Example #1
0
 public static ClassNode configureTypeVariableReference(String name) {
   ClassNode cn = ClassHelper.makeWithoutCaching(name);
   cn.setGenericsPlaceHolder(true);
   ClassNode cn2 = ClassHelper.makeWithoutCaching(name);
   cn2.setGenericsPlaceHolder(true);
   GenericsType[] gts = new GenericsType[] {new GenericsType(cn2)};
   cn.setGenericsTypes(gts);
   cn.setRedirect(ClassHelper.OBJECT_TYPE);
   return cn;
 }
Example #2
0
 private ClassNode configureTypeVariableReference(TypeVariable tv) {
   ClassNode cn = ClassHelper.makeWithoutCaching(tv.getName());
   cn.setGenericsPlaceHolder(true);
   ClassNode cn2 = ClassHelper.makeWithoutCaching(tv.getName());
   cn2.setGenericsPlaceHolder(true);
   GenericsType[] gts = new GenericsType[] {new GenericsType(cn2)};
   cn.setGenericsTypes(gts);
   cn.setRedirect(ClassHelper.OBJECT_TYPE);
   return cn;
 }
 private ClassNode createInnerHelperClass(
     ClassNode buildee, String builderClassName, int fieldsSize) {
   final String fullName = buildee.getName() + "$" + builderClassName;
   ClassNode builder = new InnerClassNode(buildee, fullName, PUBLIC_STATIC, OBJECT_TYPE);
   GenericsType[] gtypes = new GenericsType[fieldsSize];
   for (int i = 0; i < gtypes.length; i++) {
     gtypes[i] = makePlaceholder(i);
   }
   builder.setGenericsTypes(gtypes);
   return builder;
 }
Example #4
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;
  }
Example #5
0
  public static ClassNode nonGeneric(ClassNode type) {
    if (type.isUsingGenerics()) {
      final ClassNode nonGen = ClassHelper.makeWithoutCaching(type.getName());
      nonGen.setRedirect(type);
      nonGen.setGenericsTypes(null);
      nonGen.setUsingGenerics(false);
      return nonGen;
    }

    if (type.isArray()) {
      final ClassNode nonGen = ClassHelper.makeWithoutCaching(Object.class);
      nonGen.setUsingGenerics(false);
      return nonGen.makeArray();
    }

    return type.getPlainNodeReference();
  }
Example #6
0
  private ClassNode configureWildcardType(WildcardType wildcardType) {
    ClassNode base = ClassHelper.makeWithoutCaching("?");
    base.setRedirect(ClassHelper.OBJECT_TYPE);
    // TODO: more than one lower bound for wildcards?
    ClassNode[] lowers = configureTypes(wildcardType.getLowerBounds());
    ClassNode lower = null;
    // TODO: is it safe to remove this? What was the original intention?
    if (lower != null) lower = lowers[0];

    ClassNode[] upper = configureTypes(wildcardType.getUpperBounds());
    GenericsType t = new GenericsType(base, upper, lower);
    t.setWildcard(true);

    ClassNode ref = ClassHelper.makeWithoutCaching(Object.class, false);
    ref.setGenericsTypes(new GenericsType[] {t});

    return ref;
  }
 public ClassNode parameterizedType(ClassNode baseType, ClassNode... genericsTypeArguments) {
   ClassNode result = baseType.getPlainNodeReference();
   if (result.isUsingGenerics()) {
     GenericsType[] gts = new GenericsType[genericsTypeArguments.length];
     int expectedLength = result.getGenericsTypes().length;
     if (expectedLength != genericsTypeArguments.length) {
       throw new GroovyBugError(
           "Expected number of generic type arguments for "
               + baseType.toString(false)
               + " is "
               + expectedLength
               + " but you gave "
               + genericsTypeArguments.length);
     }
     for (int i = 0; i < gts.length; i++) {
       gts[i] = new GenericsType(genericsTypeArguments[i]);
     }
     result.setGenericsTypes(gts);
   }
   return result;
 }
Example #8
0
 private void setGenericsTypes(ClassNode cn) {
   TypeVariable[] tvs = cn.getTypeClass().getTypeParameters();
   GenericsType[] gts = configureTypeVariable(tvs);
   cn.setGenericsTypes(gts);
 }
Example #9
0
 private ClassNode configureParameterizedType(ParameterizedType parameterizedType) {
   ClassNode base = configureType(parameterizedType.getRawType());
   GenericsType[] gts = configureTypeArguments(parameterizedType.getActualTypeArguments());
   base.setGenericsTypes(gts);
   return base;
 }
  public static void apply(ClassNode declaringClass) {
    injectInterface(declaringClass, MYBATIS_CONTRIBUTION_HANDLER_CNODE);

    // add field:
    // protected MybatisProvider this$MybatisProvider = DefaultMybatisProvider.instance
    FieldNode providerField =
        declaringClass.addField(
            MYBATIS_PROVIDER_FIELD_NAME,
            ACC_PRIVATE | ACC_SYNTHETIC,
            MYBATIS_PROVIDER_CNODE,
            defaultMybatisProviderInstance());

    // add method:
    // MybatisProvider getMybatisProvider() {
    //     return this$MybatisProvider
    // }
    injectMethod(
        declaringClass,
        new MethodNode(
            METHOD_GET_MYBATIS_PROVIDER,
            ACC_PUBLIC,
            MYBATIS_PROVIDER_CNODE,
            Parameter.EMPTY_ARRAY,
            NO_EXCEPTIONS,
            returns(field(providerField))));

    // add method:
    // void setMybatisProvider(MybatisProvider provider) {
    //     this$MybatisProvider = provider ?: DefaultMybatisProvider.instance
    // }
    injectMethod(
        declaringClass,
        new MethodNode(
            METHOD_SET_MYBATIS_PROVIDER,
            ACC_PUBLIC,
            ClassHelper.VOID_TYPE,
            params(param(MYBATIS_PROVIDER_CNODE, PROVIDER)),
            NO_EXCEPTIONS,
            block(
                ifs_no_return(
                    cmp(var(PROVIDER), ConstantExpression.NULL),
                    assigns(field(providerField), defaultMybatisProviderInstance()),
                    assigns(field(providerField), var(PROVIDER))))));

    for (MethodNode method : MYBATIS_CONTRIBUTION_HANDLER_CNODE.getMethods()) {
      if (Arrays.binarySearch(DELEGATING_METHODS, method.getName()) < 0) continue;
      List<Expression> variables = new ArrayList<Expression>();
      Parameter[] parameters = new Parameter[method.getParameters().length];
      for (int i = 0; i < method.getParameters().length; i++) {
        Parameter p = method.getParameters()[i];
        parameters[i] = new Parameter(makeClassSafe(p.getType()), p.getName());
        parameters[i].getType().setGenericsTypes(p.getType().getGenericsTypes());
        variables.add(var(p.getName()));
      }
      ClassNode returnType = makeClassSafe(method.getReturnType());
      returnType.setGenericsTypes(method.getReturnType().getGenericsTypes());
      returnType.setGenericsPlaceHolder(method.getReturnType().isGenericsPlaceHolder());

      MethodNode newMethod =
          new MethodNode(
              method.getName(),
              ACC_PUBLIC,
              returnType,
              parameters,
              NO_EXCEPTIONS,
              returns(call(field(providerField), method.getName(), args(variables))));
      newMethod.setGenericsTypes(method.getGenericsTypes());
      injectMethod(declaringClass, newMethod);
    }
  }