/*
 * Copyright (c) 1997, 2016, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package com.sun.tools.internal.xjc.generator.bean;

import java.util.Collection;
import java.util.HashMap;
import java.util.Map;

import javax.xml.bind.JAXBException;
import javax.xml.bind.annotation.XmlInlineBinaryData;
import javax.xml.namespace.QName;

import com.sun.codemodel.internal.JClass;
import com.sun.codemodel.internal.JCodeModel;
import com.sun.codemodel.internal.JDefinedClass;
import com.sun.codemodel.internal.JExpr;
import com.sun.codemodel.internal.JExpression;
import com.sun.codemodel.internal.JFieldVar;
import com.sun.codemodel.internal.JInvocation;
import com.sun.codemodel.internal.JMethod;
import com.sun.codemodel.internal.JMod;
import com.sun.codemodel.internal.JPackage;
import com.sun.codemodel.internal.JType;
import com.sun.codemodel.internal.JVar;
import com.sun.tools.internal.xjc.generator.annotation.spec.XmlElementDeclWriter;
import com.sun.tools.internal.xjc.generator.annotation.spec.XmlRegistryWriter;
import com.sun.tools.internal.xjc.model.CElementInfo;
import com.sun.tools.internal.xjc.model.CPropertyInfo;
import com.sun.tools.internal.xjc.model.Constructor;
import com.sun.tools.internal.xjc.model.Model;
import com.sun.tools.internal.xjc.outline.Aspect;
import com.sun.tools.internal.xjc.outline.FieldAccessor;
import com.sun.tools.internal.xjc.outline.FieldOutline;
import com.sun.xml.internal.bind.v2.TODO;

Generates ObjectFactory then wraps it and provides access to it.

The ObjectFactory contains factory methods for each schema derived content class

Author: Ryan Shoemaker
/** * Generates <code>ObjectFactory</code> then wraps it and provides * access to it. * * <p> * The ObjectFactory contains * factory methods for each schema derived content class * * @author * Ryan Shoemaker */
abstract class ObjectFactoryGeneratorImpl extends ObjectFactoryGenerator { private final BeanGenerator outline; private final Model model; private final JCodeModel codeModel;
Ref to Class.
/** * Ref to {@link Class}. */
private final JClass classRef;
Reference to the generated ObjectFactory class.
/** * Reference to the generated ObjectFactory class. */
private final JDefinedClass objectFactory;
map of qname to the QName constant field.
/** map of qname to the QName constant field. */
private final HashMap<QName,JFieldVar> qnameMap = new HashMap<QName,JFieldVar>();
Names of the element factory methods that are created. Used to detect collisions. The value is used for reporting error locations.
/** * Names of the element factory methods that are created. * Used to detect collisions. * * The value is used for reporting error locations. */
private final Map<String,CElementInfo> elementFactoryNames = new HashMap<String,CElementInfo>();
Names of the value factory methods that are created. Used to detect collisions. The value is used for reporting error locations.
/** * Names of the value factory methods that are created. * Used to detect collisions. * * The value is used for reporting error locations. */
private final Map<String,ClassOutlineImpl> valueFactoryNames = new HashMap<String,ClassOutlineImpl>();
Returns a reference to the generated (public) ObjectFactory
/** * Returns a reference to the generated (public) ObjectFactory */
public JDefinedClass getObjectFactory() { return objectFactory; } public ObjectFactoryGeneratorImpl( BeanGenerator outline, Model model, JPackage targetPackage ) { this.outline = outline; this.model = model; this.codeModel = this.model.codeModel; this.classRef = codeModel.ref(Class.class); // create the ObjectFactory class skeleton objectFactory = this.outline.getClassFactory().createClass( targetPackage, "ObjectFactory", null ); objectFactory.annotate2(XmlRegistryWriter.class); // generate the default constructor // // m1 result: // public ObjectFactory() {} JMethod m1 = objectFactory.constructor(JMod.PUBLIC); m1.javadoc().append("Create a new ObjectFactory that can be used to " + "create new instances of schema derived classes " + "for package: " + targetPackage.name()); // add some class javadoc objectFactory.javadoc().append( "This object contains factory methods for each \n" + "Java content interface and Java element interface \n" + "generated in the " + targetPackage.name() + " package. \n" + "<p>An ObjectFactory allows you to programatically \n" + "construct new instances of the Java representation \n" + "for XML content. The Java representation of XML \n" + "content can consist of schema derived interfaces \n" + "and classes representing the binding of schema \n" + "type definitions, element declarations and model \n" + "groups. Factory methods for each of these are \n" + "provided in this class." ); }
Adds code for the given CElementInfo to ObjectFactory.
/** * Adds code for the given {@link CElementInfo} to ObjectFactory. */
protected final void populate( CElementInfo ei, Aspect impl, Aspect exposed ) { JType exposedElementType = ei.toType(outline,exposed); JType exposedType = ei.getContentInMemoryType().toType(outline,exposed); JType implType = ei.getContentInMemoryType().toType(outline,impl); String namespaceURI = ei.getElementName().getNamespaceURI(); String localPart = ei.getElementName().getLocalPart(); JClass scope=null; if(ei.getScope()!=null) scope = outline.getClazz(ei.getScope()).implClass; JMethod m; if(ei.isAbstract()) { // TODO: see the "Abstract elements and mighty IXmlElement" e-mail // that I sent to jaxb-tech TODO.checkSpec(); } {// collision check CElementInfo existing = elementFactoryNames.put(ei.getSqueezedName(),ei); if( existing!=null ) { outline.getErrorReceiver().error(existing.getLocator(), Messages.OBJECT_FACTORY_CONFLICT.format(ei.getSqueezedName())); outline.getErrorReceiver().error(ei.getLocator(), Messages.OBJECT_FACTORY_CONFLICT_RELATED.format()); return; } } // no arg constructor // [RESULT] if the element doesn't have its own class, something like: // // @XmlElementMapping(uri = "", name = "foo") // public JAXBElement<Foo> createFoo( Foo value ) { // return new JAXBElement<Foo>( // new QName("","foo"),(Class)FooImpl.class,scope,(FooImpl)value); // } // NOTE: when we generate value classes Foo==FooImpl // // [RESULT] otherwise // // @XmlElementMapping(uri = "", name = "foo") // public Foo createFoo( FooType value ) { // return new Foo((FooTypeImpl)value); // } // NOTE: when we generate value classes FooType==FooTypeImpl // // to deal with // new JAXBElement<List<String>>( ..., List.class, ... ); // we sometimes have to produce (Class)List.class instead of just List.class m = objectFactory.method( JMod.PUBLIC, exposedElementType, "create" + ei.getSqueezedName() ); JVar $value = m.param(exposedType,"value"); JExpression declaredType; if(implType.boxify().isParameterized() || !exposedType.equals(implType)) declaredType = JExpr.cast(classRef,implType.boxify().dotclass()); else declaredType = implType.boxify().dotclass(); JExpression scopeClass = scope==null?JExpr._null():scope.dotclass(); // build up the return extpression JInvocation exp = JExpr._new(exposedElementType); if(!ei.hasClass()) { exp.arg(getQNameInvocation(ei)); exp.arg(declaredType); exp.arg(scopeClass); } if(implType==exposedType) exp.arg($value); else exp.arg(JExpr.cast(implType,$value)); m.body()._return( exp ); m.javadoc() .append("Create an instance of ") .append(exposedElementType); m.javadoc().addParam($value) .append("Java instance representing xml element's value."); m.javadoc().addReturn() .append("the new instance of ") .append(exposedElementType); XmlElementDeclWriter xemw = m.annotate2(XmlElementDeclWriter.class); xemw.namespace(namespaceURI).name(localPart); if(scope!=null) xemw.scope(scope); if(ei.getSubstitutionHead()!=null) { QName n = ei.getSubstitutionHead().getElementName(); xemw.substitutionHeadNamespace(n.getNamespaceURI()); xemw.substitutionHeadName(n.getLocalPart()); } if(ei.getDefaultValue()!=null) xemw.defaultValue(ei.getDefaultValue()); if(ei.getProperty().inlineBinaryData()) m.annotate(XmlInlineBinaryData.class); // if the element is adapter, put that annotation on the factory method outline.generateAdapterIfNecessary(ei.getProperty(),m); }
return a JFieldVar that represents the QName field for the given information. if it doesn't exist, create a static field in the class and store a new JFieldVar.
/** * return a JFieldVar that represents the QName field for the given information. * * if it doesn't exist, create a static field in the class and store a new JFieldVar. */
private JExpression getQNameInvocation(CElementInfo ei) { QName name = ei.getElementName(); if(qnameMap.containsKey(name)) { return qnameMap.get(name); } if(qnameMap.size()>1024) // stop gap measure to avoid 'code too large' error in javac. return createQName(name); // [RESULT] // private static final QName _XYZ_NAME = new QName("uri", "local"); JFieldVar qnameField = objectFactory.field( JMod.PRIVATE | JMod.STATIC | JMod.FINAL, QName.class, '_' + ei.getSqueezedName() + "_QNAME", createQName(name)); qnameMap.put(name, qnameField); return qnameField; }
Generates an expression that evaluates to "new QName(...)"
/** * Generates an expression that evaluates to "new QName(...)" */
private JInvocation createQName(QName name) { return JExpr._new(codeModel.ref(QName.class)).arg(name.getNamespaceURI()).arg(name.getLocalPart()); } protected final void populate( ClassOutlineImpl cc, JClass sigType ) { // add static factory method for this class to JAXBContext. // // generate methods like: // public static final SIGTYPE createFoo() { // return new FooImpl(); // } if(!cc.target.isAbstract()) { JMethod m = objectFactory.method( JMod.PUBLIC, sigType, "create" + cc.target.getSqueezedName() ); m.body()._return( JExpr._new(cc.implRef) ); // add some jdoc to avoid javadoc warnings in jdk1.4 m.javadoc() .append("Create an instance of ") .append(cc.ref); } // add static factory methods for all the other constructors. Collection<? extends Constructor> consl = cc.target.getConstructors(); if(consl.size()!=0) { // if we are going to add constructors with parameters, // first we need to have a default constructor. cc.implClass.constructor(JMod.PUBLIC); } {// collision check String name = cc.target.getSqueezedName(); ClassOutlineImpl existing = valueFactoryNames.put(name,cc); if( existing!=null ) { outline.getErrorReceiver().error(existing.target.getLocator(), Messages.OBJECT_FACTORY_CONFLICT.format(name)); outline.getErrorReceiver().error(cc.target.getLocator(), Messages.OBJECT_FACTORY_CONFLICT_RELATED.format()); return; } } for( Constructor cons : consl ) { // method on ObjectFactory // [RESULT] // Foo createFoo( T1 a, T2 b, T3 c, ... ) throws JAXBException { // return new FooImpl(a,b,c,...); // } JMethod m = objectFactory.method( JMod.PUBLIC, cc.ref, "create" + cc.target.getSqueezedName() ); JInvocation inv = JExpr._new(cc.implRef); m.body()._return(inv); // let's not throw this exception. // m._throws(codeModel.ref(JAXBException.class)); // add some jdoc to avoid javadoc warnings in jdk1.4 m.javadoc() .append( "Create an instance of " ) .append( cc.ref ) .addThrows(JAXBException.class).append("if an error occurs"); // constructor // [RESULT] // FooImpl( T1 a, T2 b, T3 c, ... ) { // } JMethod c = cc.implClass.constructor(JMod.PUBLIC); for( String fieldName : cons.fields ) { CPropertyInfo field = cc.target.getProperty(fieldName); if(field==null) { outline.getErrorReceiver().error(cc.target.getLocator(), Messages.ILLEGAL_CONSTRUCTOR_PARAM.format(fieldName)); continue; } fieldName = camelize(fieldName); FieldOutline fo = outline.getField(field); FieldAccessor accessor = fo.create(JExpr._this()); // declare a parameter on this factory method and set // it to the field inv.arg(m.param( fo.getRawType(), fieldName )); JVar $var = c.param( fo.getRawType(), fieldName ); accessor.fromRawValue(c.body(),'_'+fieldName,$var); } } }
Change the first character to the lower case.
/** Change the first character to the lower case. */
private static String camelize( String s ) { return Character.toLowerCase(s.charAt(0)) + s.substring(1); } }