com.sun.tools.xjc.generator.bean.ImplStructureStrategy Maven / Gradle / Ivy
/*
* Copyright (c) 1997, 2020 Oracle and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Distribution License v. 1.0, which is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
/*
* Use is subject to the license terms.
*/
package com.sun.tools.xjc.generator.bean;
import jakarta.xml.bind.annotation.XmlAccessType;
import jakarta.xml.bind.annotation.XmlEnum;
import jakarta.xml.bind.annotation.XmlEnumValue;
import com.sun.codemodel.JClassContainer;
import com.sun.codemodel.JDefinedClass;
import com.sun.codemodel.JDocComment;
import com.sun.codemodel.JMethod;
import com.sun.codemodel.JMod;
import com.sun.codemodel.JPackage;
import com.sun.codemodel.JType;
import com.sun.codemodel.JVar;
import com.sun.tools.xjc.generator.annotation.spec.XmlAccessorTypeWriter;
import com.sun.tools.xjc.model.CClassInfo;
import com.sun.tools.xjc.outline.Aspect;
import com.sun.tools.xjc.outline.Outline;
/**
* Decides how a bean token is mapped to the generated classes.
*
*
* The actual implementations of this interface is tightly coupled with
* the backend, but the front-end gets to choose which strategy to be used.
*
* @author Kohsuke Kawaguchi ([email protected])
*/
@XmlEnum(Boolean.class)
public enum ImplStructureStrategy {
/**
* Generates beans only. The simplest code generation.
*/
@XmlEnumValue("true")
BEAN_ONLY() {
protected Result createClasses(Outline outline, CClassInfo bean) {
JClassContainer parent = outline.getContainer( bean.parent(), Aspect.EXPOSED );
JDefinedClass impl = outline.getClassFactory().createClass(
parent,
JMod.PUBLIC|(parent.isPackage()?0:JMod.STATIC)|(bean.isAbstract()?JMod.ABSTRACT:0),
bean.shortName, bean.getLocator() );
impl.annotate2(XmlAccessorTypeWriter.class).value(XmlAccessType.FIELD);
return new Result(impl,impl);
}
protected JPackage getPackage(JPackage pkg, Aspect a) {
return pkg;
}
protected MethodWriter createMethodWriter(final ClassOutlineImpl target) {
assert target.ref==target.implClass;
return new MethodWriter(target) {
private final JDefinedClass impl = target.implClass;
private JMethod implMethod;
public JVar addParameter(JType type, String name) {
return implMethod.param(type,name);
}
public JMethod declareMethod(JType returnType, String methodName) {
implMethod = impl.method( JMod.PUBLIC, returnType, methodName );
return implMethod;
}
public JDocComment javadoc() {
return implMethod.javadoc();
}
};
}
protected void _extends(ClassOutlineImpl derived, ClassOutlineImpl base) {
derived.implClass._extends(base.implRef);
}
},
/**
* Generates the interfaces to describe beans (content interfaces)
* and then the beans themselves in a hidden impl package.
*
* Similar to JAXB 1.0.
*/
@XmlEnumValue("false")
INTF_AND_IMPL() {
protected Result createClasses( Outline outline, CClassInfo bean ) {
JClassContainer parent = outline.getContainer( bean.parent(), Aspect.EXPOSED );
JDefinedClass intf = outline.getClassFactory().createInterface(
parent, bean.shortName, bean.getLocator() );
parent = outline.getContainer(bean.parent(), Aspect.IMPLEMENTATION);
JDefinedClass impl = outline.getClassFactory().createClass(
parent,
JMod.PUBLIC|(parent.isPackage()?0:JMod.STATIC)|(bean.isAbstract()?JMod.ABSTRACT:0),
bean.shortName+"Impl", bean.getLocator() );
impl.annotate2(XmlAccessorTypeWriter.class).value(XmlAccessType.FIELD);
impl._implements(intf);
return new Result(intf,impl);
}
protected JPackage getPackage(JPackage pkg, Aspect a) {
switch(a) {
case EXPOSED:
return pkg;
case IMPLEMENTATION:
return pkg.subPackage("impl");
default:
assert false;
throw new IllegalStateException();
}
}
protected MethodWriter createMethodWriter(final ClassOutlineImpl target) {
return new MethodWriter(target) {
private final JDefinedClass intf = target.ref;
private final JDefinedClass impl = target.implClass;
private JMethod intfMethod;
private JMethod implMethod;
public JVar addParameter(JType type, String name) {
// TODO: do we still need to deal with the case where intf is null?
if(intf!=null)
intfMethod.param(type,name);
return implMethod.param(type,name);
}
public JMethod declareMethod(JType returnType, String methodName) {
if(intf!=null)
intfMethod = intf.method( 0, returnType, methodName );
implMethod = impl.method( JMod.PUBLIC, returnType, methodName );
return implMethod;
}
public JDocComment javadoc() {
if(intf!=null)
return intfMethod.javadoc();
else
return implMethod.javadoc();
}
};
}
protected void _extends(ClassOutlineImpl derived, ClassOutlineImpl base) {
derived.implClass._extends(base.implRef);
derived.ref._implements(base.ref);
}
};
/**
* Creates class(es) for the given bean.
*/
protected abstract Result createClasses( Outline outline, CClassInfo bean );
/**
* Gets the specified aspect of the given package.
*/
protected abstract JPackage getPackage( JPackage pkg, Aspect a );
protected abstract MethodWriter createMethodWriter( ClassOutlineImpl target );
/**
* Sets up an inheritance relationship.
*/
protected abstract void _extends( ClassOutlineImpl derived, ClassOutlineImpl base );
public static final class Result {
/**
* Corresponds to {@link Aspect#EXPOSED}
*/
public final JDefinedClass exposed;
/**
* Corresponds to {@link Aspect#IMPLEMENTATION}
*/
public final JDefinedClass implementation;
public Result(JDefinedClass exposed, JDefinedClass implementation) {
this.exposed = exposed;
this.implementation = implementation;
}
}
}