Ejemplo n.º 1
0
 public Bean(String classPackage, String clazz, ClassLoaderStrategy cls, Bean topLevelBean)
     throws Exception {
   // Get the no-arg constructor and create the bean
   try {
     Class classOfBean = ObjectXml.getClassOfBean((ClassLoader) cls, classPackage + "." + clazz);
     Constructor ct = null;
     // check whether this class is an inner class
     if (classOfBean.getEnclosingClass() != null) {
       ct = classOfBean.getConstructor(new Class[] {classOfBean.getEnclosingClass()});
       beanObject = ct.newInstance(new Object[] {topLevelBean.getBeanObject()});
     } else {
       ct = classOfBean.getConstructor((Class[]) null);
       beanObject = ct.newInstance((Object[]) null);
     }
     // Get an array of property descriptors
     beanInfo = Introspector.getBeanInfo(classOfBean);
     PropertyDescriptor[] pds = beanInfo.getPropertyDescriptors();
     // load property descriptors into hashtable
     propDesc = new Properties();
     for (int i = 0; i < pds.length; i++) {
       propDesc.put(pds[i].getName(), pds[i]);
     }
   } catch (Exception e) {
     System.err.println("Exception creating bean: " + e.getMessage());
     e.printStackTrace();
     throw e;
   }
 }
 @Test
 public void testEnclosingType() throws Exception {
   for (Class<?> type : standardTypes) {
     assertThat(
         describe(type).getEnclosingType(),
         type.getEnclosingClass() == null
             ? nullValue(TypeDescription.class)
             : is((TypeDescription) new TypeDescription.ForLoadedType(type.getEnclosingClass())));
   }
 }
Ejemplo n.º 3
0
  public JavaType findType(String name) {
    if (_bindings == null) {
      _resolve();
    }
    JavaType t = _bindings.get(name);
    if (t != null) {
      return t;
    }
    if (_placeholders != null && _placeholders.contains(name)) {
      return UNBOUND;
    }
    // New with 1.7: check parent context
    if (_parentBindings != null) {
      return _parentBindings.findType(name);
    }
    // nothing found, so...
    // Should we throw an exception or just return null?

    /* [JACKSON-499] 18-Feb-2011, tatu: There are some tricky type bindings within
     *   java.util, such as HashMap$KeySet; so let's punt the problem
     *   (honestly not sure what to do -- they are unbound for good, I think)
     */
    if (_contextClass != null) {
      Class<?> enclosing = _contextClass.getEnclosingClass();
      if (enclosing != null) {
        // [JACKSON-572]: Actually, let's skip this for all non-static inner classes
        //   (which will also cover 'java.util' type cases...
        if (!Modifier.isStatic(_contextClass.getModifiers())) {
          return UNBOUND;
        }

        // ... so this piece of code should not be needed any more
        /*
        Package pkg = enclosing.getPackage();
        if (pkg != null) {
            // as per [JACKSON-533], also include "java.util.concurrent":
            if (pkg.getName().startsWith("java.util")) {
                return UNBOUND;
            }
        }
        */
      }
    }

    String className;
    if (_contextClass != null) {
      className = _contextClass.getName();
    } else if (_contextType != null) {
      className = _contextType.toString();
    } else {
      className = "UNKNOWN";
    }
    throw new IllegalArgumentException(
        "Type variable '"
            + name
            + "' can not be resolved (with context of class "
            + className
            + ")");
    // t = UNBOUND;
  }
 @Override
 public String getPartId(final Class<? extends PartPermission> permissionClass) {
   String permission =
       WordUtils.uncapitalize(permissionClass.getEnclosingClass().getSimpleName())
           + permissionClass.getSimpleName();
   return permission;
 }
Ejemplo n.º 5
0
  private void validateClass(Class<?> source, ValidationProblemCollector problems) {
    int modifiers = source.getModifiers();

    if (Modifier.isInterface(modifiers)) {
      problems.add("Must be a class, not an interface");
    }

    if (source.getEnclosingClass() != null) {
      if (Modifier.isStatic(modifiers)) {
        if (Modifier.isPrivate(modifiers)) {
          problems.add("Class cannot be private");
        }
      } else {
        problems.add("Enclosed classes must be static and non private");
      }
    }

    Constructor<?>[] constructors = source.getDeclaredConstructors();
    for (Constructor<?> constructor : constructors) {
      if (constructor.getParameterTypes().length > 0) {
        problems.add("Cannot declare a constructor that takes arguments");
        break;
      }
    }

    Field[] fields = source.getDeclaredFields();
    for (Field field : fields) {
      int fieldModifiers = field.getModifiers();
      if (!field.isSynthetic()
          && !(Modifier.isStatic(fieldModifiers) && Modifier.isFinal(fieldModifiers))) {
        problems.add(field, "Fields must be static final.");
      }
    }
  }
Ejemplo n.º 6
0
  public static String isLocalType(Class<?> type) {
    /* As per [JACKSON-187], GAE seems to throw SecurityExceptions
     * here and there... and GAE itself has a bug, too
     * (see []). Bah.
     */
    try {
      // one more: method locals, anonymous, are not good:
      if (type.getEnclosingMethod() != null) {
        return "local/anonymous";
      }

      /* But how about non-static inner classes? Can't construct
       * easily (theoretically, we could try to check if parent
       * happens to be enclosing... but that gets convoluted)
       */
      if (type.getEnclosingClass() != null) {
        if (!Modifier.isStatic(type.getModifiers())) {
          return "non-static member class";
        }
      }
    } catch (SecurityException e) {
    } catch (NullPointerException e) {
    }
    return null;
  }
Ejemplo n.º 7
0
  private Node register(final String s) {
    final Class<?> c;
    try {
      c = classForName(s);
    } catch (final ClassNotFoundException e1) {
      return null;
    }
    try {
      final Node n = getAlreadyBoundNode(c);
      return n;
    } catch (final NameResolutionException e) {
      // node not bound yet
    }
    // First, walk up the class hierarchy, registering all out parents. This
    // can't be loopy.
    if (c.getSuperclass() != null) {
      register(ReflectionUtilities.getFullName(c.getSuperclass()));
    }
    for (final Class<?> i : c.getInterfaces()) {
      register(ReflectionUtilities.getFullName(i));
    }
    // Now, we'd like to register our enclosing classes. This turns out to be
    // safe.
    // Thankfully, Java doesn't allow:
    // class A implements A.B { class B { } }

    // It also doesn't allow cycles such as:
    // class A implements B.BB { interface AA { } }
    // class B implements A.AA { interface BB { } }

    // So, even though grafting arbitrary DAGs together can give us cycles, Java
    // seems
    // to have our back on this one.
    final Class<?> enclosing = c.getEnclosingClass();
    if (enclosing != null) {
      register(ReflectionUtilities.getFullName(enclosing));
    }

    // Now register the class. This has to be after the above so we know our
    // parents (superclasses and enclosing packages) are already registered.
    final Node n = registerClass(c);

    // Finally, do things that might introduce cycles that invlove c.
    // This has to be below registerClass, which ensures that any cycles
    // this stuff introduces are broken.
    for (final Class<?> innerClass : c.getDeclaredClasses()) {
      register(ReflectionUtilities.getFullName(innerClass));
    }
    if (n instanceof ClassNode) {
      final ClassNode<?> cls = (ClassNode<?>) n;
      for (final ConstructorDef<?> def : cls.getInjectableConstructors()) {
        for (final ConstructorArg arg : def.getArgs()) {
          register(arg.getType());
          if (arg.getNamedParameterName() != null) {
            final NamedParameterNode<?> np =
                (NamedParameterNode<?>) register(arg.getNamedParameterName());
            try {
              // TODO: When handling sets, need to track target of generic parameter, and check the
              // type here!
              if (!np.isSet()
                  && !np.isList()
                  && !ReflectionUtilities.isCoercable(
                      classForName(arg.getType()), classForName(np.getFullArgName()))) {
                throw new ClassHierarchyException(
                    "Named parameter type mismatch in "
                        + cls.getFullName()
                        + ".  Constructor expects a "
                        + arg.getType()
                        + " but "
                        + np.getName()
                        + " is a "
                        + np.getFullArgName());
              }
            } catch (final ClassNotFoundException e) {
              throw new ClassHierarchyException(
                  "Constructor refers to unknown class " + arg.getType(), e);
            }
          }
        }
      }
    } else if (n instanceof NamedParameterNode) {
      final NamedParameterNode<?> np = (NamedParameterNode<?>) n;
      register(np.getFullArgName());
    }
    return n;
  }