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package javax.faces.component;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.MissingResourceException;
import java.util.PropertyResourceBundle;
import java.util.ResourceBundle;
import java.util.Set;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.el.ELContext;
import javax.el.ELException;
import javax.el.ValueExpression;
import javax.faces.FacesException;
import javax.faces.FacesWrapper;
import javax.faces.application.Resource;
import javax.faces.component.visit.VisitCallback;
import javax.faces.component.visit.VisitContext;
import javax.faces.component.visit.VisitHint;
import javax.faces.component.visit.VisitResult;
import javax.faces.context.FacesContext;
import javax.faces.el.ValueBinding;
import javax.faces.event.AbortProcessingException;
import javax.faces.event.PostRestoreStateEvent;
import javax.faces.event.ComponentSystemEvent;
import javax.faces.event.ComponentSystemEventListener;
import javax.faces.event.FacesEvent;
import javax.faces.event.SystemEvent;
import javax.faces.event.SystemEventListener;
import javax.faces.event.FacesListener;
import javax.faces.event.SystemEventListenerHolder;
import javax.faces.render.Renderer;
/**
*
UIComponent is
* the base class for all user interface components in JavaServer Faces.
* The set of {@link UIComponent} instances associated with a particular request
* and response are organized into a component tree under a {@link
* UIViewRoot} that represents the entire content of the request or
* response.
*
*
For the convenience of component developers,
* {@link UIComponentBase} provides the default
* behavior that is specified for a {@link UIComponent}, and is the base class
* for all of the concrete {@link UIComponent} "base" implementations.
* Component writers are encouraged to subclass
* {@link UIComponentBase}, instead of directly
* implementing this abstract class, to reduce the impact of any future changes
* to the method signatures.
*
*
If the {@link
* javax.faces.event.ListenerFor} annotation is attached to the class
* definition of a Component, that class must also
* implement {@link javax.faces.event.ComponentSystemEventListener}.
*
*/
public abstract class UIComponent implements PartialStateHolder, TransientStateHolder, SystemEventListenerHolder,
ComponentSystemEventListener {
private static Logger LOGGER = Logger.getLogger("javax.faces.component",
"javax.faces.LogStrings");
/**
*
The ServletContext init
* parameter consulted by
* the UIComponent to tell whether or not the
* {@link #CURRENT_COMPONENT} and {@link #CURRENT_COMPOSITE_COMPONENT}
* attribute keys should be honored as specified.
*
*
If this parameter is not specified, or is set to false, the contract
* specified by the {@link #CURRENT_COMPONENT} and
* {@link #CURRENT_COMPOSITE_COMPONENT} method is not honored. If this
* parameter is set to true, the contract is honored.
*/
public static final String HONOR_CURRENT_COMPONENT_ATTRIBUTES_PARAM_NAME =
"javax.faces.HONOR_CURRENT_COMPONENT_ATTRIBUTES";
/**
*
The key to which the
* UIComponent currently being processed will be
* associated with within the {@link FacesContext} attributes
* map. The use of this constant is
* deprecated. Please see {@link
* #HONOR_CURRENT_COMPONENT_ATTRIBUTES_PARAM_NAME} to enable its
* use.
The key to which the
* compositeUIComponent currently being
* processed will be associated with within the {@link FacesContext}
* attributes map. The use of this
* constant is deprecated. Please see {@link
* #HONOR_CURRENT_COMPONENT_ATTRIBUTES_PARAM_NAME} to enable its
* use.
The value of this constant is used as the key in the
* component attribute map, the value for which is a
* java.beans.BeanInfo implementation describing the composite
* component. This BeanInfo is known as the
* composite component BeanInfo.
*
* @since 2.0
*/
public static final String BEANINFO_KEY = "javax.faces.component.BEANINFO_KEY";
/**
*
The value of this constant is used as the key
* in the composite component BeanDescriptor for the
* Map<PropertyDescriptor> that contains meta-information
* for the declared facets for this composite component.
* This map must contain an entry under the key {@link #COMPOSITE_FACET_NAME}, even
* if no facets were explicitly declared. See {@link #COMPOSITE_FACET_NAME}.
*
* @since 2.0
*/
public static final String FACETS_KEY = "javax.faces.component.FACETS_KEY";
/**
*
The value of this constant is used as the key
* in the component attributes Map for the
* {@link javax.faces.view.Location} in the view at which this component
* instance resides.
*
* @since 2.0
*/
public static final String VIEW_LOCATION_KEY = "javax.faces.component.VIEW_LOCATION_KEY";
/**
*
The value of this constant is used as the key
* in the composite component BeanDescriptor for a
* ValueExpression that evaluates to the
* component-type of the composite component root
* UIComponent for this composite component, if
* one was declared by the composite component author.
*
* @since 2.0
*/
public static final String COMPOSITE_COMPONENT_TYPE_KEY = "javax.faces.component.COMPOSITE_COMPONENT_TYPE";
/**
*
The value of this constant is used as the key
* in the Map returned as described in {@link #FACETS_KEY}
* for the
* PropertyDescriptor describing the composite component facet.
* The value of this constant is also used as the key in the Map
* returned from {@link #getFacets}. In this case, it refers to the actual
* facet that is the {@link javax.faces.component.UIPanel} that is the parent of the all
* of the components in the <composite:implementation>
* section of the composite component VDL file.
*
* @since 2.0
*/
public static final String COMPOSITE_FACET_NAME = "javax.faces.component.COMPOSITE_FACET_NAME";
/**
*
This constant enables one to quickly discover
* the names of the declared composite component attributes that have been
* given default values by the composite component author. The information
* is exposed as a Collection<String> returned from the
* getValue() method on the composite component
* BeanDescriptor, when this constant is passed as the argument.
*
* @since 2.1
*/
public static final String ATTRS_WITH_DECLARED_DEFAULT_VALUES =
"javax.faces.component.ATTR_NAMES_WITH_DEFAULT_VALUES";
enum PropertyKeysPrivate {
attributesThatAreSet
}
/**
* Properties that are tracked by state saving.
*/
enum PropertyKeys {
rendered,
attributes,
bindings,
rendererType,
systemEventListeners,
behaviors,
passThroughAttributes
}
/**
* List of attributes that have been set on the component (this
* may be from setValueExpression, the attributes map, or setters
* from the concrete HTML components. This allows
* for faster rendering of attributes as this list is authoritative
* on what has been set.
*/
List attributesThatAreSet;
ComponentStateHelper stateHelper = null;
UIComponent compositeParent;
private transient Boolean isSetCurrentComponent;
// -------------------------------------------------------------- Attributes
/**
*
Return a mutable
* Map representing the attributes
* (and properties, see below) associated wth this {@link UIComponent},
* keyed by attribute name (which must be a String). The returned
* implementation must support all of the standard and optional
* Map methods, plus support the following additional
* requirements:
*
*
The Map implementation must implement
* the java.io.Serializable interface.
*
Any attempt to add a null key or value must
* throw a NullPointerException.
*
Any attempt to add a key that is not a String must throw
* a ClassCastException.
*
If the attribute name specified as a key matches a property
* of this {@link UIComponent}'s implementation class, the following
* methods will have special behavior:
*
*
containsKey - Return false.
*
get() - If the property is readable, call
* the getter method and return the returned value (wrapping
* primitive values in their corresponding wrapper classes);
* otherwise throw IllegalArgumentException.
*
put() - If the property is writeable, call
* the setter method to set the corresponding value (unwrapping
* primitive values in their corresponding wrapper classes).
* If the property is not writeable, or an attempt is made to
* set a property of primitive type to null,
* throw IllegalArgumentException.
*
remove - Throw
* IllegalArgumentException.
*
*
*
*/
public abstract Map getAttributes();
/**
*
This is a convenience method that
* simply calls {@link #getPassThroughAttributes(boolean)}, passing {@code true}
* as the argument. This method must never return {@code null}.
*
* @since 2.2
*/
public final Map getPassThroughAttributes(){
return getPassThroughAttributes(true);
}
/**
*
This method has the same specification as
* {@link #getPassThroughAttributes() } except that it is allowed to return
* {@code null} if and only if the argument {@code create} is {@code false}
* and no pass through attribute data structure exists for this instance.
* The returned {@code Map} implementation must support all of the standard and optional
* {@code Map} methods, plus support the following additional requirements.
* The map must be stored in using {@link #getStateHelper}.
*
*
*
*
The {@code Map} implementation must implement {@code java.io.Serializable}.
*
*
Any attempt to add a {@code null} key or value must throw a {@code NullPointerException}.
*
*
Any attempt to add a key that is not a {@code String} must
* throw an {@code IllegalArgumentException}.
*
*
For backward compatibility with components that extend directly from
* this class, a default implementation is provided that returns the empty
* map.
*
*
*
* @param create if true, a new {@code Map}
* instance will be created if it does not exist already. If
* false, and there is no existing
* Map instance, one will not be created and
* null will be returned.
* @return A {@code Map} instance, or {@code null}.
*
* @since 2.2
*/
public Map getPassThroughAttributes(boolean create) {
return Collections.emptyMap();
}
// ---------------------------------------------------------------- Bindings
/**
*
*
Call through to {@link #getValueExpression} and examine the
* result. If the result is an instance of the wrapper class
* mandated in {@link #setValueBinding}, extract the
* ValueBinding instance and return it. Otherwise,
* wrap the result in an implementation of
* ValueBinding, and return it.
*
* @param name Name of the attribute or property for which to retrieve a
* {@link ValueBinding}
*
* @throws NullPointerException if name
* is null
*
* @deprecated This has been replaced by {@link #getValueExpression}.
*/
public abstract ValueBinding getValueBinding(String name);
/**
*
Wrap the argument binding in an implementation of
* {@link ValueExpression} and call through to {@link
* #setValueExpression}.
*
* @param name Name of the attribute or property for which to set a
* {@link ValueBinding}
* @param binding The {@link ValueBinding} to set, or null
* to remove any currently set {@link ValueBinding}
*
* @throws IllegalArgumentException if name is one of
* id or parent
* @throws NullPointerException if name
* is null
*
* @deprecated This has been replaced by {@link #setValueExpression}.
*/
public abstract void setValueBinding(String name, ValueBinding binding);
// The set of ValueExpressions for this component, keyed by property
// name This collection is lazily instantiated
// The set of ValueExpressions for this component, keyed by property
// name This collection is lazily instantiated
@Deprecated
protected Map bindings = null;
/**
*
Return the {@link ValueExpression} used to calculate the value for the
* specified attribute or property name, if any.
*
*
This method must be overridden and implemented for components that
* comply with JSF 1.2 and later.
*
* @since 1.2
*
* @param name Name of the attribute or property for which to retrieve a
* {@link ValueExpression}
*
* @throws NullPointerException if name
* is null
*
*/
public ValueExpression getValueExpression(String name) {
if (name == null) {
throw new NullPointerException();
}
Map map = (Map)
getStateHelper().get(UIComponentBase.PropertyKeys.bindings);
return ((map != null) ? map.get(name) : null);
}
/**
*
Set the {@link ValueExpression} used to calculate the value
* for the specified attribute or property name, if any.
*
*
The implementation must call {@link
* ValueExpression#isLiteralText} on the argument
* expression. If isLiteralText() returns
* true, invoke {@link ValueExpression#getValue} on the
* argument expression and pass the result as the value
* parameter in a call to this.{@link
* #getAttributes()}.put(name, value) where name
* is the argument name. If an exception is thrown as
* a result of calling {@link ValueExpression#getValue}, wrap it in
* a {@link javax.faces.FacesException} and re-throw it. If
* isLiteralText() returns false, simply
* store the un-evaluated expression argument in the
* collection of ValueExpressions under the key given
* by the argument name.
*
*
This method must be overridden and implemented for components that
* comply with JSF 1.2 and later.
*
* @since 1.2
*
* @param name Name of the attribute or property for which to set a
* {@link ValueExpression}
* @param binding The {@link ValueExpression} to set, or null
* to remove any currently set {@link ValueExpression}
*
* @throws IllegalArgumentException if name is one of
* id or parent
* @throws NullPointerException if name
* is null
*
*/
public void setValueExpression(String name, ValueExpression binding) {
if (name == null) {
throw new NullPointerException();
} else if ("id".equals(name) || "parent".equals(name)) {
throw new IllegalArgumentException();
}
if (binding != null) {
if (!binding.isLiteralText()) {
//if (bindings == null) {
// //noinspection CollectionWithoutInitialCapacity
// bindings = new HashMap();
//}
// add this binding name to the 'attributesThatAreSet' list
//List sProperties = (List)
// getStateHelper().get(PropertyKeysPrivate.attributesThatAreSet);
List sProperties =
(List) getStateHelper().get(PropertyKeysPrivate.attributesThatAreSet);
if (sProperties == null) {
getStateHelper().add(PropertyKeysPrivate.attributesThatAreSet, name);
} else if (!sProperties.contains(name)) {
getStateHelper().add(PropertyKeysPrivate.attributesThatAreSet, name);
}
getStateHelper().put(UIComponentBase.PropertyKeys.bindings,
name,
binding);
//bindings.put(name, binding);
} else {
ELContext context =
FacesContext.getCurrentInstance().getELContext();
try {
getAttributes().put(name, binding.getValue(context));
} catch (ELException ele) {
throw new FacesException(ele);
}
}
} else {
//if (bindings != null) {
// remove this binding name from the 'attributesThatAreSet' list
// List sProperties = getAttributesThatAreSet(false);
// if (sProperties != null) {
// sProperties.remove(name);
// }
getStateHelper().remove(PropertyKeysPrivate.attributesThatAreSet,
name);
getStateHelper().remove(UIComponentBase.PropertyKeys.bindings, name);
//bindings.remove(name);
// if (bindings.isEmpty()) {
// bindings = null;
// }
}
// }
}
// -------------------------------------------------------------- Properties
boolean initialState;
/**
*
An implementation of {@link
* PartialStateHolder#markInitialState}, this method is called by
* the runtime to indicate that the instance should start tracking
* changes to its state.
An implementation of {@link
* PartialStateHolder#initialStateMarked}, this method is called by
* the runtime to test if the {@link
* PartialStateHolder#markInitialState} method was called.
An implementation of {@link
* PartialStateHolder#clearInitialState}, this method is called by
* the runtime to tell the instance to stop tracking state
* changes.
Like {@link #getStateHelper()}, but
* only create a state helper instance if the argument
* creat is true.
* @param create if true, a new {@link StateHelper}
* instance will be created if it does not exist already. If
* false, and there is no existing
* StateHelper instance, one will not be created and
* null will be returned.
* @since 2.0
*/
protected StateHelper getStateHelper(boolean create) {
if (create && stateHelper == null) {
stateHelper = new ComponentStateHelper(this);
}
return stateHelper;
}
/**
*
Return the {@link
* TransientStateHelper} instance for this UIComponent
* instance. The default implementation simply calls through to
* {@link #getTransientStateHelper(boolean)} passing true
* as the argument.
*
* @since 2.1
*/
public final TransientStateHelper getTransientStateHelper()
{
return getTransientStateHelper(true);
}
/**
*
Return the {@link
* TransientStateHelper} instance for this UIComponent
* instance.
*
* @param create if true create, if necessary, any
* internal data structures. If false, do not create
* any instances. In this case, it is possible for this method to
* return null.
*
* @since 2.1
*/
public TransientStateHelper getTransientStateHelper(boolean create) {
if (create && stateHelper == null) {
stateHelper = new ComponentStateHelper(this);
}
return stateHelper;
}
/**
*
For components that need to support
* the concept of transient state, this method will restore any
* state saved on a prior call to {@link #saveTransientState}.
Updates the status as to whether or
* not this component is currently within the view hierarchy.
* This method must never be called by developers; a {@link
* UIComponent}'s internal implementation will call it as components
* are added to or removed from a parent's child List
* or facet Map.
*
* @param isInView flag indicating whether or not this component is within
* the view hierachy
*
* @since 2.0
*/
public void setInView(boolean isInView) {
this.isInView = isInView;
}
/**
*
Enable EL to access the clientId
* of a component. This is particularly useful in combination with the
* component and cc implicit
* objects. A default implementation is provided that simply calls
* {@link FacesContext#getCurrentInstance} and then calls through to
* {@link #getClientId(FacesContext)}.
Return a client-side identifier for this component, generating
* one if necessary. The associated {@link Renderer}, if any,
* will be asked to convert the clientId to a form suitable for
* transmission to the client.
*
*
The return from this method must be the same value throughout
* the lifetime of the instance, unless the id property
* of the component is changed, or the component is placed in
* a {@link NamingContainer} whose client ID changes (for example,
* {@link UIData}). However, even in these cases, consecutive
* calls to this method must always return the same value. The
* implementation must follow these steps in determining the
* clientId:
*
*
Find the closest ancestor to this component in the view
* hierarchy that implements NamingContainer. Call
* getContainerClientId() on it and save the result as
* the parentId local variable. Call {@link #getId} on
* this component and save the result as the
* myId local variable. If myId is
* null, call
* context.getViewRoot().createUniqueId() and assign
* the result to myId. If parentId is
* non-null, let myId equal parentId
* + {@link UINamingContainer#getSeparatorChar} + myId. Call
* {@link Renderer#convertClientId}, passing myId, and
* return the result.
*
* @param context The {@link FacesContext} for the current request
*
* @throws NullPointerException if context
* is null
*/
public abstract String getClientId(FacesContext context);
/**
*
Allow components that implement {@link NamingContainer} to
* selectively disable prepending their clientId to their
* descendent's clientIds by breaking the prepending logic into a
* seperately callable method. See {@link #getClientId} for usage.
*
*
By default, this method will call through to {@link
* #getClientId} and return the result.
*
* @since 1.2
*
* @throws NullPointerException if context is
* null
*/
public String getContainerClientId(FacesContext context) {
if (context == null) {
throw new NullPointerException();
}
return this.getClientId(context);
}
/**
*
Return the identifier of the component family to which this
* component belongs. This identifier, in conjunction with the value
* of the rendererType property, may be used to select
* the appropriate {@link Renderer} for this component instance.
*/
public abstract String getFamily();
/**
*
Return the component identifier of this {@link UIComponent}.
*/
public abstract String getId();
/**
*
Set the component identifier of this {@link UIComponent} (if any).
* Component identifiers must obey the following syntax restrictions:
*
*
Must not be a zero-length String.
*
First character must be a letter or an underscore ('_').
*
Subsequent characters must be a letter, a digit,
* an underscore ('_'), or a dash ('-').
*
*
*
*
Component identifiers must also obey the following semantic
* restrictions (note that this restriction is NOT
* enforced by the setId() implementation):
*
*
The specified identifier must be unique among all the components
* (including facets) that are descendents of the nearest ancestor
* {@link UIComponent} that is a {@link NamingContainer}, or within
* the scope of the entire component tree if there is no such
* ancestor that is a {@link NamingContainer}.
*
*
* @param id The new component identifier, or null to indicate
* that this {@link UIComponent} does not have a component identifier
*
* @throws IllegalArgumentException if id is not
* syntactically valid
*/
public abstract void setId(String id);
/**
*
Return the parent {@link UIComponent} of this
* UIComponent, if any. A component must allow child
* components to be added to and removed from the list of children
* of this component, even though the child component returns null
* from getParent( ).
*/
public abstract UIComponent getParent();
/**
*
Set the parent
* UIComponent of this UIComponent. If
* parent.isInView() returns true, calling
* this method will first cause a {@link
* javax.faces.event.PreRemoveFromViewEvent} to be published, for
* this node, and then the children of this node. Then, once the
* re-parenting has occurred, a {@link
* javax.faces.event.PostAddToViewEvent} will be published as well,
* first for this node, and then for the node's children, but only if any of the
* following conditions are true.
*
*
*
{@link
* javax.faces.context.FacesContext#getCurrentPhaseId} returns
* {@link javax.faces.event.PhaseId#RESTORE_VIEW} and partial
* state saving is enabled.
*
{@link javax.faces.context.FacesContext#isPostback}
* returns false and {@link
* javax.faces.context.FacesContext#getCurrentPhaseId} returns
* something other than {@link
* javax.faces.event.PhaseId#RESTORE_VIEW}
*
*
*
This method must never
* be called by developers; a {@link UIComponent}'s internal
* implementation will call it as components are added to or removed
* from a parent's child List or facet
* Map.
*
* @param parent The new parent, or null for the root node
* of a component tree
*/
public abstract void setParent(UIComponent parent);
/**
*
Return true if this component (and its children)
* should be rendered during the Render Response phase
* of the request processing lifecycle.
*/
public abstract boolean isRendered();
/**
*
Set the rendered property of this
* {@link UIComponent}.
*
* @param rendered If true render this component;
* otherwise, do not render this component
*/
public abstract void setRendered(boolean rendered);
/**
*
Return the {@link Renderer} type for this {@link UIComponent}
* (if any).
*/
public abstract String getRendererType();
/**
*
Set the {@link Renderer} type for this {@link UIComponent},
* or null for components that render themselves.
*
* @param rendererType Logical identifier of the type of
* {@link Renderer} to use, or null for components
* that render themselves
*/
public abstract void setRendererType(String rendererType);
/**
*
Return a flag indicating whether this component is responsible
* for rendering its child components. The default implementation
* in {@link UIComponentBase#getRendersChildren} tries to find the
* renderer for this component. If it does, it calls {@link
* Renderer#getRendersChildren} and returns the result. If it
* doesn't, it returns false. As of version 1.2 of the JavaServer
* Faces Specification, component authors are encouraged to return
* true from this method and rely on {@link
* UIComponentBase#encodeChildren}.
Return a
* Map<String,String> of the
* ResourceBundle for this component. A component may
* have a ResourceBundle associated with it. This
* bundle may contain localized properties relating to instances of
* this component. The default implementation first looks for a
* ResourceBundle with a base name equal to the fully
* qualified class name of the current UIComponent this
* and Locale equal to the Locale of the
* current UIViewRoot. If no such bundle is found, and
* the component is a composite component, let resourceName
* be the resourceName of the {@link Resource} for this
* composite component, replacing the file extension with
* ".properties". Let libraryName be the
* libraryName of the the {@link Resource} for this
* composite component. Call {@link
* javax.faces.application.ResourceHandler#createResource(java.lang.String,java.lang.String)},
* passing the derived resourceName and
* libraryName. Note that this will automatically allow
* for the localization of the ResourceBundle due to
* the localization facility implemented in
* createResource, which is specified in section
* JSF.2.6.1.3 of the spec prose document. If the resultant {@link
* Resource} exists and can be found, the InputStream
* for the resource is used to create a ResourceBundle.
* If either of the two previous steps for obtaining the
* ResourceBundle for this component is successful, the
* ResourceBundle is wrapped in a
* Map<String,String> and returned. Otherwise
* Collections.EMPTY_MAP is returned.
*
* @since 2.0
*/
public Map getResourceBundleMap() {
if (null == resourceBundleMap) {
// See if there is a ResourceBundle under the FQCN for this class
String className = this.getClass().getName();
Locale currentLocale = null;
FacesContext context = null;
UIViewRoot root = null;
ResourceBundle resourceBundle = null;
// Step 1: look for a ResourceBundle under the FQCN of this instance
if (null != (context = FacesContext.getCurrentInstance())) {
if (null != (root = context.getViewRoot())) {
currentLocale = root.getLocale();
}
}
if (null == currentLocale) {
currentLocale = Locale.getDefault();
}
try {
resourceBundle =
ResourceBundle.getBundle(className, currentLocale);
} catch (MissingResourceException e) {
// It is not an error if there is no ResourceBundle
}
// Step 2: if this is a composite component, look for a
// ResourceBundle as a Resource
if (null == resourceBundle) {
if (this.getAttributes().containsKey(Resource.COMPONENT_RESOURCE_KEY)) {
Resource ccResource = (Resource)
this.getAttributes().get(Resource.COMPONENT_RESOURCE_KEY);
if (null != ccResource) {
if (null != (ccResource =
findComponentResourceBundleLocaleMatch(context,
ccResource.getResourceName(),
ccResource.getLibraryName()))) {
InputStream propertiesInputStream = null;
try {
propertiesInputStream = ccResource.getInputStream();
resourceBundle = new PropertyResourceBundle(propertiesInputStream);
} catch (IOException ex) {
Logger.getLogger(UIComponent.class.getName()).log(Level.SEVERE, null, ex);
} finally{
if(null != propertiesInputStream){
try{
propertiesInputStream.close();
} catch(IOException ioe){
if (LOGGER.isLoggable(Level.SEVERE)) {
LOGGER.log(Level.SEVERE, null, ioe);
}
}
}
}
}
}
}
}
// Step 3: if the previous steps yielded a ResourceBundle, wrap it
// with a Map
if (null != resourceBundle) {
final ResourceBundle bundle = resourceBundle;
resourceBundleMap =
new Map() {
// this is an immutable Map
public String toString() {
StringBuffer sb = new StringBuffer();
Iterator> entries =
this.entrySet().iterator();
Map.Entry cur;
while (entries.hasNext()) {
cur = entries.next();
sb.append(cur.getKey()).append(": ").append(cur.getValue()).append('\n');
}
return sb.toString();
}
// Do not need to implement for immutable Map
public void clear() {
throw new UnsupportedOperationException();
}
public boolean containsKey(Object key) {
boolean result = false;
if (null != key) {
result = (null != bundle.getObject(key.toString()));
}
return result;
}
public boolean containsValue(Object value) {
Enumeration keys = bundle.getKeys();
boolean result = false;
while (keys.hasMoreElements()) {
Object curObj = bundle.getObject(keys.nextElement());
if ((curObj == value) ||
((null != curObj) && curObj.equals(value))) {
result = true;
break;
}
}
return result;
}
public Set> entrySet() {
HashMap mappings = new HashMap();
Enumeration keys = bundle.getKeys();
while (keys.hasMoreElements()) {
String key = keys.nextElement();
Object value = bundle.getObject(key);
mappings.put(key, value);
}
return mappings.entrySet();
}
@Override
public boolean equals(Object obj) {
return !((obj == null) || !(obj instanceof Map))
&& entrySet().equals(((Map) obj).entrySet());
}
public Object get(Object key) {
if (null == key) {
return null;
}
try {
return bundle.getObject(key.toString());
} catch (MissingResourceException e) {
return "???" + key + "???";
}
}
public int hashCode() {
return bundle.hashCode();
}
public boolean isEmpty() {
Enumeration keys = bundle.getKeys();
return !keys.hasMoreElements();
}
public Set keySet() {
Set keySet = new HashSet();
Enumeration keys = bundle.getKeys();
while (keys.hasMoreElements()) {
keySet.add(keys.nextElement());
}
return keySet;
}
// Do not need to implement for immutable Map
public Object put(Object k, Object v) {
throw new UnsupportedOperationException();
}
// Do not need to implement for immutable Map
public void putAll(Map t) {
throw new UnsupportedOperationException();
}
// Do not need to implement for immutable Map
public Object remove(Object k) {
throw new UnsupportedOperationException();
}
public int size() {
int result = 0;
Enumeration keys = bundle.getKeys();
while (keys.hasMoreElements()) {
keys.nextElement();
result++;
}
return result;
}
public java.util.Collection values() {
ArrayList