/* * ElementMap.java August 2007 * * Copyright (C) 2007, Niall Gallagher * * Licensed 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 org.simpleframework.xml; import java.lang.annotation.RetentionPolicy; import java.lang.annotation.Retention; /** * The ElementMap annotation represents a method or field * that is a Map for storing key value pairs. The map * object deserialized is typically of the same type as the field. * However, a class attribute can be used to override the * field type, however the type must be assignable. * 
 * 
 *    <map class="java.util.HashMap">
 *       <entry key="one">value one</entry>
 *       <entry key="two">value two</entry>
 *       <entry key="three">value three</entry>  
 *    </map>
 * 
 *
* If a class attribute is not provided and the type or * the field or method is abstract, a suitable match is searched for * from the maps available from the Java collections framework. This * annotation can support both primitive and composite values and * keys enabling just about any configuration to be used. * 
 *
 *    <map class="java.util.HashMap">
 *       <entry key="1">
 *          <value>value one</value>
 *       </entry>
 *       <entry key="2">
 *          <value>value two</value>
 *       </entry>
 *       <entry key="3">
 *          <value>value three</value>
 *       </entry> 
 *    </map>
 * 
 *
* The above XML is an example of the output for an composite value * object. Composite and primitive values can be used without any * specified attributes, in such a case names for primitives are the * names of the objects they represent. Also, if desired these * default names can be overridden using the provided attributes * making the resulting XML entirely configurable. * * @author Niall Gallagher */ @Retention(RetentionPolicy.RUNTIME) public @interface ElementMap { /** * This represents the name of the XML element. Annotated fields * can optionally provide the name of the element. If no name is * provided then the name of the annotated field or method will * be used in its place. The name is provided if the field or * method name is not suitable as an XML element name. Also, if * the list is inline then this must not be specified. * * @return the name of the XML element this represents */ String name() default ""; /** * This is used to provide a the name of the entry XML element * that wraps the key and value elements. If specified the entry * value specified will be used instead of the default name of * the element. This is used to ensure the resulting XML is * configurable to the requirements of the generated XML. * * @return this returns the entry XML element for each entry */ String entry() default ""; /** * This is used to provide a value XML element for each of the * values within the map. This essentially wraps the entity to * be serialized such that there is an extra XML element present. * This can be used to override the default names of primitive * values, however it can also be used to wrap composite values. * * @return this returns the value XML element for each value */ String value() default ""; /** * This is used to provide a key XML element for each of the * keys within the map. This essentially wraps the entity to * be serialized such that there is an extra XML element present. * This can be used to override the default names of primitive * keys, however it can also be used to wrap composite keys. * * @return this returns the key XML element for each key */ String key() default ""; /** * Represents the type of key the element map contains. This * type is used to deserialize the XML entry key from the map. * The object typically represents the deserialized type, but can * represent a subclass of the type deserialized as determined * by the class attribute value for the map. If * this is not specified then the type can be determined from the * generic parameter of the annotated Map object. * * @return the type of the entry key deserialized from the XML */ Class keyType() default void.class; /** * Represents the type of value the element map contains. This * type is used to deserialize the XML entry value from the map. * The object typically represents the deserialized type, but can * represent a subclass of the type deserialized as determined * by the class attribute value for the map. If * this is not specified then the type can be determined from the * generic parameter of the annotated Map object. * * @return the type of the entry value deserialized from the XML */ Class valueType() default void.class; /** * Represents whether the key value is to be an attribute or an * element. This allows the key to be embedded within the entry * XML element allowing for a more compact representation. Only * primitive key objects can be represented as an attribute. For * example a java.util.Date or a string could be * represented as an attribute key for the generated XML. * * @return true if the key is to be inlined as an attribute */ boolean attribute() default false; /** * Determines whether the element is required within the XML * document. Any field marked as not required will not have its * value set when the object is deserialized. If an object is to * be serialized only a null attribute will not appear as XML. * * @return true if the element is required, false otherwise */ boolean required() default true; /** * This is used to determine whether the element data is written * in a CDATA block or not. If this is set to true then the text * is written within a CDATA block, by default the text is output * as escaped XML. Typically this is useful when this annotation * is applied to an array of primitives, such as strings. * * @return true if entries are to be wrapped in a CDATA block */ boolean data() default false; /** * Determines whether the element list is inlined with respect * to the parent XML element. An inlined element list does not * contain an enclosing element. It is simple a sequence of * elements that appear one after another within an element. * As such an inline element list must not have a name. * * @return this returns true if the element list is inline */ boolean inline() default false; /** * This is used to determine if an optional field or method can * remain null if it does not exist. If this is false then the * optional element is given an empty map. This is a convenience * attribute which avoids having to check if the element is null * before providing it with a suitable default instance. * * @return false if an optional element is always instantiated */ boolean empty() default true; }