com.sun.xml.bind.v2.runtime.JaxBeanInfo Maven / Gradle / Ivy
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package com.sun.xml.bind.v2.runtime;
import java.io.IOException;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.xml.bind.JAXBContext;
import javax.xml.bind.Marshaller;
import javax.xml.bind.Unmarshaller;
import javax.xml.datatype.XMLGregorianCalendar;
import javax.xml.namespace.QName;
import javax.xml.stream.XMLStreamException;
import com.sun.istack.NotNull;
import com.sun.xml.bind.Util;
import com.sun.xml.bind.v2.model.runtime.RuntimeTypeInfo;
import com.sun.xml.bind.v2.runtime.unmarshaller.Loader;
import com.sun.xml.bind.v2.runtime.unmarshaller.UnmarshallerImpl;
import com.sun.xml.bind.v2.runtime.unmarshaller.UnmarshallingContext;
import org.xml.sax.SAXException;
/**
* Encapsulates various JAXB operations on objects bound by JAXB.
* Immutable and thread-safe.
*
*
* Each JAXB-bound class has a corresponding {@link JaxBeanInfo} object,
* which performs all the JAXB related operations on behalf of
* the JAXB-bound object.
*
*
* Given a class, the corresponding {@link JaxBeanInfo} can be located
* via {@link JAXBContextImpl#getBeanInfo(Class,boolean)}.
*
*
* Typically, {@link JaxBeanInfo} implementations should be generated
* by XJC/JXC. Those impl classes will register themselves to their
* master ObjectFactory class.
*
*
* The type parameter BeanT is the Java class of the bean that this represents.
*
* @author
* Kohsuke Kawaguchi ([email protected])
*/
public abstract class JaxBeanInfo {
protected boolean isNilIncluded = false;
/**
* For {@link JaxBeanInfo} that has multiple type names.
*/
protected JaxBeanInfo(JAXBContextImpl grammar, RuntimeTypeInfo rti, Class jaxbType, QName[] typeNames, boolean isElement,boolean isImmutable, boolean hasLifecycleEvents) {
this(grammar,rti,jaxbType,(Object)typeNames,isElement,isImmutable,hasLifecycleEvents);
}
/**
* For {@link JaxBeanInfo} that has one type name.
*/
protected JaxBeanInfo(JAXBContextImpl grammar, RuntimeTypeInfo rti, Class jaxbType, QName typeName, boolean isElement,boolean isImmutable, boolean hasLifecycleEvents) {
this(grammar,rti,jaxbType,(Object)typeName,isElement,isImmutable,hasLifecycleEvents);
}
/**
* For {@link JaxBeanInfo} that has no type names.
*/
protected JaxBeanInfo(JAXBContextImpl grammar, RuntimeTypeInfo rti, Class jaxbType, boolean isElement,boolean isImmutable, boolean hasLifecycleEvents) {
this(grammar,rti,jaxbType,(Object)null,isElement,isImmutable,hasLifecycleEvents);
}
private JaxBeanInfo(JAXBContextImpl grammar, RuntimeTypeInfo rti, Class jaxbType, Object typeName, boolean isElement,boolean isImmutable, boolean hasLifecycleEvents) {
grammar.beanInfos.put(rti,this);
this.jaxbType = jaxbType;
this.typeName = typeName;
this.flag = (short)((isElement?FLAG_IS_ELEMENT:0)
|(isImmutable?FLAG_IS_IMMUTABLE:0)
|(hasLifecycleEvents?FLAG_HAS_LIFECYCLE_EVENTS:0));
}
/**
* Various boolean flags combined into one field to improve memory footprint.
*/
protected short flag;
private static final short FLAG_IS_ELEMENT = 1;
private static final short FLAG_IS_IMMUTABLE = 2;
private static final short FLAG_HAS_ELEMENT_ONLY_CONTENTMODEL = 4;
private static final short FLAG_HAS_BEFORE_UNMARSHAL_METHOD = 8;
private static final short FLAG_HAS_AFTER_UNMARSHAL_METHOD = 16;
private static final short FLAG_HAS_BEFORE_MARSHAL_METHOD = 32;
private static final short FLAG_HAS_AFTER_MARSHAL_METHOD = 64;
private static final short FLAG_HAS_LIFECYCLE_EVENTS = 128;
/** cache of lifecycle methods */
private LifecycleMethods lcm = null;
/**
* True if {@link #jaxbType} has the lifecycle method.
*/
public final boolean hasBeforeUnmarshalMethod() {
return (flag&FLAG_HAS_BEFORE_UNMARSHAL_METHOD) != 0;
}
/**
* True if {@link #jaxbType} has the lifecycle method.
*/
public final boolean hasAfterUnmarshalMethod() {
return (flag&FLAG_HAS_AFTER_UNMARSHAL_METHOD) != 0;
}
/**
* True if {@link #jaxbType} has the lifecycle method.
*/
public final boolean hasBeforeMarshalMethod() {
return (flag&FLAG_HAS_BEFORE_MARSHAL_METHOD) != 0;
}
/**
* True if {@link #jaxbType} has the lifecycle method.
*/
public final boolean hasAfterMarshalMethod() {
return (flag&FLAG_HAS_AFTER_MARSHAL_METHOD) != 0;
}
/**
* Gets the JAXB bound class type that this {@link JaxBeanInfo}
* handles.
*
*
* IOW, when a bean info object is requested for T,
* sometimes the bean info for one of its base classes might be
* returned.
*/
public final Class jaxbType;
/**
* Returns true if the bean is mapped to/from an XML element.
*
*
* When this method returns true, {@link #getElementNamespaceURI(Object)}
* and {@link #getElementLocalName(Object)} returns the element name of
* the bean.
*/
public final boolean isElement() {
return (flag&FLAG_IS_ELEMENT)!=0;
}
/**
* Returns true if the bean is immutable.
*
*
* If this is true, Binder won't try to ueuse this object, and the unmarshaller
* won't create a new instance of it before it starts.
*/
public final boolean isImmutable() {
return (flag&FLAG_IS_IMMUTABLE)!=0;
}
/**
* True if this bean has an element-only content model.
*
* If this flag is true, the unmarshaller can work
* faster by ignoring whitespaces more efficiently.
*/
public final boolean hasElementOnlyContentModel() {
return (flag&FLAG_HAS_ELEMENT_ONLY_CONTENTMODEL)!=0;
}
/**
* True if this bean has an element-only content model.
*
* Should be considered immutable, though I can't mark it final
* because it cannot be computed in this constructor.
*/
protected final void hasElementOnlyContentModel(boolean value) {
if(value)
flag |= FLAG_HAS_ELEMENT_ONLY_CONTENTMODEL;
else
flag &= ~FLAG_HAS_ELEMENT_ONLY_CONTENTMODEL;
}
public boolean isNilIncluded() {
return isNilIncluded;
}
/**
* This method is used to determine which of the sub-classes should be
* interrogated for the existence of lifecycle methods.
*
* @return true if the un|marshaller should look for lifecycle methods
* on this beanInfo, false otherwise.
*/
public boolean lookForLifecycleMethods() {
return (flag&FLAG_HAS_LIFECYCLE_EVENTS)!=0;
}
/**
* Returns the namespace URI portion of the element name,
* if the bean that this class represents is mapped from/to
* an XML element.
*
* @throws UnsupportedOperationException
* if {@link #isElement} is false.
*/
public abstract String getElementNamespaceURI(BeanT o);
/**
* Returns the local name portion of the element name,
* if the bean that this class represents is mapped from/to
* an XML element.
*
* @throws UnsupportedOperationException
* if {@link #isElement} is false.
*/
public abstract String getElementLocalName(BeanT o);
/**
* Type names associated with this {@link JaxBeanInfo}.
*
* @see #getTypeNames()
*/
private final Object typeName; // either null, QName, or QName[]. save memory since most of them have just one.
/**
* Returns XML Schema type names if the bean is mapped from
* a complex/simple type of XML Schema.
*
*
* This is an ugly necessity to correctly handle
* the type substitution semantics of XML Schema.
*
*
* A single Java class maybe mapped to more than one
* XML types. All the types listed here are recognized
* when we are unmarshalling XML.
*
*
* null if the class is not bound to a named schema type.
*
*
*/
public Collection getTypeNames() {
if(typeName==null) return Collections.emptyList();
if(typeName instanceof QName) return Collections.singletonList((QName)typeName);
return Arrays.asList((QName[])typeName);
}
/**
* Returns the XML type name to be used to marshal the specified instance.
*
*
* Most of the times the type can be determined regardless of the actual
* instance, but there's a few exceptions (most notably {@link XMLGregorianCalendar}),
* so as a general rule we need an instance to determine it.
*/
public QName getTypeName(@NotNull BeanT instance) {
if(typeName==null) return null;
if(typeName instanceof QName) return (QName)typeName;
return ((QName[])typeName)[0];
}
/**
* Creates a new instance of the bean.
*
*
* This operation is only supported when {@link #isImmutable} is false.
*
* @param context
* Sometimes the created bean remembers the corresponding source location,
*/
public abstract BeanT createInstance(UnmarshallingContext context) throws IllegalAccessException, InvocationTargetException, InstantiationException, SAXException;
/**
* Resets the object to the initial state, as if the object
* is created fresh.
*
*
* This is used to reuse an existing object for unmarshalling.
*
* @param context
* used for reporting any errors.
*
* @return
* true if the object was successfuly resetted.
* False if the object is not resettable, in which case the object will be
* discarded and new one will be created.
*
* If the object is resettable but failed by an error, it should be reported to the context,
* then return false. If the object is not resettable to begin with, do not report an error.
*
* @throws SAXException
* as a result of reporting an error, the context may throw a {@link SAXException}.
*/
public abstract boolean reset( BeanT o, UnmarshallingContext context ) throws SAXException;
/**
* Gets the ID value of the given bean, if it has an ID value.
* Otherwise return null.
*/
public abstract String getId(BeanT o, XMLSerializer target) throws SAXException;
/**
* Serializes child elements and texts into the specified target.
*/
public abstract void serializeBody( BeanT o, XMLSerializer target ) throws SAXException, IOException, XMLStreamException;
/**
* Serializes attributes into the specified target.
*/
public abstract void serializeAttributes( BeanT o, XMLSerializer target ) throws SAXException, IOException, XMLStreamException;
/**
* Serializes the bean as the root element.
*
*
* In the java-to-schema binding, an object might marshal in two different
* ways depending on whether it is used as the root of the graph or not.
* In the former case, an object could marshal as an element, whereas
* in the latter case, it marshals as a type.
*
*
* This method is used to marshal the root of the object graph to allow
* this semantics to be implemented.
*
*
* It is doubtful to me if it's a good idea for an object to marshal
* in two ways depending on the context.
*
*
* For schema-to-java, this is equivalent to {@link #serializeBody(Object, XMLSerializer)}.
*/
public abstract void serializeRoot( BeanT o, XMLSerializer target ) throws SAXException, IOException, XMLStreamException;
/**
* Declares all the namespace URIs this object is using at
* its top-level scope into the specified target.
*/
public abstract void serializeURIs( BeanT o, XMLSerializer target ) throws SAXException;
/**
* Gets the {@link Loader} that will unmarshall the given object.
*
* @param context
* The {@link JAXBContextImpl} object that governs this object.
* This object is taken as a parameter so that {@link JaxBeanInfo} doesn't have
* to store them on its own.
*
* When this method is invoked from within the unmarshaller, tihs parameter can be
* null (because the loader is constructed already.)
*
* @param typeSubstitutionCapable
* If true, the returned {@link Loader} is capable of recognizing @xsi:type (if necessary)
* and unmarshals a subtype. This allowes an optimization where this bean info
* is guaranteed not to have a type substitution.
* If false, the returned {@link Loader} doesn't look for @xsi:type.
* @return
* must return non-null valid object
*/
public abstract Loader getLoader(JAXBContextImpl context, boolean typeSubstitutionCapable);
/**
* If the bean's representation in XML is just a text,
* this method return a {@link Transducer} that lets you convert
* values between the text and the bean.
*/
public abstract Transducer getTransducer();
/**
* Called after all the {@link JaxBeanInfo}s are created.
* @param grammar
*/
protected void link(JAXBContextImpl grammar) {
}
/**
* Called at the end of the {@link JAXBContext} initialization phase
* to clean up any unnecessary references.
*/
public void wrapUp() {}
private static final Class[] unmarshalEventParams = { Unmarshaller.class, Object.class };
private static Class[] marshalEventParams = { Marshaller.class };
private Method[] getDeclaredMethods(final Class c) {
return AccessController.doPrivileged(new PrivilegedAction() {
@Override
public Method[] run() {
return c.getDeclaredMethods();
}
});
}
/**
* use reflection to determine which of the 4 object lifecycle methods exist on
* the JAXB bound type.
*/
protected final void setLifecycleFlags() {
try {
Class jt = jaxbType;
if (lcm == null) {
lcm = new LifecycleMethods();
}
while (jt != null) {
for (Method m : getDeclaredMethods(jt)) {
String name = m.getName();
if (lcm.beforeUnmarshal == null) {
if (name.equals("beforeUnmarshal")) {
if (match(m, unmarshalEventParams)) {
cacheLifecycleMethod(m, FLAG_HAS_BEFORE_UNMARSHAL_METHOD);
}
}
}
if (lcm.afterUnmarshal == null) {
if (name.equals("afterUnmarshal")) {
if (match(m, unmarshalEventParams)) {
cacheLifecycleMethod(m, FLAG_HAS_AFTER_UNMARSHAL_METHOD);
}
}
}
if (lcm.beforeMarshal == null) {
if (name.equals("beforeMarshal")) {
if (match(m, marshalEventParams)) {
cacheLifecycleMethod(m, FLAG_HAS_BEFORE_MARSHAL_METHOD);
}
}
}
if (lcm.afterMarshal == null) {
if (name.equals("afterMarshal")) {
if (match(m, marshalEventParams)) {
cacheLifecycleMethod(m, FLAG_HAS_AFTER_MARSHAL_METHOD);
}
}
}
}
jt = (Class) jt.getSuperclass();
}
} catch (SecurityException e) {
// this happens when we don't have enough permission.
logger.log(Level.WARNING, Messages.UNABLE_TO_DISCOVER_EVENTHANDLER.format(
jaxbType.getName(), e), e);
}
}
private boolean match(Method m, Class[] params) {
return Arrays.equals(m.getParameterTypes(),params);
}
/**
* Cache a reference to the specified lifecycle method for the jaxbType
* associated with this beanInfo.
*
* @param m Method reference
* @param lifecycleFlag byte representing which of the 4 lifecycle methods
* is being cached
*/
private void cacheLifecycleMethod(Method m, short lifecycleFlag) {
//LifecycleMethods lcm = getLifecycleMethods();
if(lcm==null) {
lcm = new LifecycleMethods();
//lcmCache.put(jaxbType, lcm);
}
m.setAccessible(true);
flag |= lifecycleFlag;
switch (lifecycleFlag) {
case FLAG_HAS_BEFORE_UNMARSHAL_METHOD:
lcm.beforeUnmarshal = m;
break;
case FLAG_HAS_AFTER_UNMARSHAL_METHOD:
lcm.afterUnmarshal = m;
break;
case FLAG_HAS_BEFORE_MARSHAL_METHOD:
lcm.beforeMarshal = m;
break;
case FLAG_HAS_AFTER_MARSHAL_METHOD:
lcm.afterMarshal = m;
break;
}
}
/**
* Return the LifecycleMethods cache for this ClassBeanInfo's corresponding
* jaxbType if it exists, else return null.
*
*/
public final LifecycleMethods getLifecycleMethods() {
return lcm;
}
/**
* Invokes the beforeUnmarshal method if applicable.
*/
public final void invokeBeforeUnmarshalMethod(UnmarshallerImpl unm, Object child, Object parent) throws SAXException {
Method m = getLifecycleMethods().beforeUnmarshal;
invokeUnmarshallCallback(m, child, unm, parent);
}
/**
* Invokes the afterUnmarshal method if applicable.
*/
public final void invokeAfterUnmarshalMethod(UnmarshallerImpl unm, Object child, Object parent) throws SAXException {
Method m = getLifecycleMethods().afterUnmarshal;
invokeUnmarshallCallback(m, child, unm, parent);
}
private void invokeUnmarshallCallback(Method m, Object child, UnmarshallerImpl unm, Object parent) throws SAXException {
try {
m.invoke(child,unm,parent);
} catch (IllegalAccessException e) {
UnmarshallingContext.getInstance().handleError(e, false);
} catch (InvocationTargetException e) {
UnmarshallingContext.getInstance().handleError(e, false);
}
}
private static final Logger logger = Util.getClassLogger();
}