com.sun.xml.bind.v2.model.impl.ModelBuilder Maven / Gradle / Ivy
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package com.sun.xml.bind.v2.model.impl;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.util.HashMap;
import java.util.Map;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.xml.bind.JAXBElement;
import javax.xml.bind.annotation.XmlAttachmentRef;
import javax.xml.bind.annotation.XmlRegistry;
import javax.xml.bind.annotation.XmlSchema;
import javax.xml.bind.annotation.XmlSeeAlso;
import javax.xml.bind.annotation.XmlTransient;
import javax.xml.namespace.QName;
import com.sun.xml.bind.util.Which;
import com.sun.xml.bind.v2.model.annotation.AnnotationReader;
import com.sun.xml.bind.v2.model.annotation.ClassLocatable;
import com.sun.xml.bind.v2.model.annotation.Locatable;
import com.sun.xml.bind.v2.model.core.ClassInfo;
import com.sun.xml.bind.v2.model.core.ErrorHandler;
import com.sun.xml.bind.v2.model.core.LeafInfo;
import com.sun.xml.bind.v2.model.core.NonElement;
import com.sun.xml.bind.v2.model.core.PropertyInfo;
import com.sun.xml.bind.v2.model.core.PropertyKind;
import com.sun.xml.bind.v2.model.core.Ref;
import com.sun.xml.bind.v2.model.core.RegistryInfo;
import com.sun.xml.bind.v2.model.core.TypeInfo;
import com.sun.xml.bind.v2.model.core.TypeInfoSet;
import com.sun.xml.bind.v2.model.nav.Navigator;
import com.sun.xml.bind.v2.model.runtime.RuntimePropertyInfo;
import com.sun.xml.bind.v2.runtime.IllegalAnnotationException;
import com.sun.xml.bind.WhiteSpaceProcessor;
/**
* Builds a {@link TypeInfoSet} (a set of JAXB properties)
* by using {@link ElementInfoImpl} and {@link ClassInfoImpl}.
* from annotated Java classes.
*
*
* This class uses {@link Navigator} and {@link AnnotationReader} to
* work with arbitrary annotation source and arbitrary Java model.
* For this purpose this class is parameterized.
*
* @author Kohsuke Kawaguchi ([email protected])
*/
public class ModelBuilder implements ModelBuilderI {
private static final Logger logger;
/**
* {@link TypeInfo}s that are built will go into this set.
*/
final TypeInfoSetImpl typeInfoSet;
public final AnnotationReader reader;
public final Navigator nav;
/**
* Used to detect collisions among global type names.
*/
private final Map typeNames = new HashMap();
/**
* JAXB doesn't want to use namespaces unless we are told to, but WS-I BP
* conformace requires JAX-RPC to always use a non-empty namespace URI.
* (see http://www.ws-i.org/Profiles/BasicProfile-1.0-2004-04-16.html#WSDLTYPES R2105)
*
*
* To work around this issue, we allow the use of the empty namespaces to be
* replaced by a particular designated namespace URI.
*
*
* This field keeps the value of that replacing namespace URI.
* When there's no replacement, this field is set to "".
*/
public final String defaultNsUri;
/**
* Packages whose registries are already added.
*/
/*package*/ final Map> registries
= new HashMap>();
private final Map subclassReplacements;
/**
* @see #setErrorHandler
*/
private ErrorHandler errorHandler;
private boolean hadError;
/**
* Set to true if the model includes {@link XmlAttachmentRef}. JAX-WS
* needs to know this information.
*/
public boolean hasSwaRef;
private final ErrorHandler proxyErrorHandler = new ErrorHandler() {
public void error(IllegalAnnotationException e) {
reportError(e);
}
};
public ModelBuilder(
AnnotationReader reader,
Navigator navigator,
Map subclassReplacements,
String defaultNamespaceRemap
) {
this.reader = reader;
this.nav = navigator;
this.subclassReplacements = subclassReplacements;
if(defaultNamespaceRemap==null)
defaultNamespaceRemap = "";
this.defaultNsUri = defaultNamespaceRemap;
reader.setErrorHandler(proxyErrorHandler);
typeInfoSet = createTypeInfoSet();
}
/**
* Makes sure that we are running with 2.1 JAXB API,
* and report an error if not.
*/
static {
try {
XmlSchema s = null;
s.location();
} catch (NullPointerException e) {
// as epxected
} catch (NoSuchMethodError e) {
// this is not a 2.1 API. Where is it being loaded from?
Messages res;
if (SecureLoader.getClassClassLoader(XmlSchema.class) == null) {
res = Messages.INCOMPATIBLE_API_VERSION_MUSTANG;
} else {
res = Messages.INCOMPATIBLE_API_VERSION;
}
throw new LinkageError( res.format(
Which.which(XmlSchema.class),
Which.which(ModelBuilder.class)
));
}
}
/**
* Makes sure that we don't have conflicting 1.0 runtime,
* and report an error if we do.
*/
static {
try {
WhiteSpaceProcessor.isWhiteSpace("xyz");
} catch (NoSuchMethodError e) {
// we seem to be getting 1.0 runtime
throw new LinkageError( Messages.RUNNING_WITH_1_0_RUNTIME.format(
Which.which(WhiteSpaceProcessor.class),
Which.which(ModelBuilder.class)
));
}
}
/**
* Logger init
*/
static {
logger = Logger.getLogger(ModelBuilder.class.getName());
}
protected TypeInfoSetImpl createTypeInfoSet() {
return new TypeInfoSetImpl(nav,reader,BuiltinLeafInfoImpl.createLeaves(nav));
}
/**
* Builds a JAXB {@link ClassInfo} model from a given class declaration
* and adds that to this model owner.
*
*
* Return type is either {@link ClassInfo} or {@link LeafInfo} (for types like
* {@link String} or {@link Enum}-derived ones)
*/
public NonElement getClassInfo( C clazz, Locatable upstream ) {
return getClassInfo(clazz,false,upstream);
}
/**
* For limited cases where the caller needs to search for a super class.
* This is necessary because we don't want {@link #subclassReplacements}
* to kick in for the super class search, which will cause infinite recursion.
*/
public NonElement getClassInfo( C clazz, boolean searchForSuperClass, Locatable upstream ) {
assert clazz!=null;
NonElement r = typeInfoSet.getClassInfo(clazz);
if(r!=null)
return r;
if(nav.isEnum(clazz)) {
EnumLeafInfoImpl li = createEnumLeafInfo(clazz,upstream);
typeInfoSet.add(li);
r = li;
addTypeName(r);
} else {
boolean isReplaced = subclassReplacements.containsKey(clazz);
if(isReplaced && !searchForSuperClass) {
// handle it as if the replacement was specified
r = getClassInfo(subclassReplacements.get(clazz),upstream);
} else
if(reader.hasClassAnnotation(clazz,XmlTransient.class) || isReplaced) {
// handle it as if the base class was specified
r = getClassInfo( nav.getSuperClass(clazz), searchForSuperClass,
new ClassLocatable(upstream,clazz,nav) );
} else {
ClassInfoImpl ci = createClassInfo(clazz,upstream);
typeInfoSet.add(ci);
// compute the closure by eagerly expanding references
for( PropertyInfo p : ci.getProperties() ) {
if(p.kind()== PropertyKind.REFERENCE) {
// make sure that we have a registry for this package
addToRegistry(clazz, (Locatable) p);
Class[] prmzdClasses = getParametrizedTypes(p);
if (prmzdClasses != null) {
for (Class prmzdClass : prmzdClasses) {
if (prmzdClass != clazz) {
addToRegistry((C) prmzdClass, (Locatable) p);
}
}
}
}
for( TypeInfo t : p.ref() )
; // just compute a reference should be suffice
}
ci.getBaseClass(); // same as above.
r = ci;
addTypeName(r);
}
}
// more reference closure expansion. @XmlSeeAlso
XmlSeeAlso sa = reader.getClassAnnotation(XmlSeeAlso.class, clazz, upstream);
if(sa!=null) {
for( T t : reader.getClassArrayValue(sa,"value") ) {
getTypeInfo(t,(Locatable)sa);
}
}
return r;
}
/**
* Adding package's ObjectFactory methods to registry
* @param clazz which package will be used
* @param p location
*/
private void addToRegistry(C clazz, Locatable p) {
String pkg = nav.getPackageName(clazz);
if (!registries.containsKey(pkg)) {
// insert the package's object factory
C c = nav.loadObjectFactory(clazz, pkg);
if (c != null)
addRegistry(c, p);
}
}
/**
* Getting parametrized classes of {@code JAXBElement<...>} property
* @param p property which parametrized types we will try to get
* @return null - if it's not JAXBElement property, or it's not parametrized, and array of parametrized classes in other case
*/
private Class[] getParametrizedTypes(PropertyInfo p) {
try {
Type pType = ((RuntimePropertyInfo) p).getIndividualType();
if (pType instanceof ParameterizedType) {
ParameterizedType prmzdType = (ParameterizedType) pType;
if (prmzdType.getRawType() == JAXBElement.class) {
Type[] actualTypes = prmzdType.getActualTypeArguments();
Class[] result = new Class[actualTypes.length];
for (int i = 0; i < actualTypes.length; i++) {
result[i] = (Class) actualTypes[i];
}
return result;
}
}
} catch (Exception e) {
logger.log(Level.FINE, "Error in ModelBuilder.getParametrizedTypes. " + e.getMessage());
}
return null;
}
/**
* Checks the uniqueness of the type name.
*/
private void addTypeName(NonElement r) {
QName t = r.getTypeName();
if(t==null) return;
TypeInfo old = typeNames.put(t,r);
if(old!=null) {
// collision
reportError(new IllegalAnnotationException(
Messages.CONFLICTING_XML_TYPE_MAPPING.format(r.getTypeName()),
old, r ));
}
}
/**
* Have the builder recognize the type (if it hasn't done so yet),
* and returns a {@link NonElement} that represents it.
*
* @return
* always non-null.
*/
public NonElement getTypeInfo(T t,Locatable upstream) {
NonElement r = typeInfoSet.getTypeInfo(t);
if(r!=null) return r;
if(nav.isArray(t)) { // no need for checking byte[], because above typeInfoset.getTypeInfo() would return non-null
ArrayInfoImpl ai =
createArrayInfo(upstream, t);
addTypeName(ai);
typeInfoSet.add(ai);
return ai;
}
C c = nav.asDecl(t);
assert c!=null : t.toString()+" must be a leaf, but we failed to recognize it.";
return getClassInfo(c,upstream);
}
/**
* This method is used to add a root reference to a model.
*/
public NonElement getTypeInfo(Ref ref) {
// TODO: handle XmlValueList
assert !ref.valueList;
C c = nav.asDecl(ref.type);
if(c!=null && reader.getClassAnnotation(XmlRegistry.class,c,null/*TODO: is this right?*/)!=null) {
if(!registries.containsKey(nav.getPackageName(c)))
addRegistry(c,null);
return null; // TODO: is this correct?
} else
return getTypeInfo(ref.type,null);
}
protected EnumLeafInfoImpl createEnumLeafInfo(C clazz,Locatable upstream) {
return new EnumLeafInfoImpl(this,upstream,clazz,nav.use(clazz));
}
protected ClassInfoImpl createClassInfo(C clazz, Locatable upstream ) {
return new ClassInfoImpl(this,upstream,clazz);
}
protected ElementInfoImpl createElementInfo(
RegistryInfoImpl registryInfo, M m) throws IllegalAnnotationException {
return new ElementInfoImpl(this,registryInfo,m);
}
protected ArrayInfoImpl createArrayInfo(Locatable upstream, T arrayType) {
return new ArrayInfoImpl(this,upstream,arrayType);
}
/**
* Visits a class with {@link XmlRegistry} and records all the element mappings
* in it.
*/
public RegistryInfo addRegistry(C registryClass, Locatable upstream ) {
return new RegistryInfoImpl(this,upstream,registryClass);
}
/**
* Gets a {@link RegistryInfo} for the given package.
*
* @return
* null if no registry exists for the package.
* unlike other getXXX methods on this class,
* this method is side-effect free.
*/
public RegistryInfo getRegistry(String packageName) {
return registries.get(packageName);
}
private boolean linked;
/**
* Called after all the classes are added to the type set
* to "link" them together.
*
*
* Don't expose implementation classes in the signature.
*
* @return
* fully built {@link TypeInfoSet} that represents the model,
* or null if there was an error.
*/
public TypeInfoSet link() {
assert !linked;
linked = true;
for( ElementInfoImpl ei : typeInfoSet.getAllElements() )
ei.link();
for( ClassInfoImpl ci : typeInfoSet.beans().values() )
ci.link();
for( EnumLeafInfoImpl li : typeInfoSet.enums().values() )
li.link();
if(hadError)
return null;
else
return typeInfoSet;
}
//
//
// error handling
//
//
/**
* Sets the error handler that receives errors discovered during the model building.
*
* @param errorHandler
* can be null.
*/
public void setErrorHandler(ErrorHandler errorHandler) {
this.errorHandler = errorHandler;
}
public final void reportError(IllegalAnnotationException e) {
hadError = true;
if(errorHandler!=null)
errorHandler.error(e);
}
public boolean isReplaced(C sc) {
return subclassReplacements.containsKey(sc);
}
@Override
public Navigator getNavigator() {
return nav;
}
@Override
public AnnotationReader getReader() {
return reader;
}
}