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Spring Cloud Contract Shaded Dependencies
/*
* Copyright (C) 2007 Google Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package shaded.shaded.com.google.inject.internal;
import static shaded.shaded.com.google.common.base.Preconditions.checkState;
import static shaded.shaded.com.google.inject.internal.Annotations.findScopeAnnotation;
import shaded.shaded.com.google.common.base.MoreObjects;
import shaded.shaded.com.google.common.base.Objects;
import shaded.shaded.com.google.common.collect.ImmutableSet;
import shaded.shaded.com.google.inject.Binder;
import shaded.shaded.com.google.inject.ConfigurationException;
import shaded.shaded.com.google.inject.Inject;
import shaded.shaded.com.google.inject.Key;
import shaded.shaded.com.google.inject.TypeLiteral;
import shaded.shaded.com.google.inject.internal.util.Classes;
import shaded.shaded.com.google.inject.spi.BindingTargetVisitor;
import shaded.shaded.com.google.inject.spi.ConstructorBinding;
import shaded.shaded.com.google.inject.spi.Dependency;
import shaded.shaded.com.google.inject.spi.InjectionPoint;
import java.lang.annotation.Annotation;
import java.lang.reflect.Constructor;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.List;
import java.util.Map;
import java.util.Set;
final class ConstructorBindingImpl extends BindingImpl
implements ConstructorBinding, DelayedInitialize {
private final Factory factory;
private final InjectionPoint constructorInjectionPoint;
private ConstructorBindingImpl(
InjectorImpl injector,
Key key,
Object source,
InternalFactory scopedFactory,
Scoping scoping,
Factory factory,
InjectionPoint constructorInjectionPoint) {
super(injector, key, source, scopedFactory, scoping);
this.factory = factory;
this.constructorInjectionPoint = constructorInjectionPoint;
}
public ConstructorBindingImpl(
Key key,
Object source,
Scoping scoping,
InjectionPoint constructorInjectionPoint,
Set injectionPoints) {
super(source, key, scoping);
this.factory = new Factory<>(false, key);
ConstructionProxy constructionProxy =
new DefaultConstructionProxyFactory(constructorInjectionPoint).create();
this.constructorInjectionPoint = constructorInjectionPoint;
factory.constructorInjector =
new ConstructorInjector(injectionPoints, constructionProxy, null, null);
}
/**
* @param constructorInjector the constructor to use, or {@code null} to use the default.
* @param failIfNotLinked true if this ConstructorBindingImpl's InternalFactory should only
* succeed if retrieved from a linked binding
*/
static ConstructorBindingImpl create(
InjectorImpl injector,
Key key,
InjectionPoint constructorInjector,
Object source,
Scoping scoping,
Errors errors,
boolean failIfNotLinked,
boolean failIfNotExplicit)
throws ErrorsException {
int numErrors = errors.size();
@SuppressWarnings("unchecked") // constructorBinding guarantees type is consistent
Class rawType =
constructorInjector == null
? key.getTypeLiteral().getRawType()
: (Class) constructorInjector.getDeclaringType().getRawType();
// We can't inject abstract classes.
if (Modifier.isAbstract(rawType.getModifiers())) {
errors.missingImplementationWithHint(key, injector);
}
// Error: Inner class.
if (Classes.isInnerClass(rawType)) {
errors.cannotInjectInnerClass(rawType);
}
errors.throwIfNewErrors(numErrors);
// Find a constructor annotated @Inject
if (constructorInjector == null) {
try {
constructorInjector = InjectionPoint.forConstructorOf(key.getTypeLiteral());
if (failIfNotExplicit && !hasAtInject((Constructor) constructorInjector.getMember())) {
errors.atInjectRequired(rawType);
}
} catch (ConfigurationException e) {
throw errors.merge(e.getErrorMessages()).toException();
}
}
// if no scope is specified, look for a scoping annotation on the concrete class
if (!scoping.isExplicitlyScoped()) {
Class annotatedType = constructorInjector.getMember().getDeclaringClass();
Class scopeAnnotation = findScopeAnnotation(errors, annotatedType);
if (scopeAnnotation != null) {
scoping =
Scoping.makeInjectable(
Scoping.forAnnotation(scopeAnnotation), injector, errors.withSource(rawType));
}
}
errors.throwIfNewErrors(numErrors);
Factory factoryFactory = new Factory<>(failIfNotLinked, key);
InternalFactory scopedFactory =
Scoping.scope(key, injector, factoryFactory, source, scoping);
return new ConstructorBindingImpl(
injector, key, source, scopedFactory, scoping, factoryFactory, constructorInjector);
}
/** Returns true if the inject annotation is on the constructor. */
private static boolean hasAtInject(Constructor cxtor) {
return cxtor.isAnnotationPresent(Inject.class)
|| cxtor.isAnnotationPresent(javax.inject.Inject.class);
}
@Override
@SuppressWarnings("unchecked") // the result type always agrees with the ConstructorInjector type
public void initialize(InjectorImpl injector, Errors errors) throws ErrorsException {
factory.constructorInjector =
(ConstructorInjector) injector.constructors.get(constructorInjectionPoint, errors);
factory.provisionCallback = injector.provisionListenerStore.get(this);
}
/** True if this binding has been initialized and is ready for use. */
boolean isInitialized() {
return factory.constructorInjector != null;
}
/** Returns an injection point that can be used to clean up the constructor store. */
InjectionPoint getInternalConstructor() {
if (factory.constructorInjector != null) {
return factory.constructorInjector.getConstructionProxy().getInjectionPoint();
} else {
return constructorInjectionPoint;
}
}
/** Returns a set of dependencies that can be iterated over to clean up stray JIT bindings. */
Set> getInternalDependencies() {
ImmutableSet.Builder builder = ImmutableSet.builder();
if (factory.constructorInjector == null) {
builder.add(constructorInjectionPoint);
// If the below throws, it's OK -- we just ignore those dependencies, because no one
// could have used them anyway.
try {
builder.addAll(
InjectionPoint.forInstanceMethodsAndFields(
constructorInjectionPoint.getDeclaringType()));
} catch (ConfigurationException ignored) {
}
} else {
builder.add(getConstructor()).addAll(getInjectableMembers());
}
return Dependency.forInjectionPoints(builder.build());
}
@Override
public V acceptTargetVisitor(BindingTargetVisitor visitor) {
checkState(factory.constructorInjector != null, "not initialized");
return visitor.visit(this);
}
@Override
public InjectionPoint getConstructor() {
checkState(factory.constructorInjector != null, "Binding is not ready");
return factory.constructorInjector.getConstructionProxy().getInjectionPoint();
}
@Override
public Set getInjectableMembers() {
checkState(factory.constructorInjector != null, "Binding is not ready");
return factory.constructorInjector.getInjectableMembers();
}
/*if[AOP]*/
@Override
public Map> getMethodInterceptors() {
checkState(factory.constructorInjector != null, "Binding is not ready");
return factory.constructorInjector.getConstructionProxy().getMethodInterceptors();
}
/*end[AOP]*/
@Override
public Set> getDependencies() {
return Dependency.forInjectionPoints(
new ImmutableSet.Builder()
.add(getConstructor())
.addAll(getInjectableMembers())
.build());
}
@Override
protected BindingImpl withScoping(Scoping scoping) {
return new ConstructorBindingImpl(
null, getKey(), getSource(), factory, scoping, factory, constructorInjectionPoint);
}
@Override
protected BindingImpl withKey(Key key) {
return new ConstructorBindingImpl(
null, key, getSource(), factory, getScoping(), factory, constructorInjectionPoint);
}
@Override
@SuppressWarnings("unchecked") // the raw constructor member and declaring type always agree
public void applyTo(Binder binder) {
InjectionPoint constructor = getConstructor();
getScoping()
.applyTo(
binder
.withSource(getSource())
.bind(getKey())
.toConstructor(
(Constructor) getConstructor().getMember(),
(TypeLiteral) constructor.getDeclaringType()));
}
@Override
public String toString() {
return MoreObjects.toStringHelper(ConstructorBinding.class)
.add("key", getKey())
.add("source", getSource())
.add("scope", getScoping())
.toString();
}
@Override
public boolean equals(Object obj) {
if (obj instanceof ConstructorBindingImpl) {
ConstructorBindingImpl o = (ConstructorBindingImpl) obj;
return getKey().equals(o.getKey())
&& getScoping().equals(o.getScoping())
&& Objects.equal(constructorInjectionPoint, o.constructorInjectionPoint);
} else {
return false;
}
}
@Override
public int hashCode() {
return Objects.hashCode(getKey(), getScoping(), constructorInjectionPoint);
}
private static class Factory implements InternalFactory {
private final boolean failIfNotLinked;
private final Key key;
private ConstructorInjector constructorInjector;
private ProvisionListenerStackCallback provisionCallback;
Factory(boolean failIfNotLinked, Key key) {
this.failIfNotLinked = failIfNotLinked;
this.key = key;
}
@Override
@SuppressWarnings("unchecked")
public T get(InternalContext context, Dependency dependency, boolean linked)
throws InternalProvisionException {
ConstructorInjector localInjector = constructorInjector;
if (localInjector == null) {
throw new IllegalStateException("Constructor not ready");
}
if (!linked && failIfNotLinked) {
throw InternalProvisionException.jitDisabled(key);
}
// This may not actually be safe because it could return a super type of T (if that's all the
// client needs), but it should be OK in practice thanks to the wonders of erasure.
return (T) localInjector.construct(context, dependency, provisionCallback);
}
}
}