Source Code Cross Referenced for ELResolver.java in  » EJB-Server-GlassFish » servlet » javax » el » Java Source Code / Java DocumentationJava Source Code and Java Documentation

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Java Source Code / Java Documentation » EJB Server GlassFish » servlet » javax.el 
Source Cross Referenced  Class Diagram Java Document (Java Doc) 


001:        /*
002:         * The contents of this file are subject to the terms
003:         * of the Common Development and Distribution License
004:         * (the "License").  You may not use this file except
005:         * in compliance with the License.
006:         *
007:         * You can obtain a copy of the license at
008:         * glassfish/bootstrap/legal/CDDLv1.0.txt or
009:         * https://glassfish.dev.java.net/public/CDDLv1.0.html.
010:         * See the License for the specific language governing
011:         * permissions and limitations under the License.
012:         *
013:         * When distributing Covered Code, include this CDDL
014:         * HEADER in each file and include the License file at
015:         * glassfish/bootstrap/legal/CDDLv1.0.txt.  If applicable,
016:         * add the following below this CDDL HEADER, with the
017:         * fields enclosed by brackets "[]" replaced with your
018:         * own identifying information: Portions Copyright [yyyy]
019:         * [name of copyright owner]
020:         *
021:         * Copyright 2005 Sun Microsystems, Inc. All rights reserved.
022:         */
023:
024:        package javax.el;
025:
026:        import java.util.Iterator;
027:        import java.beans.FeatureDescriptor;
028:
029:        /**
030:         * Enables customization of variable and property resolution behavior for EL
031:         * expression evaluation.
032:         *
033:         * <p>While evaluating an expression, the <code>ELResolver</code> associated
034:         * with the {@link ELContext} is consulted to do the initial resolution of 
035:         * the first variable of an expression. It is also consulted when a 
036:         * <code>.</code> or <code>[]</code> operator is encountered, except for the
037:         * last such operator in a method expression, in which case the resultion
038:         * rules are hard coded.</p>
039:         *
040:         * <p>For example, in the EL expression <code>${employee.lastName}</code>, 
041:         * the <code>ELResolver</code> determines what object <code>employee</code>
042:         * refers to, and what it means to get the <code>lastName</code> property on 
043:         * that object.</p>
044:         *
045:         * <p>Most methods in this class accept a <code>base</code> 
046:         * and <code>property</code> parameter. In the case of variable resolution
047:         * (e.g. determining what <code>employee</code> refers to in 
048:         * <code>${employee.lastName}</code>), the <code>base</code> parameter will 
049:         * be <code>null</code> and the <code>property</code> parameter will always 
050:         * be of type <code>String</code>. In this case, if the <code>property</code>
051:         * is not a <code>String</code>, the behavior of the <code>ELResolver</code>
052:         * is undefined.</p>
053:         *
054:         * <p>In the case of property resolution, the <code>base</code> parameter
055:         * identifies the base object and the <code>property</code> object identifies
056:         * the property on that base. For example, in the expression
057:         * <code>${employee.lastName}</code>, <code>base</code> is the result of the
058:         * variable resolution for <code>employee</code> and <code>property</code>
059:         * is the string <code>"lastName"</code>.  In the expression
060:         * <code>${y[x]}</code>, <code>base</code> is the result of the variable
061:         * resolution for <code>y</code> and <code>property</code> is the result of
062:         * the variable resolution for <code>x</code>.</p>
063:         *
064:         * <p>Though only a single <code>ELResolver</code> is associated with an
065:         * <code>ELContext</code>, there are usually multiple resolvers considered
066:         * for any given variable or property resolution. <code>ELResolver</code>s
067:         * are combined together using {@link CompositeELResolver}s, to define
068:         * rich semantics for evaluating an expression.</p>
069:         *
070:         * <p>For the {@link #getValue}, {@link #getType}, {@link #setValue} and
071:         * {@link #isReadOnly} methods, an <code>ELResolver</code> is not
072:         * responsible for resolving all possible (base, property) pairs. In fact,
073:         * most resolvers will only handle a <code>base</code> of a single type.
074:         * To indicate that a resolver has successfully resolved a particular
075:         * (base, property) pair, it must set the <code>propertyResolved</code>
076:         * property of the <code>ELContext</code> to <code>true</code>. If it could 
077:         * not handle the given pair, it must leave this property alone. The caller
078:         * must ignore the return value of the method if <code>propertyResolved</code>
079:         * is <code>false</code>.</p>
080:         *
081:         * <p>The {@link #getFeatureDescriptors} and {@link #getCommonPropertyType}
082:         * methods are primarily designed for design-time tool support, but must
083:         * handle invocation at runtime as well. The 
084:         * {@link java.beans.Beans#isDesignTime} method can be used to determine 
085:         * if the resolver is being consulted at design-time or runtime.</p>
086:         *
087:         * @see CompositeELResolver
088:         * @see ELContext#getELResolver
089:         * @since JSP 2.1
090:         */
091:        public abstract class ELResolver {
092:
093:            // --------------------------------------------------------- Constants
094:
095:            /**
096:             * <p>The attribute name of the named attribute in the
097:             * <code>FeatureDescriptor</code> that specifies the runtime type of
098:             * the variable or property.</p>
099:             */
100:
101:            public static final String TYPE = "type";
102:
103:            /**
104:             * <p>The attribute name of the named attribute in the
105:             * <code>FeatureDescriptor</code> that specifies whether the
106:             * variable or property can be resolved at runtime.</p>
107:             */
108:
109:            public static final String RESOLVABLE_AT_DESIGN_TIME = "resolvableAtDesignTime";
110:
111:            /**
112:             * Attempts to resolve the given <code>property</code> object on the given
113:             * <code>base</code> object.
114:             *
115:             * <p>If this resolver handles the given (base, property) pair, 
116:             * the <code>propertyResolved</code> property of the 
117:             * <code>ELContext</code> object must be set to <code>true</code>
118:             * by the resolver, before returning. If this property is not 
119:             * <code>true</code> after this method is called, the caller should ignore 
120:             * the return value.</p>
121:             *
122:             * @param context The context of this evaluation.
123:             * @param base The base object whose property value is to be returned,
124:             *     or <code>null</code> to resolve a top-level variable.
125:             * @param property The property or variable to be resolved.
126:             * @return If the <code>propertyResolved</code> property of 
127:             *     <code>ELContext</code> was set to <code>true</code>, then
128:             *     the result of the variable or property resolution; otherwise
129:             *     undefined.
130:             * @throws NullPointerException if context is <code>null</code>
131:             * @throws PropertyNotFoundException if the given (base, property) pair
132:             *     is handled by this <code>ELResolver</code> but the specified
133:             *     variable or property does not exist or is not readable.
134:             * @throws ELException if an exception was thrown while performing
135:             *     the property or variable resolution. The thrown exception
136:             *     must be included as the cause property of this exception, if
137:             *     available.
138:             */
139:            public abstract Object getValue(ELContext context, Object base,
140:                    Object property);
141:
142:            /**
143:             * For a given <code>base</code> and <code>property</code>, attempts to
144:             * identify the most general type that is acceptable for an object to be 
145:             * passed as the <code>value</code> parameter in a future call 
146:             * to the {@link #setValue} method.
147:             *
148:             * <p>If this resolver handles the given (base, property) pair, 
149:             * the <code>propertyResolved</code> property of the 
150:             * <code>ELContext</code> object must be set to <code>true</code>
151:             * by the resolver, before returning. If this property is not 
152:             * <code>true</code> after this method is called, the caller should ignore 
153:             * the return value.</p>
154:             *
155:             * <p>This is not always the same as <code>getValue().getClass()</code>.
156:             * For example, in the case of an {@link ArrayELResolver}, the
157:             * <code>getType</code> method will return the element type of the 
158:             * array, which might be a superclass of the type of the actual 
159:             * element that is currently in the specified array element.</p>
160:             *
161:             * @param context The context of this evaluation.
162:             * @param base The base object whose property value is to be analyzed,
163:             *     or <code>null</code> to analyze a top-level variable.
164:             * @param property The property or variable to return the acceptable 
165:             *     type for.
166:             * @return If the <code>propertyResolved</code> property of 
167:             *     <code>ELContext</code> was set to <code>true</code>, then
168:             *     the most general acceptable type; otherwise undefined.
169:             * @throws NullPointerException if context is <code>null</code>
170:             * @throws PropertyNotFoundException if the given (base, property) pair
171:             *     is handled by this <code>ELResolver</code> but the specified
172:             *     variable or property does not exist or is not readable.
173:             * @throws ELException if an exception was thrown while performing
174:             *     the property or variable resolution. The thrown exception
175:             *     must be included as the cause property of this exception, if
176:             *     available.
177:             */
178:            public abstract Class<?> getType(ELContext context, Object base,
179:                    Object property);
180:
181:            /**
182:             * Attempts to set the value of the given <code>property</code> 
183:             * object on the given <code>base</code> object.
184:             *
185:             * <p>If this resolver handles the given (base, property) pair, 
186:             * the <code>propertyResolved</code> property of the 
187:             * <code>ELContext</code> object must be set to <code>true</code>
188:             * by the resolver, before returning. If this property is not 
189:             * <code>true</code> after this method is called, the caller can
190:             * safely assume no value has been set.</p>
191:             *
192:             * @param context The context of this evaluation.
193:             * @param base The base object whose property value is to be set,
194:             *     or <code>null</code> to set a top-level variable.
195:             * @param property The property or variable to be set.
196:             * @param value The value to set the property or variable to.
197:             * @throws NullPointerException if context is <code>null</code>
198:             * @throws PropertyNotFoundException if the given (base, property) pair
199:             *     is handled by this <code>ELResolver</code> but the specified
200:             *     variable or property does not exist.
201:             * @throws PropertyNotWritableException if the given (base, property)
202:             *     pair is handled by this <code>ELResolver</code> but the specified
203:             *     variable or property is not writable.
204:             * @throws ELException if an exception was thrown while attempting to
205:             *     set the property or variable. The thrown exception
206:             *     must be included as the cause property of this exception, if
207:             *     available.
208:             */
209:            public abstract void setValue(ELContext context, Object base,
210:                    Object property, Object value);
211:
212:            /**
213:             * For a given <code>base</code> and <code>property</code>, attempts to
214:             * determine whether a call to {@link #setValue} will always fail.
215:             *
216:             * <p>If this resolver handles the given (base, property) pair, 
217:             * the <code>propertyResolved</code> property of the 
218:             * <code>ELContext</code> object must be set to <code>true</code>
219:             * by the resolver, before returning. If this property is not 
220:             * <code>true</code> after this method is called, the caller should ignore 
221:             * the return value.</p>
222:             *
223:             * @param context The context of this evaluation.
224:             * @param base The base object whose property value is to be analyzed,
225:             *     or <code>null</code> to analyze a top-level variable.
226:             * @param property The property or variable to return the read-only status
227:             *     for.
228:             * @return If the <code>propertyResolved</code> property of 
229:             *     <code>ELContext</code> was set to <code>true</code>, then
230:             *     <code>true</code> if the property is read-only or
231:             *     <code>false</code> if not; otherwise undefined.
232:             * @throws NullPointerException if context is <code>null</code>
233:             * @throws PropertyNotFoundException if the given (base, property) pair
234:             *     is handled by this <code>ELResolver</code> but the specified
235:             *     variable or property does not exist.
236:             * @throws ELException if an exception was thrown while performing
237:             *     the property or variable resolution. The thrown exception
238:             *     must be included as the cause property of this exception, if
239:             *     available.
240:             */
241:            public abstract boolean isReadOnly(ELContext context, Object base,
242:                    Object property);
243:
244:            /**
245:             * Returns information about the set of variables or properties that 
246:             * can be resolved for the given <code>base</code> object. One use for
247:             * this method is to assist tools in auto-completion.
248:             *
249:             * <p>If the <code>base</code> parameter is <code>null</code>, the 
250:             * resolver must enumerate the list of top-level variables it can 
251:             * resolve.</p>
252:             *
253:             * <p>The <code>Iterator</code> returned must contain zero or more 
254:             * instances of {@link java.beans.FeatureDescriptor}, in no guaranteed 
255:             * order. In the case of primitive types such as <code>int</code>, the 
256:             * value <code>null</code> must be returned. This is to prevent the 
257:             * useless iteration through all possible primitive values. A 
258:             * return value of <code>null</code> indicates that this resolver does 
259:             * not handle the given <code>base</code> object or that the results 
260:             * are too complex to represent with this method and the 
261:             * {@link #getCommonPropertyType} method should be used instead.</p>
262:             *
263:             * <p>Each <code>FeatureDescriptor</code> will contain information about
264:             * a single variable or property. In addition to the standard
265:             * properties, the <code>FeatureDescriptor</code> must have two
266:             * named attributes (as set by the <code>setValue</code> method):
267:             * <ul>
268:             *   <li>{@link #TYPE} - The value of this named attribute must be 
269:             *       an instance of <code>java.lang.Class</code> and specify the 
270:             *       runtime type of the variable or property.</li>
271:             *   <li>{@link #RESOLVABLE_AT_DESIGN_TIME} - The value of this 
272:             *       named attribute must be an instance of 
273:             *       <code>java.lang.Boolean</code> and indicates whether it is safe 
274:             *       to attempt to resolve this property at design-time. For 
275:             *       instance, it may be unsafe to attempt a resolution at design 
276:             *       time if the <code>ELResolver</code> needs access to a resource 
277:             *       that is only available at runtime and no acceptable simulated 
278:             *       value can be provided.</li>
279:             * </ul></p>
280:             *
281:             * <p>The caller should be aware that the <code>Iterator</code> 
282:             * returned might iterate through a very large or even infinitely large 
283:             * set of properties. Care should be taken by the caller to not get 
284:             * stuck in an infinite loop.</p>
285:             *
286:             * <p>This is a "best-effort" list.  Not all <code>ELResolver</code>s
287:             * will return completely accurate results, but all must be callable
288:             * at both design-time and runtime (i.e. whether or not
289:             * <code>Beans.isDesignTime()</code> returns <code>true</code>),
290:             * without causing errors.</p>
291:             *
292:             * <p>The <code>propertyResolved</code> property of the 
293:             * <code>ELContext</code> is not relevant to this method.
294:             * The results of all <code>ELResolver</code>s are concatenated
295:             * in the case of composite resolvers.</p>
296:             * 
297:             * @param context The context of this evaluation.
298:             * @param base The base object whose set of valid properties is to
299:             *     be enumerated, or <code>null</code> to enumerate the set of
300:             *     top-level variables that this resolver can evaluate.
301:             * @return An <code>Iterator</code> containing zero or more (possibly
302:             *     infinitely more) <code>FeatureDescriptor</code> objects, or 
303:             *     <code>null</code> if this resolver does not handle the given 
304:             *     <code>base</code> object or that the results are too complex to 
305:             *     represent with this method
306:             * @see java.beans.FeatureDescriptor
307:             */
308:            public abstract Iterator<FeatureDescriptor> getFeatureDescriptors(
309:                    ELContext context, Object base);
310:
311:            /**
312:             * Returns the most general type that this resolver accepts for the
313:             * <code>property</code> argument, given a <code>base</code> object.
314:             * One use for this method is to assist tools in auto-completion.
315:             *
316:             * <p>This assists tools in auto-completion and also provides a 
317:             * way to express that the resolver accepts a primitive value, 
318:             * such as an integer index into an array. For example, the 
319:             * {@link ArrayELResolver} will accept any <code>int</code> as a 
320:             * <code>property</code>, so the return value would be 
321:             * <code>Integer.class</code>.</p>
322:             *
323:             * @param context The context of this evaluation.
324:             * @param base The base object to return the most general property
325:             *     type for, or <code>null</code> to enumerate the set of
326:             *     top-level variables that this resolver can evaluate.
327:             * @return <code>null</code> if this <code>ELResolver</code> does not
328:             *     know how to handle the given <code>base</code> object; otherwise
329:             *     <code>Object.class</code> if any type of <code>property</code>
330:             *     is accepted; otherwise the most general <code>property</code>
331:             *     type accepted for the given <code>base</code>.
332:             */
333:            public abstract Class<?> getCommonPropertyType(ELContext context,
334:                    Object base);
335:
336:        }
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