示例#1
0
  /**
   * Set the object to be edited.
   *
   * @param value The object to be edited.
   */
  public void setObject(Object value) {
    if (!(_type.isInstance(value))) {
      throw new IllegalArgumentException(value.getClass() + " is not of type " + _type);
    }
    _value = value;

    // Disable event generation.
    _squelchChangeEvents = true;

    // Iterate over each property, doing a lookup on the associated editor
    // and setting the editor's value to the value of the property.
    Iterator it = _prop2Editor.keySet().iterator();
    while (it.hasNext()) {
      PropertyDescriptor desc = (PropertyDescriptor) it.next();
      PropertyEditor editor = (PropertyEditor) _prop2Editor.get(desc);
      Method reader = desc.getReadMethod();
      if (reader != null) {
        try {
          Object val = reader.invoke(_value, null);
          editor.setValue(val);
        } catch (IllegalAccessException ex) {
          ex.printStackTrace();
        } catch (InvocationTargetException ex) {
          ex.getTargetException().printStackTrace();
        }
      }
    }

    // Enable event generation.
    _squelchChangeEvents = false;
  }
示例#2
0
  /**
   * Remove records telling what entity caps node a contact has.
   *
   * @param contact the contact
   */
  public void removeContactCapsNode(Contact contact) {
    Caps caps = null;
    String lastRemovedJid = null;

    Iterator<String> iter = userCaps.keySet().iterator();
    while (iter.hasNext()) {
      String jid = iter.next();

      if (StringUtils.parseBareAddress(jid).equals(contact.getAddress())) {
        caps = userCaps.get(jid);
        lastRemovedJid = jid;
        iter.remove();
      }
    }

    // fire only for the last one, at the end the event out
    // of the protocol will be one and for the contact
    if (caps != null) {
      UserCapsNodeListener[] listeners;
      synchronized (userCapsNodeListeners) {
        listeners = userCapsNodeListeners.toArray(NO_USER_CAPS_NODE_LISTENERS);
      }
      if (listeners.length != 0) {
        String nodeVer = caps.getNodeVer();

        for (UserCapsNodeListener listener : listeners)
          listener.userCapsNodeRemoved(lastRemovedJid, nodeVer, false);
      }
    }
  }
示例#3
0
  /**
   * Returns an array containing all installed providers that satisfy the specified* selection
   * criteria, or null if no such providers have been installed. The returned providers are ordered
   * according to their <a href= "#insertProviderAt(java.security.Provider, int)">preference
   * order</a>.
   *
   * <p>The selection criteria are represented by a map. Each map entry represents a selection
   * criterion. A provider is selected iff it satisfies all selection criteria. The key for any
   * entry in such a map must be in one of the following two formats:
   *
   * <ul>
   *   <li><i>&lt;crypto_service>.&lt;algorithm_or_type></i>
   *       <p>The cryptographic service name must not contain any dots.
   *       <p>The value associated with the key must be an empty string.
   *       <p>A provider satisfies this selection criterion iff the provider implements the
   *       specified algorithm or type for the specified cryptographic service.
   *   <li><i>&lt;crypto_service>.&lt;algorithm_or_type> &lt;attribute_name></i>
   *       <p>The cryptographic service name must not contain any dots. There must be one or more
   *       space charaters between the <i>&lt;algorithm_or_type></i> and the
   *       <i>&lt;attribute_name></i>.
   *       <p>The value associated with the key must be a non-empty string. A provider satisfies
   *       this selection criterion iff the provider implements the specified algorithm or type for
   *       the specified cryptographic service and its implementation meets the constraint expressed
   *       by the specified attribute name/value pair.
   * </ul>
   *
   * <p>See Appendix A in the <a href= "../../../guide/security/CryptoSpec.html#AppA"> Java
   * Cryptogaphy Architecture API Specification &amp; Reference </a> for information about standard
   * cryptographic service names, standard algorithm names and standard attribute names.
   *
   * @param filter the criteria for selecting providers. The filter is case-insensitive.
   * @return all the installed providers that satisfy the selection criteria, or null if no such
   *     providers have been installed.
   * @throws InvalidParameterException if the filter is not in the required format
   * @throws NullPointerException if filter is null
   * @see #getProviders(java.lang.String)
   */
  public static Provider[] getProviders(Map<String, String> filter) {
    // Get all installed providers first.
    // Then only return those providers who satisfy the selection criteria.
    Provider[] allProviders = Security.getProviders();
    Set keySet = filter.keySet();
    LinkedHashSet candidates = new LinkedHashSet(5);

    // Returns all installed providers
    // if the selection criteria is null.
    if ((keySet == null) || (allProviders == null)) {
      return allProviders;
    }

    boolean firstSearch = true;

    // For each selection criterion, remove providers
    // which don't satisfy the criterion from the candidate set.
    for (Iterator ite = keySet.iterator(); ite.hasNext(); ) {
      String key = (String) ite.next();
      String value = (String) filter.get(key);

      LinkedHashSet newCandidates = getAllQualifyingCandidates(key, value, allProviders);
      if (firstSearch) {
        candidates = newCandidates;
        firstSearch = false;
      }

      if ((newCandidates != null) && !newCandidates.isEmpty()) {
        // For each provider in the candidates set, if it
        // isn't in the newCandidate set, we should remove
        // it from the candidate set.
        for (Iterator cansIte = candidates.iterator(); cansIte.hasNext(); ) {
          Provider prov = (Provider) cansIte.next();
          if (!newCandidates.contains(prov)) {
            cansIte.remove();
          }
        }
      } else {
        candidates = null;
        break;
      }
    }

    if ((candidates == null) || (candidates.isEmpty())) return null;

    Object[] candidatesArray = candidates.toArray();
    Provider[] result = new Provider[candidatesArray.length];

    for (int i = 0; i < result.length; i++) {
      result[i] = (Provider) candidatesArray[i];
    }

    return result;
  }
示例#4
0
 public Step(Resolver resolver, Map attributes) {
   this(resolver, "");
   Log.debug("Instantiating " + getClass());
   if (Log.expectDebugOutput) {
     Iterator iter = attributes.keySet().iterator();
     while (iter.hasNext()) {
       String key = (String) iter.next();
       Log.debug(key + "=" + attributes.get(key));
     }
   }
   parseStepAttributes(attributes);
 }
示例#5
0
  private void restoreAndRemoveTransformedClasses(
      @Nonnull Set<ClassIdentification> classesToRestore) {
    RedefinitionEngine redefinitionEngine = new RedefinitionEngine();

    for (ClassIdentification transformedClassId : classesToRestore) {
      byte[] definitionToRestore = transformedClasses.get(transformedClassId);
      redefinitionEngine.restoreToDefinition(
          transformedClassId.getLoadedClass(), definitionToRestore);
    }

    transformedClasses.keySet().removeAll(classesToRestore);
  }
示例#6
0
 /** Add an attribute to the given XML Element. Attributes are kept in alphabetical order. */
 protected Element addAttributes(Element el) {
   // Use a TreeMap to keep the attributes sorted on output
   Map atts = new TreeMap(getAttributes());
   Iterator iter = atts.keySet().iterator();
   while (iter.hasNext()) {
     String key = (String) iter.next();
     String value = (String) atts.get(key);
     if (value == null) {
       Log.warn("Attribute '" + key + "' value was null in step " + getXMLTag());
       value = "";
     }
     el.setAttribute(key, value);
   }
   return el;
 }
示例#7
0
  void removeMockedClasses(@Nonnull List<Class<?>> previousMockedClasses) {
    int currentMockedClassCount = mockedClasses.size();

    if (currentMockedClassCount > 0) {
      int previousMockedClassCount = previousMockedClasses.size();

      if (previousMockedClassCount == 0) {
        mockedClasses.clear();
        mockedTypesAndInstances.clear();
      } else if (previousMockedClassCount < currentMockedClassCount) {
        mockedClasses.retainAll(previousMockedClasses);
        mockedTypesAndInstances.keySet().retainAll(previousMockedClasses);
      }
    }
  }
示例#8
0
  void restoreTransformedClasses(@Nonnull Set<ClassIdentification> previousTransformedClasses) {
    if (!transformedClasses.isEmpty()) {
      Set<ClassIdentification> classesToRestore;

      if (previousTransformedClasses.isEmpty()) {
        classesToRestore = transformedClasses.keySet();
      } else {
        classesToRestore = getTransformedClasses();
        classesToRestore.removeAll(previousTransformedClasses);
      }

      if (!classesToRestore.isEmpty()) {
        restoreAndRemoveTransformedClasses(classesToRestore);
      }
    }
  }
  /**
   * Test how IPC cache map works.
   *
   * @throws Exception If failed.
   */
  @SuppressWarnings("unchecked")
  public void testIpcCache() throws Exception {
    Field cacheField = GridGgfsHadoopIpcIo.class.getDeclaredField("ipcCache");

    cacheField.setAccessible(true);

    Field activeCntField = GridGgfsHadoopIpcIo.class.getDeclaredField("activeCnt");

    activeCntField.setAccessible(true);

    Map<String, GridGgfsHadoopIpcIo> cache =
        (Map<String, GridGgfsHadoopIpcIo>) cacheField.get(null);

    String name = "ggfs:" + getTestGridName(0) + "@";

    Configuration cfg = new Configuration();

    cfg.addResource(U.resolveGridGainUrl(HADOOP_FS_CFG));
    cfg.setBoolean("fs.ggfs.impl.disable.cache", true);
    cfg.setBoolean(String.format(GridGgfsHadoopUtils.PARAM_GGFS_ENDPOINT_NO_EMBED, name), true);

    // Ensure that existing IO is reused.
    FileSystem fs1 = FileSystem.get(new URI("ggfs://" + name + "/"), cfg);

    assertEquals(1, cache.size());

    GridGgfsHadoopIpcIo io = null;

    System.out.println("CACHE: " + cache);

    for (String key : cache.keySet()) {
      if (key.contains("10500")) {
        io = cache.get(key);

        break;
      }
    }

    assert io != null;

    assertEquals(1, ((AtomicInteger) activeCntField.get(io)).get());

    // Ensure that when IO is used by multiple file systems and one of them is closed, IO is not
    // stopped.
    FileSystem fs2 = FileSystem.get(new URI("ggfs://" + name + "/abc"), cfg);

    assertEquals(1, cache.size());
    assertEquals(2, ((AtomicInteger) activeCntField.get(io)).get());

    fs2.close();

    assertEquals(1, cache.size());
    assertEquals(1, ((AtomicInteger) activeCntField.get(io)).get());

    Field stopField = GridGgfsHadoopIpcIo.class.getDeclaredField("stopping");

    stopField.setAccessible(true);

    assert !(Boolean) stopField.get(io);

    // Ensure that IO is stopped when nobody else is need it.
    fs1.close();

    assert cache.isEmpty();

    assert (Boolean) stopField.get(io);
  }
  public String getDestinations(String messageBrokerId) {
    StringBuilder result = new StringBuilder();
    MessageBroker broker = MessageBroker.getMessageBroker(messageBrokerId);
    result.append("<remotingDestinations>");
    if (broker != null) {
      Service remotingService = broker.getServiceByType("flex.messaging.services.RemotingService");
      if (remotingService != null) {
        Map destinations = remotingService.getDestinations();
        Iterator destinationsIterator = destinations.keySet().iterator();
        result.append("<destinations>");
        if (destinationsIterator != null) {
          while (destinationsIterator.hasNext()) {
            RemotingDestination destination =
                (RemotingDestination) destinations.get(destinationsIterator.next());
            if (destination != null) {
              result.append("<destination>");
              result.append(
                  (new StringBuilder("<destinationId>"))
                      .append(destination.getId())
                      .append("</destinationId>")
                      .toString());
              result.append(
                  (new StringBuilder("<adapterName>"))
                      .append(destination.getAdapter().getClass().getName())
                      .append("</adapterName>")
                      .toString());
              result.append(
                  (new StringBuilder("<source>"))
                      .append(destination.getSource())
                      .append("</source>")
                      .toString());
              List channelIds = destination.getChannels();
              Iterator channelIdsIterator = channelIds.iterator();
              result.append("<channels>");
              for (;
                  channelIdsIterator.hasNext();
                  result.append(
                      (new StringBuilder("<channel>"))
                          .append((String) channelIdsIterator.next())
                          .append("</channel>")
                          .toString())) ;
              result.append("</channels>");
              SecurityConstraint secConstraint = destination.getSecurityConstraint();
              result.append("<securityConstraint>");
              if (secConstraint != null) {
                result.append(
                    (new StringBuilder("<securityMethod>"))
                        .append(secConstraint.getMethod())
                        .append("</securityMethod>")
                        .toString());
                result.append(
                    (new StringBuilder("<securityRoles>"))
                        .append(secConstraint.getRoles())
                        .append("</securityRoles>")
                        .toString());
              }
              result.append("</securityConstraint>");
              String className = destination.getSource();
              if (className != null)
                try {
                  Class c = Class.forName("com.adams.dt.util.Abstract");
                  Field fields[] = c.getFields();
                  result.append("<fields>");
                  if (fields != null) {
                    for (int i = 0; i < fields.length; i++)
                      result.append(
                          (new StringBuilder("<field>"))
                              .append(fields[i].toString())
                              .append("</field>")
                              .toString());
                  }
                  result.append("</fields>");

                  Method methods[] = c.getMethods();
                  result.append("<methods>");
                  if (methods != null) {
                    for (int i = 0; i < methods.length; i++)
                      if (methods[i] != null && !methodsExclude.contains(methods[i].getName())) {
                        result.append("<method>");
                        result.append(
                            (new StringBuilder("<methodSignature>"))
                                .append(methods[i].toString())
                                .append("</methodSignature>")
                                .toString());
                        result.append(
                            (new StringBuilder("<methodName>"))
                                .append(methods[i].getName())
                                .append("</methodName>")
                                .toString());
                        result.append(
                            (new StringBuilder("<returnType>"))
                                .append(methods[i].getReturnType().getName())
                                .append("</returnType>")
                                .toString());
                        Class paramClasses[] = methods[i].getParameterTypes();
                        result.append("<params>");
                        if (paramClasses != null) {
                          for (int j = 0; j < paramClasses.length; j++)
                            if (paramClasses[j] != null)
                              result.append(
                                  (new StringBuilder("<param>"))
                                      .append(paramClasses[j].getName())
                                      .append("</param>")
                                      .toString());
                        }
                        result.append("</params>");
                        result.append("</method>");
                      }
                  }
                  result.append("</methods>");
                } catch (ClassNotFoundException e) {
                  System.out.println(e.getMessage());
                }
              result.append("</destination>");
            }
          }
          result.append("</destinations>");
        }
      }
    }
    result.append("</remotingDestinations>");
    return result.toString();
  }
  private void discoverAndRunProcs(
      Context context,
      Set<TypeElement> annotationsPresent,
      List<ClassSymbol> topLevelClasses,
      List<PackageSymbol> packageInfoFiles) {
    Map<String, TypeElement> unmatchedAnnotations =
        new HashMap<String, TypeElement>(annotationsPresent.size());

    for (TypeElement a : annotationsPresent) {
      unmatchedAnnotations.put(a.getQualifiedName().toString(), a);
    }

    // Give "*" processors a chance to match
    if (unmatchedAnnotations.size() == 0) unmatchedAnnotations.put("", null);

    DiscoveredProcessors.ProcessorStateIterator psi = discoveredProcs.iterator();
    // TODO: Create proper argument values; need past round
    // information to fill in this constructor.  Note that the 1
    // st round of processing could be the last round if there
    // were parse errors on the initial source files; however, we
    // are not doing processing in that case.

    Set<Element> rootElements = new LinkedHashSet<Element>();
    rootElements.addAll(topLevelClasses);
    rootElements.addAll(packageInfoFiles);
    rootElements = Collections.unmodifiableSet(rootElements);

    RoundEnvironment renv =
        new JavacRoundEnvironment(false, false, rootElements, JavacProcessingEnvironment.this);

    while (unmatchedAnnotations.size() > 0 && psi.hasNext()) {
      ProcessorState ps = psi.next();
      Set<String> matchedNames = new HashSet<String>();
      Set<TypeElement> typeElements = new LinkedHashSet<TypeElement>();

      for (Map.Entry<String, TypeElement> entry : unmatchedAnnotations.entrySet()) {
        String unmatchedAnnotationName = entry.getKey();
        if (ps.annotationSupported(unmatchedAnnotationName)) {
          matchedNames.add(unmatchedAnnotationName);
          TypeElement te = entry.getValue();
          if (te != null) typeElements.add(te);
        }
      }

      if (matchedNames.size() > 0 || ps.contributed) {
        boolean processingResult = callProcessor(ps.processor, typeElements, renv);
        ps.contributed = true;
        ps.removeSupportedOptions(unmatchedProcessorOptions);

        if (printProcessorInfo || verbose) {
          log.printNoteLines(
              "x.print.processor.info",
              ps.processor.getClass().getName(),
              matchedNames.toString(),
              processingResult);
        }

        if (processingResult) {
          unmatchedAnnotations.keySet().removeAll(matchedNames);
        }
      }
    }
    unmatchedAnnotations.remove("");

    if (lint && unmatchedAnnotations.size() > 0) {
      // Remove annotations processed by javac
      unmatchedAnnotations.keySet().removeAll(platformAnnotations);
      if (unmatchedAnnotations.size() > 0) {
        log = Log.instance(context);
        log.warning("proc.annotations.without.processors", unmatchedAnnotations.keySet());
      }
    }

    // Run contributing processors that haven't run yet
    psi.runContributingProcs(renv);

    // Debugging
    if (options.isSet("displayFilerState")) filer.displayState();
  }
示例#12
0
  private void reflect(Scriptable scope, boolean includeProtected) {
    // We reflect methods first, because we want overloaded field/method
    // names to be allocated to the NativeJavaMethod before the field
    // gets in the way.

    Method[] methods = discoverAccessibleMethods(cl, includeProtected, includePrivate);
    for (int i = 0; i < methods.length; i++) {
      Method method = methods[i];
      int mods = method.getModifiers();
      boolean isStatic = Modifier.isStatic(mods);
      Map<String, Object> ht = isStatic ? staticMembers : members;
      String name = method.getName();
      Object value = ht.get(name);
      if (value == null) {
        ht.put(name, method);
      } else {
        ObjArray overloadedMethods;
        if (value instanceof ObjArray) {
          overloadedMethods = (ObjArray) value;
        } else {
          if (!(value instanceof Method)) Kit.codeBug();
          // value should be instance of Method as at this stage
          // staticMembers and members can only contain methods
          overloadedMethods = new ObjArray();
          overloadedMethods.add(value);
          ht.put(name, overloadedMethods);
        }
        overloadedMethods.add(method);
      }
    }

    // replace Method instances by wrapped NativeJavaMethod objects
    // first in staticMembers and then in members
    for (int tableCursor = 0; tableCursor != 2; ++tableCursor) {
      boolean isStatic = (tableCursor == 0);
      Map<String, Object> ht = isStatic ? staticMembers : members;
      for (String name : ht.keySet()) {
        MemberBox[] methodBoxes;
        Object value = ht.get(name);
        if (value instanceof Method) {
          methodBoxes = new MemberBox[1];
          methodBoxes[0] = new MemberBox((Method) value);
        } else {
          ObjArray overloadedMethods = (ObjArray) value;
          int N = overloadedMethods.size();
          if (N < 2) Kit.codeBug();
          methodBoxes = new MemberBox[N];
          for (int i = 0; i != N; ++i) {
            Method method = (Method) overloadedMethods.get(i);
            methodBoxes[i] = new MemberBox(method);
          }
        }
        NativeJavaMethod fun = new NativeJavaMethod(methodBoxes);
        if (scope != null) {
          ScriptRuntime.setFunctionProtoAndParent(fun, scope);
        }
        ht.put(name, fun);
      }
    }

    // Reflect fields.
    Field[] fields = getAccessibleFields();
    for (int i = 0; i < fields.length; i++) {
      Field field = fields[i];
      String name = field.getName();
      int mods = field.getModifiers();
      if (!includePrivate && !Modifier.isPublic(mods)) {
        continue;
      }
      try {
        boolean isStatic = Modifier.isStatic(mods);
        Map<String, Object> ht = isStatic ? staticMembers : members;
        Object member = ht.get(name);
        if (member == null) {
          ht.put(name, field);
        } else if (member instanceof NativeJavaMethod) {
          NativeJavaMethod method = (NativeJavaMethod) member;
          FieldAndMethods fam = new FieldAndMethods(scope, method.methods, field);
          Map<String, FieldAndMethods> fmht = isStatic ? staticFieldAndMethods : fieldAndMethods;
          if (fmht == null) {
            fmht = new HashMap<String, FieldAndMethods>();
            if (isStatic) {
              staticFieldAndMethods = fmht;
            } else {
              fieldAndMethods = fmht;
            }
          }
          fmht.put(name, fam);
          ht.put(name, fam);
        } else if (member instanceof Field) {
          Field oldField = (Field) member;
          // If this newly reflected field shadows an inherited field,
          // then replace it. Otherwise, since access to the field
          // would be ambiguous from Java, no field should be
          // reflected.
          // For now, the first field found wins, unless another field
          // explicitly shadows it.
          if (oldField.getDeclaringClass().isAssignableFrom(field.getDeclaringClass())) {
            ht.put(name, field);
          }
        } else {
          // "unknown member type"
          Kit.codeBug();
        }
      } catch (SecurityException e) {
        // skip this field
        Context.reportWarning(
            "Could not access field "
                + name
                + " of class "
                + cl.getName()
                + " due to lack of privileges.");
      }
    }

    // Create bean properties from corresponding get/set methods first for
    // static members and then for instance members
    for (int tableCursor = 0; tableCursor != 2; ++tableCursor) {
      boolean isStatic = (tableCursor == 0);
      Map<String, Object> ht = isStatic ? staticMembers : members;

      Map<String, BeanProperty> toAdd = new HashMap<String, BeanProperty>();

      // Now, For each member, make "bean" properties.
      for (String name : ht.keySet()) {
        // Is this a getter?
        boolean memberIsGetMethod = name.startsWith("get");
        boolean memberIsSetMethod = name.startsWith("set");
        boolean memberIsIsMethod = name.startsWith("is");
        if (memberIsGetMethod || memberIsIsMethod || memberIsSetMethod) {
          // Double check name component.
          String nameComponent = name.substring(memberIsIsMethod ? 2 : 3);
          if (nameComponent.length() == 0) continue;

          // Make the bean property name.
          String beanPropertyName = nameComponent;
          char ch0 = nameComponent.charAt(0);
          if (Character.isUpperCase(ch0)) {
            if (nameComponent.length() == 1) {
              beanPropertyName = nameComponent.toLowerCase();
            } else {
              char ch1 = nameComponent.charAt(1);
              if (!Character.isUpperCase(ch1)) {
                beanPropertyName = Character.toLowerCase(ch0) + nameComponent.substring(1);
              }
            }
          }

          // If we already have a member by this name, don't do this
          // property.
          if (ht.containsKey(beanPropertyName) || toAdd.containsKey(beanPropertyName)) {
            continue;
          }

          // Find the getter method, or if there is none, the is-
          // method.
          MemberBox getter = null;
          getter = findGetter(isStatic, ht, "get", nameComponent);
          // If there was no valid getter, check for an is- method.
          if (getter == null) {
            getter = findGetter(isStatic, ht, "is", nameComponent);
          }

          // setter
          MemberBox setter = null;
          NativeJavaMethod setters = null;
          String setterName = "set".concat(nameComponent);

          if (ht.containsKey(setterName)) {
            // Is this value a method?
            Object member = ht.get(setterName);
            if (member instanceof NativeJavaMethod) {
              NativeJavaMethod njmSet = (NativeJavaMethod) member;
              if (getter != null) {
                // We have a getter. Now, do we have a matching
                // setter?
                Class<?> type = getter.method().getReturnType();
                setter = extractSetMethod(type, njmSet.methods, isStatic);
              } else {
                // No getter, find any set method
                setter = extractSetMethod(njmSet.methods, isStatic);
              }
              if (njmSet.methods.length > 1) {
                setters = njmSet;
              }
            }
          }
          // Make the property.
          BeanProperty bp = new BeanProperty(getter, setter, setters);
          toAdd.put(beanPropertyName, bp);
        }
      }

      // Add the new bean properties.
      for (String key : toAdd.keySet()) {
        Object value = toAdd.get(key);
        ht.put(key, value);
      }
    }

    // Reflect constructors
    Constructor<?>[] constructors = getAccessibleConstructors();
    ctors = new MemberBox[constructors.length];
    for (int i = 0; i != constructors.length; ++i) {
      ctors[i] = new MemberBox(constructors[i]);
    }
  }
示例#13
0
 Object[] getIds(boolean isStatic) {
   Map<String, Object> map = isStatic ? staticMembers : members;
   return map.keySet().toArray(new Object[map.size()]);
 }
示例#14
0
 @Nonnull
 Set<ClassIdentification> getTransformedClasses() {
   return transformedClasses.isEmpty()
       ? Collections.<ClassIdentification>emptySet()
       : new HashSet<ClassIdentification>(transformedClasses.keySet());
 }
示例#15
0
文件: Dom.java 项目: hk2-project/hk2
 /**
  * Returns the list of attributes with a value on this config instance. This is by definition a
  * subset of the attributes names as known to the model {@see ConfigModel.getAttributeNames}.
  *
  * @return list of attributes names which have values on this config instance
  */
 public Set<String> getAttributeNames() {
   return Collections.unmodifiableSet(attributes.keySet());
 }
 private Set<String> initUnmatchedProcessorOptions() {
   Set<String> unmatchedProcessorOptions = new HashSet<String>();
   unmatchedProcessorOptions.addAll(processorOptions.keySet());
   return unmatchedProcessorOptions;
 }
示例#17
0
  /* PROTECTED METHODS */
  protected void getBeanElements(
      Element parentElement, String objectName, String objectType, Object bean)
      throws IntrospectionException, IllegalAccessException {
    if (objectName == null) {
      // Get just the class name by lopping off the package name
      StringBuffer sb = new StringBuffer(bean.getClass().getName());
      sb.delete(0, sb.lastIndexOf(".") + 1);
      objectName = sb.toString();
    }

    // Check if the bean is a standard Java object type or a byte[] (encoded as a base 64 array)
    Element element = getStandardObjectElement(document, bean, objectName);
    // If the body element object is null then the bean is not a standard Java object type
    if (element != null) {
      if (includeNullValues
          || !element
              .getAttribute(
                  NamespaceConstants.NSPREFIX_SCHEMA_XSI
                      + ":"
                      + org.apache.axis.Constants.ATTR_TYPE)
              .equals("anyType")) {
        if (!includeTypeInfo) {
          element.removeAttribute(
              NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + org.apache.axis.Constants.ATTR_TYPE);
          element.removeAttribute(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null");
        }
        parentElement.appendChild(element);
      }
    } else {
      // Analyze the bean
      Class classOfBean = null;
      if (bean != null) classOfBean = bean.getClass();
      // If the object is an array, then serialize each of the beans in the array.
      if ((classOfBean != null) && (classOfBean.isArray())) {
        String[] arrayInfo = getXsdSoapArrayInfo(classOfBean.getCanonicalName(), nsPrefix);
        int arrayLen = Array.getLength(bean);
        StringBuffer arrayType = new StringBuffer(arrayInfo[1]);
        arrayType.insert(arrayType.indexOf("[]") + 1, arrayLen);
        if (objectName.charAt(objectName.length() - 1) == ';')
          objectName =
              new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString();
        element = document.createElement(objectName);
        parentElement.appendChild(element);
        // Get the bean objects from the array and serialize each
        for (int i = 0; i < arrayLen; i++) {
          Object b = Array.get(bean, i);
          if (b != null) {
            String name = null;
            if (objectName.charAt(objectName.length() - 1) == 's') {
              name = formatName(objectName.substring(0, objectName.length() - 1));
            }
            getBeanElements(element, name, b.getClass().getName(), b);
          } else {
            // Array element is null, so don't include it and decrement the # elements in the array
            int index = arrayType.indexOf("[");
            arrayType.replace(index + 1, index + 2, String.valueOf(--arrayLen));
          }
          if (includeTypeInfo) {
            element.setAttributeNS(
                NamespaceConstants.NSURI_SCHEMA_XSI,
                NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
                NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":Array");
            element.setAttributeNS(
                NamespaceConstants.NSURI_SOAP_ENCODING,
                NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE,
                arrayInfo[0] + ":" + arrayType.toString());
          }
        }
      } else {
        int beanType = 0;
        String beanName = null;
        if (classOfBean != null) {
          if (classOfBean == Vector.class) {
            beanType = 1;
            beanName = "Vector";
          } else if (classOfBean == ArrayList.class) {
            beanType = 2;
            beanName = "ArrayList";
          } else if (classOfBean == LinkedList.class) {
            beanType = 3;
            beanName = "LinkedList";
          } else if (classOfBean == Hashtable.class) {
            beanType = 4;
            beanName = "Hashtable";
          } else if (classOfBean == Properties.class) {
            beanType = 5;
            beanName = "Properties";
          } else if ((classOfBean == HashMap.class) || (classOfBean == SortedMap.class)) {
            beanType = 6;
            beanName = "Map";
          }
        }
        if (beanType > 0) {
          String prefix = null;
          if ((beanType == 1) || (beanType == 5))
            prefix = NamespaceConstants.NSPREFIX_SOAP_ENCODING;
          if (beanType == 6) prefix = Constants.NS_PREFIX_XMLSOAP;
          else prefix = DEFAULT_NS_PREFIX;
          element = document.createElement(objectName);
          if (includeTypeInfo) {
            element.setAttributeNS(
                NamespaceConstants.NSURI_SCHEMA_XSI,
                NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
                prefix + ":" + beanName);
            if (bean == null)
              element.setAttributeNS(
                  NamespaceConstants.NSURI_SCHEMA_XSI,
                  NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null",
                  "true");
          }
          parentElement.appendChild(element);
          if ((beanType >= 1) && (beanType <= 3)) {
            AbstractCollection collection = (AbstractCollection) bean;
            // Get the bean objects from the vector and serialize each
            Iterator it = collection.iterator();
            while (it.hasNext()) {
              Object b = it.next();
              String name = null;
              if (b != null) {
                if (objectName.charAt(objectName.length() - 1) == 's') {
                  name = formatName(objectName.substring(0, objectName.length() - 1));
                } else name = "item";
              }
              getBeanElements(element, name, b.getClass().getName(), b);
            }
          } else if ((beanType == 4) || (beanType == 5)) {
            Hashtable hashtable = (Hashtable) bean;
            // Get the bean objects from the hashtable or properties and serialize each
            Enumeration en = hashtable.keys();
            while (en.hasMoreElements()) {
              Object key = en.nextElement();
              String keyClassName = key.getClass().getName();
              Object value = hashtable.get(key);
              String beanClassName = null;
              if (value != null) beanClassName = value.getClass().getName();
              Element itemElement = document.createElement("item");
              element.appendChild(itemElement);
              getBeanElements(itemElement, "key", keyClassName, key);
              getBeanElements(itemElement, "value", beanClassName, value);
            }
          } else if (beanType == 6) {
            Map map = null;
            if (classOfBean == HashMap.class) map = (HashMap) bean;
            else if (classOfBean == SortedMap.class) map = (SortedMap) bean;
            // Get the bean objects from the hashmap and serialize each
            Set set = map.keySet();
            Iterator it = set.iterator();
            while (it.hasNext()) {
              Object key = it.next();
              String keyClassName = key.getClass().getName();
              Object value = map.get(key);
              String beanClassName = null;
              if (value != null) beanClassName = value.getClass().getName();
              Element itemElement = document.createElement("item");
              element.appendChild(itemElement);
              getBeanElements(itemElement, "key", keyClassName, key);
              getBeanElements(itemElement, "value", beanClassName, value);
            }
          }
        } else {
          // Create a parent element for this bean's properties
          if (objectName.charAt(objectName.length() - 1) == ';')
            objectName =
                new StringBuffer(objectName).deleteCharAt(objectName.length() - 1).toString();
          objectName = formatName(objectName);
          element = document.createElement(objectName);
          parentElement.appendChild(element);
          if (includeTypeInfo) {
            StringBuffer className = new StringBuffer(objectType);
            element.setAttributeNS(
                NamespaceConstants.NSURI_SCHEMA_XSI,
                NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE,
                nsPrefix + ":" + className.delete(0, className.lastIndexOf(".") + 1).toString());
          }
          if (classOfBean != null) {
            // Get an array of property descriptors
            BeanInfo bi = Introspector.getBeanInfo(classOfBean);
            PropertyDescriptor[] pds = bi.getPropertyDescriptors();
            // For each property of the bean, get a SOAPBodyElement that
            // represents the individual property. Append that SOAPBodyElement
            // to the class name element of the SOAP body.
            for (int i = 0; i < pds.length; i++) {
              PropertyDescriptor pd = pds[i];
              getBeanElementProperties(element, bean, pd);
            }
          } else {
            if (includeTypeInfo)
              element.setAttributeNS(
                  NamespaceConstants.NSURI_SCHEMA_XSI,
                  NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null",
                  "true");
          }
        }
      }
    }
  }
示例#18
0
 public void #FIELD_CONTAINERANVIL_4#()
 {
     ItemStack itemstack = VAnvil.#FIELD_CONTAINERANVIL_1#(this).getItem(0);
     #FIELD_CONTAINERANVIL_5# = 0;
     int i = 0;
     byte b0 = 0;
     int j = 0;
     if(itemstack == null)
     {
         getInv("#FIELD_CONTAINERANVIL_2#").setItem(0, null);
         #FIELD_CONTAINERANVIL_5# = 0;
     }
     else
     {
         ItemStack itemstack1 = itemstack.cloneItemStack();
         ItemStack itemstack2 = VAnvil.#FIELD_CONTAINERANVIL_1#(this).getItem(1);
         Map map = EnchantmentManager.#FIELD_ENCHANTMENTMANAGER_3#(itemstack1);
         boolean flag = false;
         int k = b0 + itemstack.getRepairCost() + (itemstack2 == null ? 0 : itemstack2.getRepairCost());
         _exp = 0;
         int l;
         int i1;
         int j1;
         int k1;
         int l1;
         Iterator iterator;
         Enchantment enchantment;
         if(itemstack2 != null)
         {
             flag = itemstack2.id == Item.ENCHANTED_BOOK.id && Item.ENCHANTED_BOOK.#FIELD_ITEMENCHANTEDBOOK_2#(itemstack2).size() > 0;
             if(itemstack1.#FIELD_ITEM_6#() && Item.byId[itemstack1.id].a(itemstack, itemstack2))
             {
                 l = Math.min(itemstack1.#FIELD_ITEMSTACK_5#(), itemstack1.#FIELD_ITEMSTACK_6#() / 4);
                 if(l <= 0)
                 {
                     getInv("#FIELD_CONTAINERANVIL_2#").setItem(0, null);
                     #FIELD_CONTAINERANVIL_5# = 0;
                     return;
                 }
                 for(i1 = 0; l > 0 && i1 < itemstack2.count; ++i1)
                 {
                     j1 = itemstack1.#FIELD_ITEMSTACK_5#() - l;
                     itemstack1.setData(j1);
                     i += Math.max(1, l / 100) + map.size();
                     l = Math.min(itemstack1.#FIELD_ITEMSTACK_5#(), itemstack1.#FIELD_ITEMSTACK_6#() / 4);
                 }
                 _exp = i1;
             }
             else
             {
                 if(!flag && (itemstack1.id != itemstack2.id || !itemstack1.#FIELD_ITEM_6#()))
                 {
                     getInv("#FIELD_CONTAINERANVIL_2#").setItem(0, null);
                     #FIELD_CONTAINERANVIL_5# = 0;
                     return;
                 }
                 if(itemstack1.#FIELD_ITEM_6#() && !flag)
                 {
                     l = itemstack.#FIELD_ITEMSTACK_6#() - itemstack.#FIELD_ITEMSTACK_5#();
                     i1 = itemstack2.#FIELD_ITEMSTACK_6#() - itemstack2.#FIELD_ITEMSTACK_5#();
                     j1 = i1 + itemstack1.#FIELD_ITEMSTACK_6#() * 12 / 100;
                     int i2 = l + j1;
                     k1 = itemstack1.#FIELD_ITEMSTACK_6#() - i2;
                     if(k1 < 0)
                     {
                         k1 = 0;
                     }
                     if(k1 < itemstack1.getData())
                     {
                         itemstack1.setData(k1);
                         i += Math.max(1, j1 / 100);
                     }
                 }
                 Map map1 = EnchantmentManager.#FIELD_ENCHANTMENTMANAGER_3#(itemstack2);
                 iterator = map1.keySet().iterator();
                 while(iterator.hasNext())
                 {
                     j1 = ((Integer)iterator.next()).intValue();
                     enchantment = Enchantment.byId[j1];
                     k1 = map.containsKey(Integer.valueOf(j1)) ? ((Integer)map.get(Integer.valueOf(j1))).intValue() : 0;
                     l1 = ((Integer)map1.get(Integer.valueOf(j1))).intValue();
                     int j2;
                     if(k1 == l1)
                     {
                         ++l1;
                         j2 = l1;
                     }
                     else
                     {
                         j2 = Math.max(l1, k1);
                     }
                     l1 = j2;
                     int k2 = l1 - k1;
                     boolean flag1 = enchantment.canEnchant(itemstack);
                     if(playerFree(_player))
                     {
                         flag1 = true;
                     }
                     Iterator iterator1 = map.keySet().iterator();
                     while(iterator1.hasNext())
                     {
                         int l2 = ((Integer)iterator1.next()).intValue();
                         if(l2 != j1 && !enchantment.#FIELD_ENCHANTMENT_1#(Enchantment.byId[l2]))
                         {
                             flag1 = false;
                             i += k2;
                         }
                     }
                     if(flag1)
                     {
                         if(l1 > enchantment.getMaxLevel())
                         {
                             l1 = enchantment.getMaxLevel();
                         }
                         map.put(Integer.valueOf(j1), Integer.valueOf(l1));
                         int i3 = 0;
                         switch(enchantment.getRandomWeight())
                         {
                             case 1:
                                 i3 = 8;
                                 break;
                             case 2:
                                 i3 = 4;
                             case 3:
                             case 4:
                             case 6:
                             case 7:
                             case 8:
                             case 9:
                             default:
                                 break;
                             case 5:
                                 i3 = 2;
                                 break;
                             case 10:
                                 i3 = 1;
                         }
                         i += i3 * k2;
                     }
                 }
             }
         }
         if(_itemName != null && !_itemName.equalsIgnoreCase(itemstack.#FIELD_ITEMSTACK_7#()) && _itemName.length() > 0)
         {
             j = itemstack.#FIELD_ITEM_6#() ? 7 : itemstack.count * 5;
             i += j;
             if(itemstack.#FIELD_ITEMSTACK_8#())
             {
                 k += j / 2;
             }
             itemstack1.#FIELD_ITEMSTACK_9#(_itemName);
         }
         l = 0;
         for(iterator = map.keySet().iterator(); iterator.hasNext(); k += l + k1 * l1)
         {
             j1 = ((Integer)iterator.next()).intValue();
             enchantment = Enchantment.byId[j1];
             k1 = ((Integer)map.get(Integer.valueOf(j1))).intValue();
             l1 = 0;
             ++l;
             switch(enchantment.getRandomWeight())
             {
                 case 1:
                     l1 = 8;
                     break;
                 case 2:
                     l1 = 4;
                 case 3:
                 case 4:
                 case 6:
                 case 7:
                 case 8:
                 case 9:
                 default:
                     break;
                 case 5:
                     l1 = 2;
                     break;
                 case 10:
                     l1 = 1;
             }
             if(flag)
             {
                 l1 = Math.max(1, l1 / 2);
             }
         }
         if(flag)
         {
             k = Math.max(1, k / 2);
         }
         #FIELD_CONTAINERANVIL_5# = k + i;
         if(i <= 0)
         {
             itemstack1 = null;
         }
         if(j == i && j > 0 && #FIELD_CONTAINERANVIL_5# >= 40)
         {
             #FIELD_CONTAINERANVIL_5# = 39;
         }
         if(#FIELD_CONTAINERANVIL_5# >= 40 && !playerFree(_player))
         {
             itemstack1 = null;
         }
         if(itemstack1 != null)
         {
             i1 = itemstack1.getRepairCost();
             if(itemstack2 != null && i1 < itemstack2.getRepairCost())
             {
                 i1 = itemstack2.getRepairCost();
             }
             if(itemstack1.#FIELD_ITEMSTACK_8#())
             {
                 i1 -= 9;
             }
             if(i1 < 0)
             {
                 i1 = 0;
             }
             i1 += 2;
             itemstack1.setRepairCost(i1);
             EnchantmentManager.#FIELD_ENCHANTMENTMANAGER_4#(map, itemstack1);
         }
         getInv("#FIELD_CONTAINERANVIL_2#").setItem(0, itemstack1);
         #FIELD_CONTAINER_9#();
     }
 }