replicant-frameworks_native/awt/javax/imageio/metadata/IIOMetadataFormatImpl.java

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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package javax.imageio.metadata;
import javax.imageio.ImageTypeSpecifier;
import java.util.*;
import java.security.AccessController;
import java.security.PrivilegedAction;
/**
* The IIOMetadataFormatImpl class provides an implementation of the
* IIOMetadataFormat interface.
*
* @since Android 1.0
*/
public abstract class IIOMetadataFormatImpl implements IIOMetadataFormat {
/**
* The Constant standardMetadataFormatName.
*/
@SuppressWarnings( {
"ConstantDeclaredInAbstractClass"
})
public static final String standardMetadataFormatName = "javax_imageio_1.0";
/**
* The standard format.
*/
@SuppressWarnings( {
"StaticNonFinalField"
})
private static IIOMetadataFormatImpl standardFormat;
/**
* The root name.
*/
private String rootName;
/**
* The element hash.
*/
private HashMap<String, Element> elementHash = new HashMap<String, Element>();
/**
* The resource base name.
*/
private String resourceBaseName = getClass().getName() + "Resources";
/**
* Instantiates an IIOMetadataFormatImpl with the specified root name and
* child policy (not CHILD_POLICY_REPEAT).
*
* @param rootName
* the name of root element.
* @param childPolicy
* the child policy defined by one of the CHILD_POLICY_*
* constants (except CHILD_POLICY_REPEAT).
*/
public IIOMetadataFormatImpl(String rootName, int childPolicy) {
if (rootName == null) {
throw new IllegalArgumentException("rootName is null");
}
if (childPolicy < CHILD_POLICY_EMPTY || childPolicy > CHILD_POLICY_MAX
|| childPolicy == CHILD_POLICY_REPEAT) {
throw new IllegalArgumentException("childPolicy is not one of the predefined constants");
}
this.rootName = rootName;
Element root = new Element();
root.name = rootName;
root.childPolicy = childPolicy;
elementHash.put(rootName, root);
}
/**
* Instantiates an IIOMetadataFormatImpl with the specified root name and
* CHILD_POLICY_REPEAT child policy.
*
* @param rootName
* the name of root element.
* @param minChildren
* the minimum number of children.
* @param maxChildren
* the maximum number of children
*/
public IIOMetadataFormatImpl(String rootName, int minChildren, int maxChildren) {
if (rootName == null) {
throw new IllegalArgumentException("rootName is null");
}
if (minChildren < 0) {
throw new IllegalArgumentException("minChildren < 0!");
}
if (minChildren > maxChildren) {
throw new IllegalArgumentException("minChildren > maxChildren!");
}
this.rootName = rootName;
Element root = new Element();
root.name = rootName;
root.minChildren = minChildren;
root.maxChildren = maxChildren;
root.childPolicy = CHILD_POLICY_REPEAT;
elementHash.put(rootName, root);
}
@SuppressWarnings( {
"AbstractMethodOverridesAbstractMethod"
})
public abstract boolean canNodeAppear(String elementName, ImageTypeSpecifier imageType);
/**
* Adds a new attribute to an existing element.
*
* @param elementName
* the name of the element to which the new attribute will be
* added.
* @param attrName
* the attribute name.
* @param dataType
* the data type of the new attribute.
* @param required
* the flag which indicates whether this attribute must be
* present.
* @param listMinLength
* the minimum legal number of list items.
* @param listMaxLength
* the the maximum legal number of list items.
*/
protected void addAttribute(String elementName, String attrName, int dataType,
boolean required, int listMinLength, int listMaxLength) {
if (attrName == null) {
throw new IllegalArgumentException("attrName == null!");
}
if (dataType < DATATYPE_STRING || dataType > DATATYPE_DOUBLE) {
throw new IllegalArgumentException("Invalid value for dataType!");
}
if (listMinLength < 0 || listMinLength > listMaxLength) {
throw new IllegalArgumentException("Invalid list bounds!");
}
Element element = findElement(elementName);
Attlist attr = new Attlist();
attr.name = attrName;
attr.dataType = dataType;
attr.required = required;
attr.listMinLength = listMinLength;
attr.listMaxLength = listMaxLength;
attr.valueType = VALUE_LIST;
element.attributes.put(attrName, attr);
}
/**
* Adds a new attribute to an existing element.
*
* @param elementName
* the name of the element to which the new attribute will be
* added.
* @param attrName
* the attribute name.
* @param dataType
* the data type of the new attribute.
* @param required
* the flag which indicates whether this attribute must be
* present.
* @param defaultValue
* the default value of the attribute.
*/
protected void addAttribute(String elementName, String attrName, int dataType,
boolean required, String defaultValue) {
if (attrName == null) {
throw new IllegalArgumentException("attrName == null!");
}
if (dataType < DATATYPE_STRING || dataType > DATATYPE_DOUBLE) {
throw new IllegalArgumentException("Invalid value for dataType!");
}
Element element = findElement(elementName);
Attlist attr = new Attlist();
attr.name = attrName;
attr.dataType = dataType;
attr.required = required;
attr.defaultValue = defaultValue;
attr.valueType = VALUE_ARBITRARY;
element.attributes.put(attrName, attr);
}
/**
* Adds a new attribute to an existing element.
*
* @param elementName
* the name of the element to which the new attribute will be
* added.
* @param attrName
* the attribute name.
* @param dataType
* the data type of the new attribute.
* @param required
* the flag which indicates whether this attribute must be
* present.
* @param defaultValue
* the default value of the attribute.
* @param enumeratedValues
* the legal values for the attribute as a list of strings.
*/
protected void addAttribute(String elementName, String attrName, int dataType,
boolean required, String defaultValue, List<String> enumeratedValues) {
if (attrName == null) {
throw new IllegalArgumentException("attrName == null!");
}
if (dataType < DATATYPE_STRING || dataType > DATATYPE_DOUBLE) {
throw new IllegalArgumentException("Invalid value for dataType!");
}
if (enumeratedValues == null || enumeratedValues.isEmpty()) {
throw new IllegalArgumentException("enumeratedValues is empty or null");
}
try {
for (String enumeratedValue : enumeratedValues) {
if (enumeratedValue == null) {
throw new IllegalArgumentException("enumeratedValues contains a null!");
}
}
} catch (ClassCastException e) {
throw new IllegalArgumentException("enumeratedValues contains a non-String value!");
}
Element element = findElement(elementName);
Attlist attr = new Attlist();
attr.name = attrName;
attr.dataType = dataType;
attr.required = required;
attr.defaultValue = defaultValue;
attr.enumeratedValues = enumeratedValues;
attr.valueType = VALUE_ENUMERATION;
element.attributes.put(attrName, attr);
}
/**
* Adds a new attribute to an existing element.
*
* @param elementName
* the name of the element to which the new attribute will be
* added.
* @param attrName
* the attribute name.
* @param dataType
* the data type of the new attribute.
* @param required
* the flag which indicates whether this attribute must be
* present.
* @param defaultValue
* the default value of attribute.
* @param minValue
* the minimum legal value of an attribute.
* @param maxValue
* the maximum legal value of an attribute.
* @param minInclusive
* the flag which indicates whether the minValue is inclusive.
* @param maxInclusive
* the flag which indicates whether the maxValue is inclusive.
*/
protected void addAttribute(String elementName, String attrName, int dataType,
boolean required, String defaultValue, String minValue, String maxValue,
boolean minInclusive, boolean maxInclusive) {
if (attrName == null) {
throw new IllegalArgumentException("attrName == null!");
}
if (dataType < DATATYPE_STRING || dataType > DATATYPE_DOUBLE) {
throw new IllegalArgumentException("Invalid value for dataType!");
}
Element element = findElement(elementName);
Attlist attr = new Attlist();
attr.name = attrName;
attr.dataType = dataType;
attr.required = required;
attr.defaultValue = defaultValue;
attr.minValue = minValue;
attr.maxValue = maxValue;
attr.minInclusive = minInclusive;
attr.maxInclusive = maxInclusive;
attr.valueType = VALUE_RANGE;
attr.valueType |= minInclusive ? VALUE_RANGE_MIN_INCLUSIVE_MASK : 0;
attr.valueType |= maxInclusive ? VALUE_RANGE_MAX_INCLUSIVE_MASK : 0;
element.attributes.put(attrName, attr);
}
/**
* Adds a new attribute with boolean data type to an existing element.
*
* @param elementName
* the name of the element to which the new attribute will be
* added.
* @param attrName
* the attribute name.
* @param hasDefaultValue
* the flag which indicates whether this attribute must have a
* default value.
* @param defaultValue
* the default value.
*/
protected void addBooleanAttribute(String elementName, String attrName,
boolean hasDefaultValue, boolean defaultValue) {
String defaultVal = hasDefaultValue ? (defaultValue ? "TRUE" : "FALSE") : null;
ArrayList<String> values = new ArrayList<String>(2);
values.add("TRUE");
values.add("FALSE");
addAttribute(elementName, attrName, DATATYPE_BOOLEAN, true, defaultVal, values);
}
/**
* Adds an existing element to the list of child elements of the specified
* parent element.
*
* @param elementName
* the name of the element to be added.
* @param parentName
* the parent element name.
*/
protected void addChildElement(String elementName, String parentName) {
Element parent = findElement(parentName);
Element element = findElement(elementName);
parent.children.add(element.name);
}
/**
* Adds a new element type to this IIOMetadataFormat with a child policy (if
* policy is not CHILD_POLICY_REPEAT).
*
* @param elementName
* the name of the element to be added.
* @param parentName
* the parent element name.
* @param childPolicy
* one of the CHILD_POLICY_* constants defined by
* IIOMetadataFormat.
*/
protected void addElement(String elementName, String parentName, int childPolicy) {
if (childPolicy < CHILD_POLICY_EMPTY || childPolicy > CHILD_POLICY_MAX
|| childPolicy == CHILD_POLICY_REPEAT) {
throw new IllegalArgumentException("childPolicy is not one of the predefined constants");
}
Element parent = findElement(parentName);
Element element = new Element();
element.name = elementName;
element.childPolicy = childPolicy;
elementHash.put(elementName, element);
parent.children.add(elementName);
}
/**
* Adds a new element type to this IIOMetadataFormat with
* CHILD_POLICY_REPEAT and the specified minimum and maximum number of child
* elements.
*
* @param elementName
* the element name to be added.
* @param parentName
* the parent element name.
* @param minChildren
* the minimum number of child elements.
* @param maxChildren
* the maximum number of child elements.
*/
protected void addElement(String elementName, String parentName, int minChildren,
int maxChildren) {
if (minChildren < 0) {
throw new IllegalArgumentException("minChildren < 0!");
}
if (minChildren > maxChildren) {
throw new IllegalArgumentException("minChildren > maxChildren!");
}
Element parent = findElement(parentName);
Element element = new Element();
element.name = elementName;
element.childPolicy = CHILD_POLICY_REPEAT;
element.minChildren = minChildren;
element.maxChildren = maxChildren;
elementHash.put(elementName, element);
parent.children.add(elementName);
}
/**
* Adds an Object reference with the specified class type to be stored as
* element's value.
*
* @param elementName
* the element name.
* @param classType
* the class indicates the legal types for the object's value.
* @param arrayMinLength
* the minimum legal length for the array.
* @param arrayMaxLength
* the maximum legal length for the array.
*/
protected void addObjectValue(String elementName, Class<?> classType, int arrayMinLength,
int arrayMaxLength) {
Element element = findElement(elementName);
ObjectValue objVal = new ObjectValue();
objVal.classType = classType;
objVal.arrayMaxLength = arrayMaxLength;
objVal.arrayMinLength = arrayMinLength;
objVal.valueType = VALUE_LIST;
element.objectValue = objVal;
}
/**
* Adds an Object reference with the specified class type to be stored as an
* element's value.
*
* @param elementName
* the element name.
* @param classType
* the class indicates the legal types for the object's value.
* @param required
* a flag indicated that this object value must be present.
* @param defaultValue
* the default value, or null.
*/
protected <T> void addObjectValue(String elementName, Class<T> classType, boolean required,
T defaultValue) {
// note: reqired is an unused parameter
Element element = findElement(elementName);
ObjectValue<T> objVal = new ObjectValue<T>();
objVal.classType = classType;
objVal.defaultValue = defaultValue;
objVal.valueType = VALUE_ARBITRARY;
element.objectValue = objVal;
}
/**
* Adds an Object reference with the specified class type to be stored as
* the element's value.
*
* @param elementName
* the element name.
* @param classType
* the class indicates the legal types for the object value.
* @param required
* a flag indicated that this object value must be present.
* @param defaultValue
* the default value, or null.
* @param enumeratedValues
* the list of legal values for the object.
*/
protected <T> void addObjectValue(String elementName, Class<T> classType, boolean required,
T defaultValue, List<? extends T> enumeratedValues) {
// note: reqired is an unused parameter
if (enumeratedValues == null || enumeratedValues.isEmpty()) {
throw new IllegalArgumentException("enumeratedValues is empty or null");
}
try {
for (T enumeratedValue : enumeratedValues) {
if (enumeratedValue == null) {
throw new IllegalArgumentException("enumeratedValues contains a null!");
}
}
} catch (ClassCastException e) {
throw new IllegalArgumentException(
"enumeratedValues contains a value not of class classType!");
}
Element element = findElement(elementName);
ObjectValue<T> objVal = new ObjectValue<T>();
objVal.classType = classType;
objVal.defaultValue = defaultValue;
objVal.enumeratedValues = enumeratedValues;
objVal.valueType = VALUE_ENUMERATION;
element.objectValue = objVal;
}
/**
* Adds an Object reference with the specified class type to be stored as
* the element's value.
*
* @param elementName
* the element name.
* @param classType
* the class indicates the legal types for the object value.
* @param defaultValue
* the default value, or null.
* @param minValue
* the minimum legal value for the object value.
* @param maxValue
* the maximum legal value for the object value.
* @param minInclusive
* the flag which indicates whether the minValue is inclusive.
* @param maxInclusive
* the flag which indicates whether the maxValue is inclusive.
*/
protected <T extends Object & Comparable<? super T>> void addObjectValue(String elementName,
Class<T> classType, T defaultValue, Comparable<? super T> minValue,
Comparable<? super T> maxValue, boolean minInclusive, boolean maxInclusive) {
Element element = findElement(elementName);
ObjectValue<T> objVal = new ObjectValue<T>();
objVal.classType = classType;
objVal.defaultValue = defaultValue;
objVal.minValue = minValue;
objVal.maxValue = maxValue;
objVal.minInclusive = minInclusive;
objVal.maxInclusive = maxInclusive;
objVal.valueType = VALUE_RANGE;
objVal.valueType |= minInclusive ? VALUE_RANGE_MIN_INCLUSIVE_MASK : 0;
objVal.valueType |= maxInclusive ? VALUE_RANGE_MAX_INCLUSIVE_MASK : 0;
element.objectValue = objVal;
}
public int getAttributeDataType(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
return attr.dataType;
}
public String getAttributeDefaultValue(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
return attr.defaultValue;
}
public String getAttributeDescription(String elementName, String attrName, Locale locale) {
findAttribute(elementName, attrName);
return getResourceString(elementName + "/" + attrName, locale);
}
public String[] getAttributeEnumerations(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
if (attr.valueType != VALUE_ENUMERATION) {
throw new IllegalArgumentException("Attribute is not an enumeration!");
}
return attr.enumeratedValues.toArray(new String[attr.enumeratedValues.size()]);
}
public int getAttributeListMaxLength(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
if (attr.valueType != VALUE_LIST) {
throw new IllegalArgumentException("Attribute is not a list!");
}
return attr.listMaxLength;
}
public int getAttributeListMinLength(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
if (attr.valueType != VALUE_LIST) {
throw new IllegalArgumentException("Attribute is not a list!");
}
return attr.listMinLength;
}
public String getAttributeMaxValue(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
if ((attr.valueType & VALUE_RANGE) == 0) {
throw new IllegalArgumentException("Attribute is not a range!");
}
return attr.maxValue;
}
public String getAttributeMinValue(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
if ((attr.valueType & VALUE_RANGE) == 0) {
throw new IllegalArgumentException("Attribute is not a range!");
}
return attr.minValue;
}
public String[] getAttributeNames(String elementName) {
Element element = findElement(elementName);
return element.attributes.keySet().toArray(new String[element.attributes.size()]);
}
public int getAttributeValueType(String elementName, String attrName) {
Attlist attr = findAttribute(elementName, attrName);
return attr.valueType;
}
public String[] getChildNames(String elementName) {
Element element = findElement(elementName);
if (element.childPolicy == CHILD_POLICY_EMPTY) { // Element cannot have
// children
return null;
}
return element.children.toArray(new String[element.children.size()]);
}
public int getChildPolicy(String elementName) {
Element element = findElement(elementName);
return element.childPolicy;
}
public String getElementDescription(String elementName, Locale locale) {
findElement(elementName); // Check if there is such element
return getResourceString(elementName, locale);
}
public int getElementMaxChildren(String elementName) {
Element element = findElement(elementName);
if (element.childPolicy != CHILD_POLICY_REPEAT) {
throw new IllegalArgumentException("Child policy is not CHILD_POLICY_REPEAT!");
}
return element.maxChildren;
}
public int getElementMinChildren(String elementName) {
Element element = findElement(elementName);
if (element.childPolicy != CHILD_POLICY_REPEAT) {
throw new IllegalArgumentException("Child policy is not CHILD_POLICY_REPEAT!");
}
return element.minChildren;
}
public int getObjectArrayMaxLength(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null || v.valueType != VALUE_LIST) {
throw new IllegalArgumentException("Not a list!");
}
return v.arrayMaxLength;
}
public int getObjectArrayMinLength(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null || v.valueType != VALUE_LIST) {
throw new IllegalArgumentException("Not a list!");
}
return v.arrayMinLength;
}
public Class<?> getObjectClass(String elementName) {
ObjectValue v = findObjectValue(elementName);
return v.classType;
}
public Object getObjectDefaultValue(String elementName) {
ObjectValue v = findObjectValue(elementName);
return v.defaultValue;
}
public Object[] getObjectEnumerations(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null || v.valueType != VALUE_ENUMERATION) {
throw new IllegalArgumentException("Not an enumeration!");
}
return v.enumeratedValues.toArray();
}
public Comparable<?> getObjectMaxValue(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null || (v.valueType & VALUE_RANGE) == 0) {
throw new IllegalArgumentException("Not a range!");
}
return v.maxValue;
}
public Comparable<?> getObjectMinValue(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null || (v.valueType & VALUE_RANGE) == 0) {
throw new IllegalArgumentException("Not a range!");
}
return v.minValue;
}
public int getObjectValueType(String elementName) {
Element element = findElement(elementName);
if (element.objectValue == null) {
return VALUE_NONE;
}
return element.objectValue.valueType;
}
/**
* Gets the resource base name for locating ResourceBundles.
*
* @return the current resource base name.
*/
protected String getResourceBaseName() {
return resourceBaseName;
}
public String getRootName() {
return rootName;
}
/**
* Gets the standard format instance.
*
* @return the IIOMetadataFormat instance.
*/
public static IIOMetadataFormat getStandardFormatInstance() {
if (standardFormat == null) {
standardFormat = new IIOStandardMetadataFormat();
}
return standardFormat;
}
public boolean isAttributeRequired(String elementName, String attrName) {
return findAttribute(elementName, attrName).required;
}
/**
* Removes the specified attribute from the specified element.
*
* @param elementName
* the specified element name.
* @param attrName
* the specified attribute name.
*/
protected void removeAttribute(String elementName, String attrName) {
Element element = findElement(elementName);
element.attributes.remove(attrName);
}
/**
* Removes the specified element from this format.
*
* @param elementName
* the specified element name.
*/
protected void removeElement(String elementName) {
Element element;
if ((element = elementHash.get(elementName)) != null) {
elementHash.remove(elementName);
for (Element e : elementHash.values()) {
e.children.remove(element.name);
}
}
}
/**
* Removes the object value from the specified element.
*
* @param elementName
* the element name.
*/
protected void removeObjectValue(String elementName) {
Element element = findElement(elementName);
element.objectValue = null;
}
/**
* Sets a new base name for ResourceBundles containing descriptions of
* elements and attributes for this format.
*
* @param resourceBaseName
* the new resource base name.
*/
protected void setResourceBaseName(String resourceBaseName) {
if (resourceBaseName == null) {
throw new IllegalArgumentException("resourceBaseName == null!");
}
this.resourceBaseName = resourceBaseName;
}
/**
* The Class Element.
*/
@SuppressWarnings( {
"ClassWithoutConstructor"
})
private class Element {
/**
* The name.
*/
String name;
/**
* The children.
*/
ArrayList<String> children = new ArrayList<String>();
/**
* The attributes.
*/
HashMap<String, Attlist> attributes = new HashMap<String, Attlist>();
/**
* The min children.
*/
int minChildren;
/**
* The max children.
*/
int maxChildren;
/**
* The child policy.
*/
int childPolicy;
/**
* The object value.
*/
ObjectValue objectValue;
}
/**
* The Class Attlist.
*/
@SuppressWarnings( {
"ClassWithoutConstructor"
})
private class Attlist {
/**
* The name.
*/
String name;
/**
* The data type.
*/
int dataType;
/**
* The required.
*/
boolean required;
/**
* The list min length.
*/
int listMinLength;
/**
* The list max length.
*/
int listMaxLength;
/**
* The default value.
*/
String defaultValue;
/**
* The enumerated values.
*/
List<String> enumeratedValues;
/**
* The min value.
*/
String minValue;
/**
* The max value.
*/
String maxValue;
/**
* The min inclusive.
*/
boolean minInclusive;
/**
* The max inclusive.
*/
boolean maxInclusive;
/**
* The value type.
*/
int valueType;
}
/**
* The Class ObjectValue.
*/
@SuppressWarnings( {
"ClassWithoutConstructor"
})
private class ObjectValue<T> {
/**
* The class type.
*/
Class<T> classType;
/**
* The array min length.
*/
int arrayMinLength;
/**
* The array max length.
*/
int arrayMaxLength;
/**
* The default value.
*/
T defaultValue;
/**
* The enumerated values.
*/
List<? extends T> enumeratedValues;
/**
* The min value.
*/
Comparable<? super T> minValue;
/**
* The max value.
*/
Comparable<? super T> maxValue;
/**
* The min inclusive.
*/
boolean minInclusive;
/**
* The max inclusive.
*/
boolean maxInclusive;
/**
* The value type.
*/
int valueType;
}
/**
* Find element.
*
* @param name
* the name.
* @return the element.
*/
private Element findElement(String name) {
Element element;
if ((element = elementHash.get(name)) == null) {
throw new IllegalArgumentException("element name is null or no such element: " + name);
}
return element;
}
/**
* Find attribute.
*
* @param elementName
* the element name.
* @param attributeName
* the attribute name.
* @return the attlist.
*/
private Attlist findAttribute(String elementName, String attributeName) {
Element element = findElement(elementName);
Attlist attribute;
if ((attribute = element.attributes.get(attributeName)) == null) {
throw new IllegalArgumentException("attribute name is null or no such attribute: "
+ attributeName);
}
return attribute;
}
/**
* Find object value.
*
* @param elementName
* the element name.
* @return the object value.
*/
private ObjectValue findObjectValue(String elementName) {
Element element = findElement(elementName);
ObjectValue v = element.objectValue;
if (v == null) {
throw new IllegalArgumentException("No object within element");
}
return v;
}
/**
* Gets the resource string.
*
* @param key
* the key.
* @param locale
* the locale.
* @return the resource string.
*/
private String getResourceString(String key, Locale locale) {
if (locale == null) {
locale = Locale.getDefault();
}
// Get the context class loader and try to locate the bundle with it
// first
ClassLoader contextClassloader = AccessController
.doPrivileged(new PrivilegedAction<ClassLoader>() {
public ClassLoader run() {
return Thread.currentThread().getContextClassLoader();
}
});
// Now try to get the resource bundle
ResourceBundle rb;
try {
rb = ResourceBundle.getBundle(resourceBaseName, locale, contextClassloader);
} catch (MissingResourceException e) {
try {
rb = ResourceBundle.getBundle(resourceBaseName, locale);
} catch (MissingResourceException e1) {
return null;
}
}
try {
return rb.getString(key);
} catch (MissingResourceException e) {
return null;
} catch (ClassCastException e) {
return null; // Not a string resource
}
}
}