private Statement createConstructorStatement( ClassNode cNode, PropertyNode pNode, List<String> knownImmutableClasses, List<String> knownImmutables) { FieldNode fNode = pNode.getField(); final ClassNode fieldType = fNode.getType(); Statement statement = null; if (fieldType.isArray() || isOrImplements(fieldType, CLONEABLE_TYPE)) { statement = createConstructorStatementArrayOrCloneable(fNode); } else if (isKnownImmutableClass(fieldType, knownImmutableClasses) || isKnownImmutable(pNode.getName(), knownImmutables)) { statement = createConstructorStatementDefault(fNode); } else if (fieldType.isDerivedFrom(DATE_TYPE)) { statement = createConstructorStatementDate(fNode); } else if (isOrImplements(fieldType, COLLECTION_TYPE) || fieldType.isDerivedFrom(COLLECTION_TYPE) || isOrImplements(fieldType, MAP_TYPE) || fieldType.isDerivedFrom(MAP_TYPE)) { statement = createConstructorStatementCollection(fNode); } else if (fieldType.isResolved()) { addError( createErrorMessage(cNode.getName(), fNode.getName(), fieldType.getName(), "compiling"), fNode); statement = EmptyStatement.INSTANCE; } else { statement = createConstructorStatementGuarded(cNode, fNode); } return statement; }
private Statement createGetterBody(FieldNode fNode) { BlockStatement body = new BlockStatement(); final ClassNode fieldType = fNode.getType(); final Statement statement; if (fieldType.isArray() || isOrImplements(fieldType, CLONEABLE_TYPE)) { statement = createGetterBodyArrayOrCloneable(fNode); } else if (fieldType.isDerivedFrom(DATE_TYPE)) { statement = createGetterBodyDate(fNode); } else { statement = createGetterBodyDefault(fNode); } body.addStatement(statement); return body; }
public static boolean implementsInterfaceOrIsSubclassOf( ClassNode type, ClassNode superOrInterface) { boolean result = type.equals(superOrInterface) || type.isDerivedFrom(superOrInterface) || type.implementsInterface(superOrInterface) || type == UNKNOWN_PARAMETER_TYPE; if (result) { return true; } if (superOrInterface instanceof WideningCategories.LowestUpperBoundClassNode) { WideningCategories.LowestUpperBoundClassNode cn = (WideningCategories.LowestUpperBoundClassNode) superOrInterface; result = implementsInterfaceOrIsSubclassOf(type, cn.getSuperClass()); if (result) { for (ClassNode interfaceNode : cn.getInterfaces()) { result = type.implementsInterface(interfaceNode); if (!result) break; } } if (result) return true; } else if (superOrInterface instanceof UnionTypeClassNode) { UnionTypeClassNode union = (UnionTypeClassNode) superOrInterface; for (ClassNode delegate : union.getDelegates()) { if (implementsInterfaceOrIsSubclassOf(type, delegate)) return true; } } if (type.isArray() && superOrInterface.isArray()) { return implementsInterfaceOrIsSubclassOf( type.getComponentType(), superOrInterface.getComponentType()); } if (GROOVY_OBJECT_TYPE.equals(superOrInterface) && !type.isInterface() && isBeingCompiled(type)) { return true; } return false; }
@Override public void makeGetPropertySite( Expression receiver, final String methodName, final boolean safe, final boolean implicitThis) { Object dynamic = receiver.getNodeMetaData(StaticCompilationMetadataKeys.RECEIVER_OF_DYNAMIC_PROPERTY); if (dynamic != null) { MethodNode target = safe ? INVOKERHELPER_GETPROPERTYSAFE_METHOD : INVOKERHELPER_GETPROPERTY_METHOD; MethodCallExpression mce = new MethodCallExpression( new ClassExpression(INVOKERHELPER_TYPE), target.getName(), new ArgumentListExpression(receiver, new ConstantExpression(methodName))); mce.setSafe(false); mce.setImplicitThis(false); mce.setMethodTarget(target); mce.visit(controller.getAcg()); return; } TypeChooser typeChooser = controller.getTypeChooser(); ClassNode classNode = controller.getClassNode(); ClassNode receiverType = (ClassNode) receiver.getNodeMetaData(StaticCompilationMetadataKeys.PROPERTY_OWNER); if (receiverType == null) { receiverType = typeChooser.resolveType(receiver, classNode); } Object type = receiver.getNodeMetaData(StaticTypesMarker.INFERRED_TYPE); if (type == null && receiver instanceof VariableExpression) { Variable variable = ((VariableExpression) receiver).getAccessedVariable(); if (variable instanceof Expression) { type = ((Expression) variable).getNodeMetaData(StaticTypesMarker.INFERRED_TYPE); } } if (type != null) { // in case a "flow type" is found, it is preferred to use it instead of // the declaration type receiverType = (ClassNode) type; } boolean isClassReceiver = false; if (isClassClassNodeWrappingConcreteType(receiverType)) { isClassReceiver = true; receiverType = receiverType.getGenericsTypes()[0].getType(); } MethodVisitor mv = controller.getMethodVisitor(); if (receiverType.isArray() && methodName.equals("length")) { receiver.visit(controller.getAcg()); ClassNode arrayGetReturnType = typeChooser.resolveType(receiver, classNode); controller.getOperandStack().doGroovyCast(arrayGetReturnType); mv.visitInsn(ARRAYLENGTH); controller.getOperandStack().replace(int_TYPE); return; } else if ((receiverType.implementsInterface(COLLECTION_TYPE) || COLLECTION_TYPE.equals(receiverType)) && ("size".equals(methodName) || "length".equals(methodName))) { MethodCallExpression expr = new MethodCallExpression(receiver, "size", ArgumentListExpression.EMPTY_ARGUMENTS); expr.setMethodTarget(COLLECTION_SIZE_METHOD); expr.setImplicitThis(implicitThis); expr.setSafe(safe); expr.visit(controller.getAcg()); return; } if (makeGetPropertyWithGetter(receiver, receiverType, methodName, safe, implicitThis)) return; if (makeGetField( receiver, receiverType, methodName, implicitThis, samePackages(receiverType.getPackageName(), classNode.getPackageName()))) return; if (receiverType.isEnum()) { mv.visitFieldInsn( GETSTATIC, BytecodeHelper.getClassInternalName(receiverType), methodName, BytecodeHelper.getTypeDescription(receiverType)); controller.getOperandStack().push(receiverType); return; } if (receiver instanceof ClassExpression) { if (makeGetField( receiver, receiver.getType(), methodName, implicitThis, samePackages(receiver.getType().getPackageName(), classNode.getPackageName()))) return; if (makeGetPropertyWithGetter(receiver, receiver.getType(), methodName, safe, implicitThis)) return; if (makeGetPrivateFieldWithBridgeMethod( receiver, receiver.getType(), methodName, safe, implicitThis)) return; } if (isClassReceiver) { // we are probably looking for a property of the class if (makeGetPropertyWithGetter(receiver, CLASS_Type, methodName, safe, implicitThis)) return; if (makeGetField(receiver, CLASS_Type, methodName, false, true)) return; } if (makeGetPrivateFieldWithBridgeMethod(receiver, receiverType, methodName, safe, implicitThis)) return; // GROOVY-5580, it is still possible that we're calling a superinterface property String getterName = "get" + MetaClassHelper.capitalize(methodName); if (receiverType.isInterface()) { Set<ClassNode> allInterfaces = receiverType.getAllInterfaces(); MethodNode getterMethod = null; for (ClassNode anInterface : allInterfaces) { getterMethod = anInterface.getGetterMethod(getterName); if (getterMethod != null) break; } // GROOVY-5585 if (getterMethod == null) { getterMethod = OBJECT_TYPE.getGetterMethod(getterName); } if (getterMethod != null) { MethodCallExpression call = new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS); call.setMethodTarget(getterMethod); call.setImplicitThis(false); call.setSourcePosition(receiver); call.visit(controller.getAcg()); return; } } // GROOVY-5568, we would be facing a DGM call, but instead of foo.getText(), have foo.text List<MethodNode> methods = findDGMMethodsByNameAndArguments( controller.getSourceUnit().getClassLoader(), receiverType, getterName, ClassNode.EMPTY_ARRAY); if (!methods.isEmpty()) { List<MethodNode> methodNodes = chooseBestMethod(receiverType, methods, ClassNode.EMPTY_ARRAY); if (methodNodes.size() == 1) { MethodNode getter = methodNodes.get(0); MethodCallExpression call = new MethodCallExpression(receiver, getterName, ArgumentListExpression.EMPTY_ARGUMENTS); call.setMethodTarget(getter); call.setImplicitThis(false); call.setSourcePosition(receiver); call.visit(controller.getAcg()); return; } } boolean isStaticProperty = receiver instanceof ClassExpression && (receiverType.isDerivedFrom(receiver.getType()) || receiverType.implementsInterface(receiver.getType())); if (!isStaticProperty) { if (receiverType.implementsInterface(MAP_TYPE) || MAP_TYPE.equals(receiverType)) { // for maps, replace map.foo with map.get('foo') writeMapDotProperty(receiver, methodName, mv, safe); return; } if (receiverType.implementsInterface(LIST_TYPE) || LIST_TYPE.equals(receiverType)) { writeListDotProperty(receiver, methodName, mv, safe); return; } } controller .getSourceUnit() .addError( new SyntaxException( "Access to " + (receiver instanceof ClassExpression ? receiver.getType() : receiverType) .toString(false) + "#" + methodName + " is forbidden", receiver.getLineNumber(), receiver.getColumnNumber(), receiver.getLastLineNumber(), receiver.getLastColumnNumber())); controller.getMethodVisitor().visitInsn(ACONST_NULL); controller.getOperandStack().push(OBJECT_TYPE); }
private boolean trySubscript( final Expression receiver, final String message, final Expression arguments, ClassNode rType, final ClassNode aType) { if (getWrapper(rType).isDerivedFrom(Number_TYPE) && getWrapper(aType).isDerivedFrom(Number_TYPE)) { if ("plus".equals(message) || "minus".equals(message) || "multiply".equals(message) || "div".equals(message)) { writeNumberNumberCall(receiver, message, arguments); return true; } else if ("power".equals(message)) { writePowerCall(receiver, arguments, rType, aType); return true; } else if ("mod".equals(message)) { writeModCall(receiver, arguments, rType, aType); return true; } } else if (STRING_TYPE.equals(rType) && "plus".equals(message)) { writeStringPlusCall(receiver, message, arguments); return true; } else if ("getAt".equals(message)) { if (rType.isArray() && getWrapper(aType).isDerivedFrom(Number_TYPE)) { writeArrayGet(receiver, arguments, rType, aType); return true; } else { // check if a getAt method can be found on the receiver ClassNode current = rType; MethodNode getAtNode = null; while (current != null && getAtNode == null) { getAtNode = current.getMethod("getAt", new Parameter[] {new Parameter(aType, "index")}); if (getAtNode == null && isPrimitiveType(aType)) { getAtNode = current.getMethod( "getAt", new Parameter[] {new Parameter(getWrapper(aType), "index")}); } else if (getAtNode == null && aType.isDerivedFrom(Number_TYPE)) { getAtNode = current.getMethod( "getAt", new Parameter[] {new Parameter(getUnwrapper(aType), "index")}); } current = current.getSuperClass(); } if (getAtNode != null) { MethodCallExpression call = new MethodCallExpression(receiver, "getAt", arguments); call.setSourcePosition(arguments); call.setImplicitThis(false); call.setMethodTarget(getAtNode); call.visit(controller.getAcg()); return true; } // make sure Map#getAt() and List#getAt handled with the bracket syntax are properly // compiled ClassNode[] args = {aType}; boolean acceptAnyMethod = MAP_TYPE.equals(rType) || rType.implementsInterface(MAP_TYPE) || LIST_TYPE.equals(rType) || rType.implementsInterface(LIST_TYPE); List<MethodNode> nodes = StaticTypeCheckingSupport.findDGMMethodsByNameAndArguments( controller.getSourceUnit().getClassLoader(), rType, message, args); if (nodes.isEmpty()) { // retry with raw types rType = rType.getPlainNodeReference(); nodes = StaticTypeCheckingSupport.findDGMMethodsByNameAndArguments( controller.getSourceUnit().getClassLoader(), rType, message, args); } nodes = StaticTypeCheckingSupport.chooseBestMethod(rType, nodes, args); if (nodes.size() == 1 || nodes.size() > 1 && acceptAnyMethod) { MethodNode methodNode = nodes.get(0); MethodCallExpression call = new MethodCallExpression(receiver, message, arguments); call.setSourcePosition(arguments); call.setImplicitThis(false); call.setMethodTarget(methodNode); call.visit(controller.getAcg()); return true; } if (implementsInterfaceOrIsSubclassOf(rType, MAP_TYPE)) { // fallback to Map#get MethodCallExpression call = new MethodCallExpression(receiver, "get", arguments); call.setMethodTarget(MAP_GET_METHOD); call.setSourcePosition(arguments); call.setImplicitThis(false); call.visit(controller.getAcg()); return true; } } } return false; }
Expression transformBinaryExpression(final BinaryExpression bin) { if (bin instanceof DeclarationExpression) { Expression optimized = transformDeclarationExpression(bin); if (optimized != null) { return optimized; } } Object[] list = bin.getNodeMetaData(BINARY_EXP_TARGET); Token operation = bin.getOperation(); int operationType = operation.getType(); Expression rightExpression = bin.getRightExpression(); Expression leftExpression = bin.getLeftExpression(); if (bin instanceof DeclarationExpression && leftExpression instanceof VariableExpression) { ClassNode declarationType = ((VariableExpression) leftExpression).getOriginType(); if (rightExpression instanceof ConstantExpression) { ClassNode unwrapper = ClassHelper.getUnwrapper(declarationType); ClassNode wrapper = ClassHelper.getWrapper(declarationType); if (!rightExpression.getType().equals(declarationType) && wrapper.isDerivedFrom(ClassHelper.Number_TYPE) && WideningCategories.isDoubleCategory(unwrapper)) { ConstantExpression constant = (ConstantExpression) rightExpression; if (constant.getValue() != null) { return optimizeConstantInitialization( bin, operation, constant, leftExpression, declarationType); } } } } if (operationType == Types.EQUAL && leftExpression instanceof PropertyExpression) { MethodNode directMCT = leftExpression.getNodeMetaData(StaticTypesMarker.DIRECT_METHOD_CALL_TARGET); if (directMCT != null) { return transformPropertyAssignmentToSetterCall( (PropertyExpression) leftExpression, rightExpression, directMCT); } } if (operationType == Types.COMPARE_EQUAL || operationType == Types.COMPARE_NOT_EQUAL) { // let's check if one of the operands is the null constant CompareToNullExpression compareToNullExpression = null; if (isNullConstant(leftExpression)) { compareToNullExpression = new CompareToNullExpression( staticCompilationTransformer.transform(rightExpression), operationType == Types.COMPARE_EQUAL); } else if (isNullConstant(rightExpression)) { compareToNullExpression = new CompareToNullExpression( staticCompilationTransformer.transform(leftExpression), operationType == Types.COMPARE_EQUAL); } if (compareToNullExpression != null) { compareToNullExpression.setSourcePosition(bin); return compareToNullExpression; } } else if (operationType == Types.KEYWORD_IN) { return convertInOperatorToTernary(bin, rightExpression, leftExpression); } if (list != null) { if (operationType == Types.COMPARE_TO) { StaticTypesTypeChooser typeChooser = staticCompilationTransformer.getTypeChooser(); ClassNode classNode = staticCompilationTransformer.getClassNode(); ClassNode leftType = typeChooser.resolveType(leftExpression, classNode); if (leftType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) { ClassNode rightType = typeChooser.resolveType(rightExpression, classNode); if (rightType.implementsInterface(ClassHelper.COMPARABLE_TYPE)) { Expression left = staticCompilationTransformer.transform(leftExpression); Expression right = staticCompilationTransformer.transform(rightExpression); MethodCallExpression call = new MethodCallExpression(left, "compareTo", new ArgumentListExpression(right)); call.setImplicitThis(false); call.setMethodTarget(COMPARE_TO_METHOD); CompareIdentityExpression compareIdentity = new CompareIdentityExpression(left, right); compareIdentity.putNodeMetaData( StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.boolean_TYPE); TernaryExpression result = new TernaryExpression( new BooleanExpression(compareIdentity), // a==b CONSTANT_ZERO, new TernaryExpression( new BooleanExpression(new CompareToNullExpression(left, true)), // a==null CONSTANT_MINUS_ONE, new TernaryExpression( new BooleanExpression( new CompareToNullExpression(right, true)), // b==null CONSTANT_ONE, call))); compareIdentity.putNodeMetaData( StaticTypesMarker.INFERRED_RETURN_TYPE, ClassHelper.int_TYPE); result.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE); TernaryExpression expr = (TernaryExpression) result.getFalseExpression(); expr.putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE); expr.getFalseExpression() .putNodeMetaData(StaticTypesMarker.INFERRED_TYPE, ClassHelper.int_TYPE); return result; } } } boolean isAssignment = StaticTypeCheckingSupport.isAssignment(operationType); MethodCallExpression call; MethodNode node = (MethodNode) list[0]; String name = (String) list[1]; Expression left = staticCompilationTransformer.transform(leftExpression); Expression right = staticCompilationTransformer.transform(rightExpression); BinaryExpression optimized = tryOptimizeCharComparison(left, right, bin); if (optimized != null) { optimized.removeNodeMetaData(BINARY_EXP_TARGET); return transformBinaryExpression(optimized); } call = new MethodCallExpression(left, name, new ArgumentListExpression(right)); call.setImplicitThis(false); call.setMethodTarget(node); MethodNode adapter = StaticCompilationTransformer.BYTECODE_BINARY_ADAPTERS.get(operationType); if (adapter != null) { ClassExpression sba = new ClassExpression(StaticCompilationTransformer.BYTECODE_ADAPTER_CLASS); // replace with compareEquals call = new MethodCallExpression(sba, "compareEquals", new ArgumentListExpression(left, right)); call.setMethodTarget(adapter); call.setImplicitThis(false); } if (!isAssignment) return call; // case of +=, -=, /=, ... // the method represents the operation type only, and we must add an assignment return new BinaryExpression( left, Token.newSymbol("=", operation.getStartLine(), operation.getStartColumn()), call); } if (bin.getOperation().getType() == Types.EQUAL && leftExpression instanceof TupleExpression && rightExpression instanceof ListExpression) { // multiple assignment ListOfExpressionsExpression cle = new ListOfExpressionsExpression(); boolean isDeclaration = bin instanceof DeclarationExpression; List<Expression> leftExpressions = ((TupleExpression) leftExpression).getExpressions(); List<Expression> rightExpressions = ((ListExpression) rightExpression).getExpressions(); Iterator<Expression> leftIt = leftExpressions.iterator(); Iterator<Expression> rightIt = rightExpressions.iterator(); if (isDeclaration) { while (leftIt.hasNext()) { Expression left = leftIt.next(); if (rightIt.hasNext()) { Expression right = rightIt.next(); BinaryExpression bexp = new DeclarationExpression(left, bin.getOperation(), right); bexp.setSourcePosition(right); cle.addExpression(bexp); } } } else { // (next, result) = [ result, next+result ] // --> // def tmp1 = result // def tmp2 = next+result // next = tmp1 // result = tmp2 int size = rightExpressions.size(); List<Expression> tmpAssignments = new ArrayList<Expression>(size); List<Expression> finalAssignments = new ArrayList<Expression>(size); for (int i = 0; i < Math.min(size, leftExpressions.size()); i++) { Expression left = leftIt.next(); Expression right = rightIt.next(); VariableExpression tmpVar = new VariableExpression("$tmpVar$" + tmpVarCounter++); BinaryExpression bexp = new DeclarationExpression(tmpVar, bin.getOperation(), right); bexp.setSourcePosition(right); tmpAssignments.add(bexp); bexp = new BinaryExpression(left, bin.getOperation(), new VariableExpression(tmpVar)); bexp.setSourcePosition(left); finalAssignments.add(bexp); } for (Expression tmpAssignment : tmpAssignments) { cle.addExpression(tmpAssignment); } for (Expression finalAssignment : finalAssignments) { cle.addExpression(finalAssignment); } } return staticCompilationTransformer.transform(cle); } return staticCompilationTransformer.superTransform(bin); }