org.jvnet.hk2.internal.ClazzCreator Maven / Gradle / Ivy
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package org.jvnet.hk2.internal;
import java.lang.reflect.AnnotatedElement;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.Method;
import java.lang.reflect.Type;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.aopalliance.intercept.ConstructorInterceptor;
import org.aopalliance.intercept.MethodInterceptor;
import org.glassfish.hk2.api.ActiveDescriptor;
import org.glassfish.hk2.api.ClassAnalyzer;
import org.glassfish.hk2.api.Injectee;
import org.glassfish.hk2.api.InjectionResolver;
import org.glassfish.hk2.api.InstanceLifecycleEventType;
import org.glassfish.hk2.api.MultiException;
import org.glassfish.hk2.api.PostConstruct;
import org.glassfish.hk2.api.PreDestroy;
import org.glassfish.hk2.api.ServiceHandle;
import org.glassfish.hk2.utilities.reflection.ReflectionHelper;
/**
* @author jwells
* @param The type of object this creator creates
*
*/
public class ClazzCreator implements Creator {
private final ServiceLocatorImpl locator;
private final Class> implClass;
private final Set myInitializers = new LinkedHashSet();
private final Set myFields = new LinkedHashSet();
private ActiveDescriptor> selfDescriptor;
private ResolutionInfo myConstructor;
private List allInjectees;
private Method postConstructMethod;
private Method preDestroyMethod;
/* package */ ClazzCreator(ServiceLocatorImpl locator,
Class> implClass) {
this.locator = locator;
this.implClass = implClass;
}
/* package */ void initialize(
ActiveDescriptor> selfDescriptor,
String analyzerName,
Collector collector) {
this.selfDescriptor = selfDescriptor;
if ((selfDescriptor != null) &&
selfDescriptor.getAdvertisedContracts().contains(
ClassAnalyzer.class.getName())) {
String descriptorAnalyzerName = selfDescriptor.getName();
if (descriptorAnalyzerName == null) descriptorAnalyzerName = locator.getDefaultClassAnalyzerName();
String incomingAnalyzerName = analyzerName;
if (incomingAnalyzerName == null) incomingAnalyzerName = locator.getDefaultClassAnalyzerName();
if (descriptorAnalyzerName.equals(incomingAnalyzerName)) {
collector.addThrowable(new IllegalArgumentException(
"The ClassAnalyzer named " + descriptorAnalyzerName +
" is its own ClassAnalyzer. Ensure that an implementation of" +
" ClassAnalyzer is not its own ClassAnalyzer"));
myConstructor = null;
return;
}
}
ClassAnalyzer analyzer = Utilities.getClassAnalyzer(locator, analyzerName, collector);
if (analyzer == null) {
myConstructor = null;
return;
}
List baseAllInjectees = new LinkedList();
AnnotatedElement element;
List injectees;
element = Utilities.getConstructor(implClass, analyzer, collector);
if (element == null) {
myConstructor = null;
return;
}
injectees = Utilities.getConstructorInjectees((Constructor>) element, selfDescriptor);
if (injectees == null) {
myConstructor = null;
return;
}
baseAllInjectees.addAll(injectees);
myConstructor = new ResolutionInfo(element, injectees);
Set initMethods = Utilities.getInitMethods(implClass, analyzer, collector);
for (Method initMethod : initMethods) {
element = initMethod;
injectees = Utilities.getMethodInjectees(implClass, initMethod, selfDescriptor);
if (injectees == null) return;
baseAllInjectees.addAll(injectees);
myInitializers.add(new ResolutionInfo(element, injectees));
}
Set fields = Utilities.getInitFields(implClass, analyzer, collector);
for (Field field : fields) {
element = field;
injectees = Utilities.getFieldInjectees(implClass, field, selfDescriptor);
if (injectees == null) return;
baseAllInjectees.addAll(injectees);
myFields.add(new ResolutionInfo(element, injectees));
}
postConstructMethod = Utilities.getPostConstruct(implClass, analyzer, collector);
preDestroyMethod = Utilities.getPreDestroy(implClass, analyzer, collector);
allInjectees = Collections.unmodifiableList(baseAllInjectees);
Utilities.validateSelfInjectees(selfDescriptor, allInjectees, collector);
}
/* package */ void initialize(
ActiveDescriptor> selfDescriptor,
Collector collector) {
initialize(selfDescriptor, (selfDescriptor == null) ? null :
selfDescriptor.getClassAnalysisName(), collector);
}
/**
* This is done because sometimes when creating the creator we do not know
* what the true system descriptor will be
*
* @param selfDescriptor The descriptor that should replace our self descriptor
*/
/* package */ void resetSelfDescriptor(ActiveDescriptor> selfDescriptor) {
this.selfDescriptor = selfDescriptor;
for (Injectee injectee : allInjectees) {
if (!(injectee instanceof SystemInjecteeImpl)) continue;
((SystemInjecteeImpl) injectee).resetInjecteeDescriptor(selfDescriptor);
}
}
private void resolve(Map addToMe,
InjectionResolver> resolver,
SystemInjecteeImpl injectee,
ServiceHandle> root,
Collector errorCollection) {
if (injectee.isSelf()) {
addToMe.put(injectee, selfDescriptor);
return;
}
Object addIn = null;
try {
addIn = resolver.resolve(injectee, root);
} catch (Throwable th) {
errorCollection.addThrowable(th);
}
if (addIn != null) {
addToMe.put(injectee, addIn);
}
}
private Map resolveAllDependencies(final ServiceHandle> root) throws MultiException, IllegalStateException {
Collector errorCollector = new Collector();
final Map retVal = new LinkedHashMap();
for (SystemInjecteeImpl injectee : myConstructor.injectees) {
InjectionResolver> resolver = locator.getInjectionResolverForInjectee(injectee);
resolve(retVal, resolver, injectee, root, errorCollector);
}
for (ResolutionInfo fieldRI : myFields) {
for (SystemInjecteeImpl injectee : fieldRI.injectees) {
InjectionResolver> resolver = locator.getInjectionResolverForInjectee(injectee);
resolve(retVal, resolver, injectee, root, errorCollector);
}
}
for (ResolutionInfo methodRI : myInitializers) {
for (SystemInjecteeImpl injectee : methodRI.injectees) {
InjectionResolver> resolver = locator.getInjectionResolverForInjectee(injectee);
resolve(retVal, resolver, injectee, root, errorCollector);
}
}
if (errorCollector.hasErrors()) {
errorCollector.addThrowable(new IllegalArgumentException("While attempting to resolve the dependencies of "
+ implClass.getName() + " errors were found"));
errorCollector.throwIfErrors();
}
return retVal;
}
private Object createMe(Map resolved) throws Throwable {
final Constructor> c = (Constructor>) myConstructor.baseElement;
List injectees = myConstructor.injectees;
final Object args[] = new Object[injectees.size()];
for (Injectee injectee : injectees) {
args[injectee.getPosition()] = resolved.get(injectee);
}
Utilities.Interceptors interceptors = Utilities.getAllInterceptors(locator, selfDescriptor, implClass, c);
final Map> methodInterceptors = interceptors.getMethodInterceptors();
List constructorInterceptors = interceptors.getConstructorInterceptors();
if ((methodInterceptors == null || methodInterceptors.isEmpty()) &&
((constructorInterceptors == null) || constructorInterceptors.isEmpty())) {
// No need for any kind of interception
return ReflectionHelper.makeMe(c, args, locator.getNeutralContextClassLoader());
}
if (!Utilities.proxiesAvailable()) {
throw new IllegalStateException("A service " + selfDescriptor + " needs either method or constructor interception, but proxies are not available");
}
final boolean neutral = locator.getNeutralContextClassLoader();
if (methodInterceptors == null || methodInterceptors.isEmpty()) {
// No method interceptors means no need for proxy at all
return ConstructorInterceptorHandler.construct(c, args, neutral, constructorInterceptors);
}
return ConstructorInterceptorHandler.construct(c,
args,
neutral,
constructorInterceptors,
new ConstructorActionImpl(this, methodInterceptors));
}
private void fieldMe(Map resolved, T t) throws Throwable {
for (ResolutionInfo ri : myFields) {
Field field = (Field) ri.baseElement;
List injectees = ri.injectees; // Should be only one injectee, itself!
Injectee fieldInjectee = null;
for (Injectee candidate : injectees) {
fieldInjectee = candidate;
}
Object putMeIn = resolved.get(fieldInjectee);
ReflectionHelper.setField(field, t, putMeIn);
}
}
private void methodMe(Map resolved, T t) throws Throwable {
for (ResolutionInfo ri : myInitializers) {
Method m = (Method) ri.baseElement;
List injectees = ri.injectees;
Object args[] = new Object[injectees.size()];
for (Injectee injectee : injectees) {
args[injectee.getPosition()] = resolved.get(injectee);
}
ReflectionHelper.invoke(t, m, args, locator.getNeutralContextClassLoader());
}
}
private void postConstructMe(T t) throws Throwable {
if (t == null) return;
if (t instanceof PostConstruct) {
((PostConstruct) t).postConstruct();
return;
}
if (postConstructMethod == null) return;
ReflectionHelper.invoke(t, postConstructMethod, new Object[0], locator.getNeutralContextClassLoader());
}
private void preDestroyMe(T t) throws Throwable {
if (t == null) return;
if (t instanceof PreDestroy) {
((PreDestroy) t).preDestroy();
return;
}
if (preDestroyMethod == null) return;
ReflectionHelper.invoke(t, preDestroyMethod, new Object[0], locator.getNeutralContextClassLoader());
}
/* (non-Javadoc)
* @see org.jvnet.hk2.internal.Creator#create()
*/
@SuppressWarnings("unchecked")
@Override
public T create(ServiceHandle> root, SystemDescriptor> eventThrower) {
String failureLocation = "resolve";
try {
final Map allResolved = resolveAllDependencies(root);
if (eventThrower != null) {
eventThrower.invokeInstanceListeners(new InstanceLifecycleEventImpl(InstanceLifecycleEventType.PRE_PRODUCTION,
null, ReflectionHelper.
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