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;
 }
Пример #2
0
  /**
   * Interface class nodes retrieved from {@link org.codehaus.groovy.ast.ClassNode#getInterfaces()}
   * or {@link org.codehaus.groovy.ast.ClassNode#getAllInterfaces()} are returned with generic type
   * arguments. This method allows returning a parameterized interface given the parameterized class
   * node which implements this interface.
   *
   * @param hint the class node where generics types are parameterized
   * @param target the interface we want to parameterize generics types
   * @return a parameterized interface class node
   */
  public static ClassNode parameterizeType(final ClassNode hint, final ClassNode target) {
    ClassNode interfaceFromClassNode = null;
    if (hint.equals(target)) interfaceFromClassNode = hint;
    if (ClassHelper.OBJECT_TYPE.equals(target)
        && target.isUsingGenerics()
        && target.getGenericsTypes() != null
        && target.getGenericsTypes()[0].isPlaceholder()) {
      // Object<T>
      return ClassHelper.getWrapper(hint);
    }
    if (interfaceFromClassNode == null) {
      ClassNode[] interfaces = hint.getInterfaces();
      for (ClassNode node : interfaces) {
        if (node.equals(target)) {
          interfaceFromClassNode = node;
          break;
        } else if (node.implementsInterface(target)) {
          // ex: classNode = LinkedList<A> , node=List<E> , anInterface = Iterable<T>
          return parameterizeType(parameterizeType(hint, node), target);
        }
      }
    }
    if (interfaceFromClassNode == null && hint.getUnresolvedSuperClass() != null) {
      return parameterizeType(hint.getUnresolvedSuperClass(), target);
    }
    if (interfaceFromClassNode == null) {

      //            return target;
      interfaceFromClassNode = hint;
    }
    Map<String, GenericsType> parameters = new HashMap<String, GenericsType>();
    extractPlaceholders(hint, parameters);
    ClassNode node = target.getPlainNodeReference();
    GenericsType[] interfaceGTs = interfaceFromClassNode.getGenericsTypes();
    if (interfaceGTs == null) return target;
    GenericsType[] types = new GenericsType[interfaceGTs.length];
    for (int i = 0; i < interfaceGTs.length; i++) {
      GenericsType interfaceGT = interfaceGTs[i];
      types[i] = interfaceGT;
      if (interfaceGT.isPlaceholder()) {
        String name = interfaceGT.getName();
        if (parameters.containsKey(name)) {
          types[i] = parameters.get(name);
        }
      }
    }
    node.setGenericsTypes(types);
    return node;
  }
  @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;
  }
 public static boolean isOrImplements(ClassNode type, ClassNode interfaceType) {
   return type.equals(interfaceType) || type.implementsInterface(interfaceType);
 }
Пример #6
0
  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);
  }