public static boolean isConstructorMethod(MethodNode declaredMethod) { return declaredMethod.isStatic() && declaredMethod.isPublic() && declaredMethod.getName().equals("initialize") && declaredMethod.getParameters().length >= 1 && declaredMethod .getParameters()[0] .getType() .equals(AbstractGrailsArtefactTransformer.OBJECT_CLASS); }
/** * This method is used to add "bridge" methods for private methods of an inner/outer class, so * that the outer class is capable of calling them. It does basically the same job as access$000 * like methods in Java. * * @param node an inner/outer class node for which to generate bridge methods */ @SuppressWarnings("unchecked") private void addPrivateBridgeMethods(final ClassNode node) { Set<ASTNode> accessedMethods = (Set<ASTNode>) node.getNodeMetaData(StaticTypesMarker.PV_METHODS_ACCESS); if (accessedMethods == null) return; List<MethodNode> methods = new ArrayList<MethodNode>(node.getAllDeclaredMethods()); Map<MethodNode, MethodNode> privateBridgeMethods = (Map<MethodNode, MethodNode>) node.getNodeMetaData(PRIVATE_BRIDGE_METHODS); if (privateBridgeMethods != null) { // private bridge methods already added return; } privateBridgeMethods = new HashMap<MethodNode, MethodNode>(); int i = -1; final int access = Opcodes.ACC_STATIC | Opcodes.ACC_PUBLIC | Opcodes.ACC_SYNTHETIC; for (MethodNode method : methods) { if (accessedMethods.contains(method)) { i++; Parameter[] methodParameters = method.getParameters(); Parameter[] newParams = new Parameter[methodParameters.length + 1]; System.arraycopy(methodParameters, 0, newParams, 1, methodParameters.length); newParams[0] = new Parameter(node.getPlainNodeReference(), "$that"); Expression arguments; if (method.getParameters() == null || method.getParameters().length == 0) { arguments = ArgumentListExpression.EMPTY_ARGUMENTS; } else { List<Expression> args = new LinkedList<Expression>(); for (Parameter parameter : methodParameters) { args.add(new VariableExpression(parameter)); } arguments = new ArgumentListExpression(args); } Expression receiver = method.isStatic() ? new ClassExpression(node) : new VariableExpression(newParams[0]); MethodCallExpression mce = new MethodCallExpression(receiver, method.getName(), arguments); mce.setMethodTarget(method); ExpressionStatement returnStatement = new ExpressionStatement(mce); MethodNode bridge = node.addMethod( "access$" + i, access, method.getReturnType(), newParams, method.getExceptions(), returnStatement); privateBridgeMethods.put(method, bridge); bridge.addAnnotation(new AnnotationNode(COMPILESTATIC_CLASSNODE)); } } if (!privateBridgeMethods.isEmpty()) { node.setNodeMetaData(PRIVATE_BRIDGE_METHODS, privateBridgeMethods); } }
protected void visitConstructorOrMethod(MethodNode node, boolean isConstructor) { pushState(node.isStatic()); inConstructor = isConstructor; node.setVariableScope(currentScope); visitAnnotations(node); // GROOVY-2156 Parameter[] parameters = node.getParameters(); for (Parameter parameter : parameters) { visitAnnotations(parameter); } declare(node.getParameters(), node); visitClassCodeContainer(node.getCode()); popState(); }
private void checkMethodsForIncorrectModifiers(ClassNode cn) { if (!cn.isInterface()) return; for (MethodNode method : cn.getMethods()) { if (method.isFinal()) { addError( "The " + getDescription(method) + " from " + getDescription(cn) + " must not be final. It is by definition abstract.", method); } if (method.isStatic() && !isConstructor(method)) { addError( "The " + getDescription(method) + " from " + getDescription(cn) + " must not be static. Only fields may be static in an interface.", method); } } }
protected Expression transformPropertyExpression(PropertyExpression pe) { if (currentMethod != null && currentMethod.isStatic() && pe.getObjectExpression() instanceof VariableExpression && ((VariableExpression) pe.getObjectExpression()).isSuperExpression()) { PropertyExpression pexp = new PropertyExpression( new ClassExpression(currentClass.getSuperClass()), transform(pe.getProperty())); pexp.setSourcePosition(pe); return pexp; } boolean oldInPropertyExpression = inPropertyExpression; Expression oldFoundArgs = foundArgs; Expression oldFoundConstant = foundConstant; inPropertyExpression = true; foundArgs = null; foundConstant = null; Expression objectExpression = transform(pe.getObjectExpression()); boolean candidate = false; if (objectExpression instanceof MethodCallExpression) { candidate = ((MethodCallExpression) objectExpression).isImplicitThis(); } if (foundArgs != null && foundConstant != null && candidate) { Expression result = findStaticMethodImportFromModule(foundConstant, foundArgs); if (result != null) { objectExpression = result; objectExpression.setSourcePosition(pe); } } inPropertyExpression = oldInPropertyExpression; foundArgs = oldFoundArgs; foundConstant = oldFoundConstant; pe.setObjectExpression(objectExpression); return pe; }
private boolean isPublicInstanceMethod(MethodNode methodNode) { return !methodNode.isSynthetic() && !methodNode.isStatic() && methodNode.isPublic(); }
private boolean makeGetPropertyWithGetter( final Expression receiver, final ClassNode receiverType, final String methodName, final boolean safe, final boolean implicitThis) { // does a getter exists ? String getterName = "get" + MetaClassHelper.capitalize(methodName); MethodNode getterNode = receiverType.getGetterMethod(getterName); if (getterNode == null) { getterName = "is" + MetaClassHelper.capitalize(methodName); getterNode = receiverType.getGetterMethod(getterName); } if (getterNode != null && receiver instanceof ClassExpression && !CLASS_Type.equals(receiverType) && !getterNode.isStatic()) { return false; } // GROOVY-5561: if two files are compiled in the same source unit // and that one references the other, the getters for properties have not been // generated by the compiler yet (generated by the Verifier) PropertyNode propertyNode = receiverType.getProperty(methodName); if (propertyNode != null) { // it is possible to use a getter String prefix = "get"; if (boolean_TYPE.equals(propertyNode.getOriginType())) { prefix = "is"; } getterName = prefix + MetaClassHelper.capitalize(methodName); getterNode = new MethodNode( getterName, ACC_PUBLIC, propertyNode.getOriginType(), Parameter.EMPTY_ARRAY, ClassNode.EMPTY_ARRAY, EmptyStatement.INSTANCE); getterNode.setDeclaringClass(receiverType); if (propertyNode.isStatic()) getterNode.setModifiers(ACC_PUBLIC + ACC_STATIC); } if (getterNode != null) { MethodCallExpression call = new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS); call.setSourcePosition(receiver); call.setMethodTarget(getterNode); call.setImplicitThis(implicitThis); call.setSafe(safe); call.visit(controller.getAcg()); return true; } if (receiverType instanceof InnerClassNode && !receiverType.isStaticClass()) { if (makeGetPropertyWithGetter( receiver, receiverType.getOuterClass(), methodName, safe, implicitThis)) { return true; } } // go upper level ClassNode superClass = receiverType.getSuperClass(); if (superClass != null) { return makeGetPropertyWithGetter(receiver, superClass, methodName, safe, implicitThis); } return false; }
protected Expression transformMethodCallExpression(MethodCallExpression mce) { Expression args = transform(mce.getArguments()); Expression method = transform(mce.getMethod()); Expression object = transform(mce.getObjectExpression()); boolean isExplicitThisOrSuper = false; boolean isExplicitSuper = false; if (object instanceof VariableExpression) { VariableExpression ve = (VariableExpression) object; isExplicitThisOrSuper = !mce.isImplicitThis() && (ve.isThisExpression() || ve.isSuperExpression()); isExplicitSuper = ve.isSuperExpression(); } if (mce.isImplicitThis() || isExplicitThisOrSuper) { if (mce.isImplicitThis()) { Expression ret = findStaticMethodImportFromModule(method, args); if (ret != null) { setSourcePosition(ret, mce); return ret; } if (method instanceof ConstantExpression && !inLeftExpression) { // could be a closure field String methodName = (String) ((ConstantExpression) method).getValue(); ret = findStaticFieldOrPropAccessorImportFromModule(methodName); if (ret != null) { ret = new MethodCallExpression(ret, "call", args); setSourcePosition(ret, mce); return ret; } } } else if (currentMethod != null && currentMethod.isStatic() && isExplicitSuper) { MethodCallExpression ret = new MethodCallExpression( new ClassExpression(currentClass.getSuperClass()), method, args); setSourcePosition(ret, mce); return ret; } if (method instanceof ConstantExpression) { ConstantExpression ce = (ConstantExpression) method; Object value = ce.getValue(); if (value instanceof String) { String methodName = (String) value; boolean lookForPossibleStaticMethod = !methodName.equals("call"); if (currentMethod != null && !currentMethod.isStatic()) { if (currentClass.hasPossibleMethod(methodName, args)) { lookForPossibleStaticMethod = false; } } if (!inClosure && (inSpecialConstructorCall || (lookForPossibleStaticMethod && currentClass.hasPossibleStaticMethod(methodName, args)))) { StaticMethodCallExpression smce = new StaticMethodCallExpression(currentClass, methodName, args); setSourcePosition(smce, mce); return smce; } } } } MethodCallExpression result = new MethodCallExpression(object, method, args); result.setSafe(mce.isSafe()); result.setImplicitThis(mce.isImplicitThis()); result.setSpreadSafe(mce.isSpreadSafe()); result.setMethodTarget(mce.getMethodTarget()); // GROOVY-6757 result.setGenericsTypes(mce.getGenericsTypes()); setSourcePosition(result, mce); return result; }
protected Expression transformMethodCallExpression(MethodCallExpression mce) { Expression args = transform(mce.getArguments()); Expression method = transform(mce.getMethod()); Expression object = transform(mce.getObjectExpression()); boolean isExplicitThisOrSuper = false; if (object instanceof VariableExpression) { VariableExpression ve = (VariableExpression) object; isExplicitThisOrSuper = !mce.isImplicitThis() && (ve.getName().equals("this") || ve.getName().equals("super")); } if (mce.isImplicitThis() || isExplicitThisOrSuper) { if (mce.isImplicitThis()) { Expression ret = findStaticMethodImportFromModule(method, args); if (ret != null) { // GRECLIPSE add if (!((StaticMethodCallExpression) ret).getMethod().equals(method.getText())) { // store the identifier to facilitate organizing static imports ret.setNodeMetaData("static.import.alias", method.getText()); } // GRECLIPSE end setSourcePosition(ret, mce); return ret; } if (method instanceof ConstantExpression && !inLeftExpression) { // could be a closure field String methodName = (String) ((ConstantExpression) method).getValue(); ret = findStaticFieldOrPropAccessorImportFromModule(methodName); if (ret != null) { ret = new MethodCallExpression(ret, "call", args); setSourcePosition(ret, mce); return ret; } } } if (method instanceof ConstantExpression) { ConstantExpression ce = (ConstantExpression) method; Object value = ce.getValue(); if (value instanceof String) { String methodName = (String) value; boolean lookForPossibleStaticMethod = !methodName.equals("call"); if (currentMethod != null && !currentMethod.isStatic()) { if (currentClass.hasPossibleMethod(methodName, args)) { lookForPossibleStaticMethod = false; } } if (inSpecialConstructorCall || (lookForPossibleStaticMethod && currentClass.hasPossibleStaticMethod(methodName, args))) { StaticMethodCallExpression smce = new StaticMethodCallExpression(currentClass, methodName, args); setSourcePosition(smce, mce); return smce; } } } } MethodCallExpression result = new MethodCallExpression(object, method, args); result.setSafe(mce.isSafe()); result.setImplicitThis(mce.isImplicitThis()); result.setSpreadSafe(mce.isSpreadSafe()); result.setMethodTarget(mce.getMethodTarget()); // GROOVY-6757 result.setGenericsTypes(mce.getGenericsTypes()); setSourcePosition(result, mce); return result; }