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1   /*
2    * Copyright 2004 The Apache Software Foundation.
3    *
4    * Licensed under the Apache License, Version 2.0 (the "License");
5    * you may not use this file except in compliance with the License.
6    * You may obtain a copy of the License at
7    *
8    *      http://www.apache.org/licenses/LICENSE-2.0
9    *
10   * Unless required by applicable law or agreed to in writing, software
11   * distributed under the License is distributed on an "AS IS" BASIS,
12   * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13   * See the License for the specific language governing permissions and
14   * limitations under the License.
15   */
16  package org.apache.commons.beanutils;
17  
18  import java.util.Map;
19  import java.util.Iterator;
20  
21  /**
22   * <p>Provides a <i>light weight</i> <code>DynaBean</code> facade to a <code>Map</code> with <i>lazy</i> map/list processing.</p>
23   *
24   * <p>Its a <i>light weight</i> <code>DynaBean</code> implementation because there is no
25   *    actual <code>DynaClass</code> associated with this <code>DynaBean</code> - in fact
26   *    it implements the <code>DynaClass</code> interface itself providing <i>pseudo</i> DynaClass
27   *    behaviour from the actual values stored in the <code>Map</code>.</p>
28   *
29   * <p>As well providing rhe standard <code>DynaBean</code> access to the <code>Map</code>'s properties
30   *    this class also provides the usual <i>Lazy</i> behaviour:</p>
31   *    <ul>
32   *       <li>Properties don't need to be pre-defined in a <code>DynaClass</code></li>
33   *       <li>Indexed properties (<code>Lists</code> or <code>Arrays</code>) are automatically instantiated
34   *           and <i>grown</i> so that they are large enough to cater for the index being set.</li>
35   *       <li>Mapped properties are automatically instantiated.</li>
36   *    </ul>
37   *
38   * <p><b><u><i>Restricted</i> DynaClass</u></b></p>
39   *    <p>This class implements the <code>MutableDynaClass</code> interface.
40   *       <code>MutableDynaClass</code> have a facility to <i>restrict</i> the <code>DynaClass</code>
41   *       so that its properties cannot be modified. If the <code>MutableDynaClass</code> is
42   *       restricted then calling any of the <code>set()</code> methods for a property which
43   *       doesn't exist will result in a <code>IllegalArgumentException</code> being thrown.</p>
44   *
45   * @author Niall Pemberton
46   */
47  public class LazyDynaMap extends LazyDynaBean implements MutableDynaClass {
48  
49      /**
50       * The name of this DynaClass (analogous to the
51       * <code>getName()</code> method of <code>java.lang.Class</code>).
52       */
53      protected String name;
54  
55      /**
56       * Controls whether changes to this DynaClass's properties are allowed.
57       */
58      protected boolean restricted;
59  
60      /**
61       * <p>Controls whether the <code>getDynaProperty()</code> method returns
62       * null if a property doesn't exist - or creates a new one.</p>
63       *
64       * <p>Default is <code>false</code>.
65       */
66      protected boolean returnNull = false;
67  
68  
69      // ------------------- Constructors ----------------------------------
70  
71      /**
72       * Default Constructor.
73       */
74      public LazyDynaMap() {
75          this(null, (Map)null);
76      }
77  
78      /**
79       * Construct a new <code>LazyDynaMap</code> with the specified name.
80       *
81       * @param name Name of this DynaBean class
82       */
83      public LazyDynaMap(String name) {
84          this(name, (Map)null);
85      }
86  
87      /**
88       * Construct a new <code>LazyDynaMap</code> with the specified <code>Map</code>.
89       *
90       * @param values The Map backing this <code>LazyDynaMap</code>
91       */
92      public LazyDynaMap(Map values) {
93          this(null, values);
94      }
95  
96      /**
97       * Construct a new <code>LazyDynaMap</code> with the specified name and  <code>Map</code>.
98       *
99       * @param name Name of this DynaBean class
100      * @param values The Map backing this <code>LazyDynaMap</code>
101      */
102     public LazyDynaMap(String name, Map values) {
103         this.name      = name   == null ? "LazyDynaMap" : name;
104         this.values    = values == null ? newMap()      : values;
105         this.dynaClass = this;
106     }
107 
108     /**
109      * Construct a new <code>LazyDynaMap</code> with the specified properties.
110      *
111      * @param properties Property descriptors for the supported properties
112      */
113     public LazyDynaMap(DynaProperty[] properties) {
114         this(null, properties);
115     }
116 
117     /**
118      * Construct a new <code>LazyDynaMap</code> with the specified name and properties.
119      *
120      * @param name Name of this DynaBean class
121      * @param properties Property descriptors for the supported properties
122      */
123     public LazyDynaMap(String name, DynaProperty[] properties) {
124         this(name, (Map)null);
125         if (properties != null) {
126             for (int i = 0; i < properties.length; i++) {
127                 add(properties[i]);
128             }
129         }
130     }
131 
132     /**
133      * Construct a new <code>LazyDynaMap</code> based on an exisiting DynaClass
134      *
135      * @param dynaClass DynaClass to copy the name and properties from
136      */
137     public LazyDynaMap(DynaClass dynaClass) {
138         this(dynaClass.getName(), dynaClass.getDynaProperties());
139     }
140 
141     // ------------------- Public Methods ----------------------------------
142 
143     /**
144      * Set the Map backing this <code>DynaBean</code>
145      */
146     public void setMap(Map values) {
147         this.values = values;
148     }
149 
150     // ------------------- DynaBean Methods ----------------------------------
151 
152     /**
153      * Set the value of a simple property with the specified name.
154      *
155      * @param name Name of the property whose value is to be set
156      * @param value Value to which this property is to be set
157      */
158     public void set(String name, Object value) {
159 
160         if (isRestricted() && !values.containsKey(name)) {
161             throw new IllegalArgumentException
162                     ("Invalid property name '" + name + "' (DynaClass is restricted)");
163         }
164 
165         values.put(name, value);
166 
167     }
168 
169     // ------------------- DynaClass Methods ----------------------------------
170 
171     /**
172      * Return the name of this DynaClass (analogous to the
173      * <code>getName()</code> method of <code>java.lang.Class</code)
174      */
175     public String getName() {
176         return this.name;
177     }
178 
179     /**
180      * <p>Return a property descriptor for the specified property.</p>
181      *
182      * <p>If the property is not found and the <code>returnNull</code> indicator is
183      *    <code>true</code>, this method always returns <code>null</code>.</p>
184      *
185      * <p>If the property is not found and the <code>returnNull</code> indicator is
186      *    <code>false</code> a new property descriptor is created and returned (although
187      *    its not actually added to the DynaClass's properties). This is the default
188      *    beahviour.</p>
189      *
190      * <p>The reason for not returning a <code>null</code> property descriptor is that
191      *    <code>BeanUtils</code> uses this method to check if a property exists
192      *    before trying to set it - since these <i>Map</i> implementations automatically
193      *    add any new properties when they are set, returning <code>null</code> from
194      *    this method would defeat their purpose.</p>
195      *
196      * @param name Name of the dynamic property for which a descriptor
197      *  is requested
198      *
199      * @exception IllegalArgumentException if no property name is specified
200      */
201     public DynaProperty getDynaProperty(String name) {
202 
203         if (name == null)
204             throw new IllegalArgumentException("Property name is missing.");
205 
206         // If it doesn't exist and returnNull is false
207         // create a new DynaProperty
208         if (!values.containsKey(name) && isReturnNull()) {
209             return null;
210         }
211 
212         Object value = values.get(name);
213 
214         if (value == null) {
215             return new DynaProperty(name);
216         } else {
217             return new DynaProperty(name, value.getClass());
218         }
219 
220     }
221 
222     /**
223      * <p>Return an array of <code>ProperyDescriptors</code> for the properties
224      * currently defined in this DynaClass.  If no properties are defined, a
225      * zero-length array will be returned.</p>
226      *
227      * <p><strong>FIXME</strong> - Should we really be implementing
228      * <code>getBeanInfo()</code> instead, which returns property descriptors
229      * and a bunch of other stuff?</p>
230      */
231     public DynaProperty[] getDynaProperties() {
232 
233         int i = 0;
234         DynaProperty[] properties = new DynaProperty[values.size()];
235         Iterator iterator = values.keySet().iterator();
236 
237         while (iterator.hasNext()) {
238             String name = (String)iterator.next();
239             Object value = values.get(name);
240             properties[i++] = new DynaProperty(name, value == null ? null : value.getClass());
241         }
242 
243         return properties;
244 
245     }
246 
247     /**
248      * Instantiate and return a new DynaBean instance, associated
249      * with this DynaClass.
250      */
251     public DynaBean newInstance()  {
252         return new LazyDynaMap(this);
253     }
254 
255 
256     // ------------------- MutableDynaClass Methods ----------------------------------
257 
258     /**
259      * <p>Is this DynaClass currently restricted.</p>
260      * <p>If restricted, no changes to the existing registration of
261      *  property names, data types, readability, or writeability are allowed.</p>
262      */
263     public boolean isRestricted() {
264         return restricted;
265     }
266 
267     /**
268      * <p>Set whether this DynaClass is currently restricted.</p>
269      * <p>If restricted, no changes to the existing registration of
270      *  property names, data types, readability, or writeability are allowed.</p>
271      */
272     public void setRestricted(boolean restricted) {
273         this.restricted = restricted;
274     }
275 
276     /**
277      * Add a new dynamic property with no restrictions on data type,
278      * readability, or writeability.
279      *
280      * @param name Name of the new dynamic property
281      *
282      * @exception IllegalArgumentException if name is null
283      */
284     public void add(String name) {
285         add(name, null);
286     }
287 
288     /**
289      * Add a new dynamic property with the specified data type, but with
290      * no restrictions on readability or writeability.
291      *
292      * @param name Name of the new dynamic property
293      * @param type Data type of the new dynamic property (null for no
294      *  restrictions)
295      *
296      * @exception IllegalArgumentException if name is null
297      * @exception IllegalStateException if this DynaClass is currently
298      *  restricted, so no new properties can be added
299      */
300     public void add(String name, Class type) {
301 
302         if (name == null) {
303             throw new IllegalArgumentException("Property name is missing.");
304         }
305 
306         if (isRestricted())
307             throw new IllegalStateException("DynaClass is currently restricted. No new properties can be added.");
308 
309         Object value = values.get(name);
310 
311         // Check if the property already exists
312         if (value == null) {
313             values.put(name, type == null ? null : createProperty(name, type));
314         }
315 
316     }
317 
318     /**
319      * <p>Add a new dynamic property with the specified data type, readability,
320      * and writeability.</p>
321      *
322      * <p><strong>N.B.</strong>Support for readable/writeable properties has not been implemented
323      *    and this method always throws a <code>UnsupportedOperationException</code>.</p>
324      *
325      * <p>I'm not sure the intention of the original authors for this method, but it seems to
326      *    me that readable/writable should be attributes of the <code>DynaProperty</code> class
327      *    (which they are not) and is the reason this method has not been implemented.</p>
328      *
329      * @param name Name of the new dynamic property
330      * @param type Data type of the new dynamic property (null for no
331      *  restrictions)
332      * @param readable Set to <code>true</code> if this property value
333      *  should be readable
334      * @param writeable Set to <code>true</code> if this property value
335      *  should be writeable
336      *
337      * @exception UnsupportedOperationException anytime this method is called
338      */
339     public void add(String name, Class type, boolean readable, boolean writeable) {
340         throw new java.lang.UnsupportedOperationException("readable/writable properties not supported");
341     }
342 
343     /**
344      * Add a new dynamic property.
345      *
346      * @param property Property the new dynamic property to add.
347      *
348      * @exception IllegalArgumentException if name is null
349      */
350     protected void add(DynaProperty property) {
351         add(property.getName(), property.getType());
352     }
353 
354     /**
355      * Remove the specified dynamic property, and any associated data type,
356      * readability, and writeability, from this dynamic class.
357      * <strong>NOTE</strong> - This does <strong>NOT</strong> cause any
358      * corresponding property values to be removed from DynaBean instances
359      * associated with this DynaClass.
360      *
361      * @param name Name of the dynamic property to remove
362      *
363      * @exception IllegalArgumentException if name is null
364      * @exception IllegalStateException if this DynaClass is currently
365      *  restricted, so no properties can be removed
366      */
367     public void remove(String name) {
368 
369         if (name == null) {
370             throw new IllegalArgumentException("Property name is missing.");
371         }
372 
373         if (isRestricted()) {
374             throw new IllegalStateException("DynaClass is currently restricted. No properties can be removed.");
375         }
376 
377         // Remove, if property doesn't exist
378         if (values.containsKey(name)) {
379             values.remove(name);
380         }
381 
382     }
383 
384 
385     // ------------------- Additional Public Methods ----------------------------------
386 
387     /**
388      * Should this DynaClass return a <code>null</code> from
389      * the <code>getDynaProperty(name)</code> method if the property
390      * doesn't exist.
391      */
392     public boolean isReturnNull() {
393         return returnNull;
394     }
395 
396     /**
397      * Set whether this DynaClass should return a <code>null</code> from
398      * the <code>getDynaProperty(name)</code> method if the property
399      * doesn't exist.
400      */
401     public void setReturnNull(boolean returnNull) {
402         this.returnNull = returnNull;
403     }
404 
405 
406     // ------------------- Protected Methods ----------------------------------
407 
408    /**
409      * <p>Indicate whether a property actually exists.</p>
410      *
411      * <p><strong>N.B.</strong> Using <code>getDynaProperty(name) == null</code>
412      * doesn't work in this implementation because that method might
413      * return a DynaProperty if it doesn't exist (depending on the
414      * <code>returnNull</code> indicator).</p>
415      *
416      * @exception IllegalArgumentException if no property name is specified
417      */
418     protected boolean isDynaProperty(String name) {
419 
420         if (name == null) {
421             throw new IllegalArgumentException("Property name is missing.");
422         }
423 
424         return values.containsKey(name);
425 
426     }
427 
428 }