.superclass() != null && type.superclass().instanceOf(this); }
/** @apilevel internal */ private SimpleSet ancestorMethods_compute(String signature) { SimpleSet set = SimpleSet.emptySet; for (Iterator outerIter = superinterfacesIterator(); outerIter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) outerIter.next(); for (Iterator iter = typeDecl.methodsSignature(signature).iterator(); iter.hasNext(); ) { MethodDecl m = (MethodDecl) iter.next(); set = set.add(m); } } if (!superinterfacesIterator().hasNext()) { for (Iterator iter = typeObject().methodsSignature(signature).iterator(); iter.hasNext(); ) { MethodDecl m = (MethodDecl) iter.next(); if (m.isPublic()) set = set.add(m); } } return set; }
/** @apilevel internal */ private boolean isSupertypeOfArrayDecl_compute(ArrayDecl type) { if (super.isSupertypeOfArrayDecl(type)) return true; for (Iterator iter = type.interfacesIterator(); iter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) iter.next(); if (typeDecl.instanceOf(this)) return true; } return false; }
private boolean isDUafterReachedFinallyBlocks_compute(Variable v) { if (!isDUbefore(v) && finallyList().isEmpty()) return false; for (Iterator iter = finallyList().iterator(); iter.hasNext(); ) { FinallyHost f = (FinallyHost) iter.next(); if (!f.isDUafterFinally(v)) return false; } return true; }
/** @apilevel internal */ private HashMap methodsSignatureMap_compute() { HashMap map = new HashMap(localMethodsSignatureMap()); for (Iterator outerIter = superinterfacesIterator(); outerIter.hasNext(); ) { TypeDecl typeDecl = (TypeDecl) outerIter.next(); for (Iterator iter = typeDecl.methodsIterator(); iter.hasNext(); ) { MethodDecl m = (MethodDecl) iter.next(); if (!m.isPrivate() && m.accessibleFrom(this) && !localMethodsSignatureMap().containsKey(m.signature())) putSimpleSetElement(map, m.signature(), m); } } for (Iterator iter = typeObject().methodsIterator(); iter.hasNext(); ) { MethodDecl m = (MethodDecl) iter.next(); if (m.isPublic() && !map.containsKey(m.signature())) putSimpleSetElement(map, m.signature(), m); } return map; }
/** * @ast method * @aspect TypeHierarchyCheck * @declaredat /home/uoji/JastAddJ/Java1.4Frontend/TypeHierarchyCheck.jrag:312 */ public void nameCheck() { super.nameCheck(); if (isCircular()) error("circular inheritance dependency in " + typeName()); else { for (int i = 0; i < getNumSuperInterfaceId(); i++) { TypeDecl typeDecl = getSuperInterfaceId(i).type(); if (typeDecl.isCircular()) error("circular inheritance dependency in " + typeName()); } } for (Iterator iter = methodsSignatureMap().values().iterator(); iter.hasNext(); ) { SimpleSet set = (SimpleSet) iter.next(); if (set.size() > 1) { Iterator i2 = set.iterator(); MethodDecl m = (MethodDecl) i2.next(); while (i2.hasNext()) { MethodDecl n = (MethodDecl) i2.next(); if (!n.mayOverrideReturn(m) && !m.mayOverrideReturn(n)) error( "multiply inherited methods with the same signature must have the same return type"); } } } }
// Declared in AnonymousClasses.jrag at line 52 private AnonymousDecl rewriteRule0() { { setModifiers(new Modifiers(new List().add(new Modifier("final")))); ConstructorDecl constructor = new ConstructorDecl(); addBodyDecl(constructor); constructor.setModifiers((Modifiers) constructorDecl().getModifiers().fullCopy()); String name = "Anonymous" + nextAnonymousIndex(); setID(name); constructor.setID(name); List parameterList = new List(); for (int i = 0; i < constructorDecl().getNumParameter(); i++) { parameterList.add( new ParameterDeclaration( constructorDecl().getParameter(i).type().createBoundAccess(), constructorDecl().getParameter(i).name())); } constructor.setParameterList(parameterList); List argList = new List(); for (int i = 0; i < constructor.getNumParameter(); i++) argList.add(new VarAccess(constructor.getParameter(i).name())); constructor.setConstructorInvocation( new ExprStmt(new SuperConstructorAccess("super", argList))); constructor.setBlock(new Block()); HashSet set = new HashSet(); for (int i = 0; i < getNumBodyDecl(); i++) { if (getBodyDecl(i) instanceof InstanceInitializer) { InstanceInitializer init = (InstanceInitializer) getBodyDecl(i); set.addAll(init.exceptions()); } else if (getBodyDecl(i) instanceof FieldDeclaration) { FieldDeclaration f = (FieldDeclaration) getBodyDecl(i); if (f.isInstanceVariable()) { set.addAll(f.exceptions()); } } } List exceptionList = new List(); for (Iterator iter = set.iterator(); iter.hasNext(); ) { TypeDecl exceptionType = (TypeDecl) iter.next(); if (exceptionType.isNull()) exceptionType = typeNullPointerException(); exceptionList.add(exceptionType.createQualifiedAccess()); } constructor.setExceptionList(exceptionList); return this; } }
/** * @ast method * @aspect GenerateClassfile * @declaredat /home/uoji/JastAddJ/Java1.4Backend/GenerateClassfile.jrag:142 */ public void generateClassfile() { super.generateClassfile(); String fileName = destinationPath() + File.separator + constantPoolName() + ".class"; if (options().verbose()) System.out.println("Writing class file to " + fileName); try { ConstantPool cp = constantPool(); // force building of constant pool cp.addClass(constantPoolName()); cp.addClass("java/lang/Object"); for (int i = 0; i < getNumSuperInterfaceId(); i++) { cp.addClass(getSuperInterfaceId(i).type().constantPoolName()); } for (Iterator iter = bcFields().iterator(); iter.hasNext(); ) { FieldDeclaration field = (FieldDeclaration) iter.next(); cp.addUtf8(field.name()); cp.addUtf8(field.type().typeDescriptor()); field.attributes(); } for (Iterator iter = bcMethods().iterator(); iter.hasNext(); ) { Object obj = iter.next(); if (obj instanceof MethodDecl) { MethodDecl m = (MethodDecl) obj; cp.addUtf8(m.name()); cp.addUtf8(m.descName()); m.attributes(); } } attributes(); if (hasClinit()) { cp.addUtf8("<clinit>"); cp.addUtf8("()V"); clinit_attributes(); } // actual classfile generation File dest = new File(fileName); File parentFile = dest.getParentFile(); if (parentFile != null) parentFile.mkdirs(); FileOutputStream f = new FileOutputStream(fileName); DataOutputStream out = new DataOutputStream(new BufferedOutputStream(f)); out.writeInt(magicHeader()); out.writeChar(minorVersion()); out.writeChar(majorVersion()); cp.emit(out); int flags = flags(); if (isNestedType()) flags = mangledFlags(flags); if (isInterfaceDecl()) flags |= Modifiers.ACC_INTERFACE; out.writeChar(flags); out.writeChar(cp.addClass(constantPoolName())); out.writeChar(cp.addClass("java/lang/Object")); if (getNumSuperInterfaceId() == 1 && getSuperInterfaceId(0).type().isObject()) out.writeChar(0); else out.writeChar(getNumSuperInterfaceId()); for (int i = 0; i < getNumSuperInterfaceId(); i++) { TypeDecl typeDecl = getSuperInterfaceId(i).type(); if (typeDecl.isInterfaceDecl()) out.writeChar(cp.addClass(typeDecl.constantPoolName())); } Collection fields = bcFields(); out.writeChar(fields.size()); for (Iterator iter = fields.iterator(); iter.hasNext(); ) { FieldDeclaration field = (FieldDeclaration) iter.next(); out.writeChar(field.flags()); out.writeChar(cp.addUtf8(field.name())); out.writeChar(cp.addUtf8(field.type().typeDescriptor())); out.writeChar(field.attributes().size()); for (Iterator itera = field.attributes().iterator(); itera.hasNext(); ) ((Attribute) itera.next()).emit(out); } Collection methods = bcMethods(); out.writeChar(methods.size() + (hasClinit() ? 1 : 0)); for (Iterator iter = methods.iterator(); iter.hasNext(); ) { BodyDecl b = (BodyDecl) iter.next(); b.generateMethod(out, cp); } if (hasClinit()) { out.writeChar(Modifiers.ACC_STATIC); out.writeChar(cp.addUtf8("<clinit>")); out.writeChar(cp.addUtf8("()V")); out.writeChar(clinit_attributes().size()); for (Iterator itera = clinit_attributes().iterator(); itera.hasNext(); ) ((Attribute) itera.next()).emit(out); } out.writeChar(attributes().size()); for (Iterator itera = attributes().iterator(); itera.hasNext(); ) ((Attribute) itera.next()).emit(out); out.close(); } catch (IOException e) { e.printStackTrace(); } }
protected void processWarnings(Collection warnings, CompilationUnit unit) { System.err.println("Warnings:"); for (Iterator iter2 = warnings.iterator(); iter2.hasNext(); ) { System.err.println(iter2.next()); } }
protected void processErrors(Collection errors, CompilationUnit unit) { System.err.println("Errors:"); for (Iterator iter2 = errors.iterator(); iter2.hasNext(); ) { System.err.println(iter2.next()); } }