java/dagger/internal/codegen/binding/ComponentDescriptor.java - platform/external/dagger2 - Git at Google

 /*
  * Copyright (C) 2014 The Dagger Authors.
  *
  * 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 dagger.internal.codegen.binding;

 import static com.google.common.base.Preconditions.checkArgument;
 import static com.google.common.base.Preconditions.checkNotNull;
 import static com.google.common.base.Preconditions.checkState;
 import static dagger.internal.codegen.extension.DaggerStreams.toImmutableMap;
 import static dagger.internal.codegen.extension.DaggerStreams.toImmutableSet;
 import static dagger.internal.codegen.langmodel.DaggerTypes.isFutureType;
 import static javax.lang.model.element.Modifier.ABSTRACT;
 import static javax.lang.model.type.TypeKind.VOID;

 import com.google.auto.value.AutoValue;
 import com.google.auto.value.extension.memoized.Memoized;
 import com.google.common.base.Supplier;
 import com.google.common.base.Suppliers;
 import com.google.common.collect.ImmutableBiMap;
 import com.google.common.collect.ImmutableMap;
 import com.google.common.collect.ImmutableSet;
 import com.google.common.collect.Maps;
 import com.google.errorprone.annotations.CanIgnoreReturnValue;
 import com.google.errorprone.annotations.CheckReturnValue;
 import dagger.Component;
 import dagger.Module;
 import dagger.Subcomponent;
 import dagger.internal.codegen.base.ComponentAnnotation;
 import dagger.internal.codegen.langmodel.DaggerElements;
 import dagger.internal.codegen.langmodel.DaggerTypes;
 import dagger.model.DependencyRequest;
 import dagger.model.Scope;
 import dagger.producers.CancellationPolicy;
 import dagger.producers.ProductionComponent;
 import java.util.HashMap;
 import java.util.Map;
 import java.util.Objects;
 import java.util.Optional;
 import java.util.stream.Stream;
 import javax.lang.model.element.Element;
 import javax.lang.model.element.ExecutableElement;
 import javax.lang.model.element.TypeElement;
 import javax.lang.model.type.TypeMirror;

 /**
  * A component declaration.
  *
  * <p>Represents one type annotated with {@code @Component}, {@code Subcomponent},
  * {@code @ProductionComponent}, or {@code @ProductionSubcomponent}.
  *
  * <p>When validating bindings installed in modules, a {@link ComponentDescriptor} can also
  * represent a synthetic component for the module, where there is an entry point for each binding in
  * the module.
  */
 @AutoValue
 public abstract class ComponentDescriptor {
   /** The annotation that specifies that {@link #typeElement()} is a component. */
   public abstract ComponentAnnotation annotation();

   /** Returns {@code true} if this is a subcomponent. */
   public final boolean isSubcomponent() {
     return annotation().isSubcomponent();
   }

   /**
    * Returns {@code true} if this is a production component or subcomponent, or a
    * {@code @ProducerModule} when doing module binding validation.
    */
   public final boolean isProduction() {
     return annotation().isProduction();
   }

   /**
    * Returns {@code true} if this is a real component, and not a fictional one used to validate
    * module bindings.
    */
   public final boolean isRealComponent() {
     return annotation().isRealComponent();
   }

   /**
    * The element that defines the component. This is the element to which the {@link #annotation()}
    * was applied.
    */
   public abstract TypeElement typeElement();

   /**
    * The set of component dependencies listed in {@link Component#dependencies} or {@link
    * ProductionComponent#dependencies()}.
    */
   public abstract ImmutableSet<ComponentRequirement> dependencies();

   /** The non-abstract {@link #modules()} and the {@link #dependencies()}. */
   public final ImmutableSet<ComponentRequirement> dependenciesAndConcreteModules() {
     return Stream.concat(
             moduleTypes().stream()
                 .filter(dep -> !dep.getModifiers().contains(ABSTRACT))
                 .map(module -> ComponentRequirement.forModule(module.asType())),
             dependencies().stream())
         .collect(toImmutableSet());
   }

   /**
    * The {@link ModuleDescriptor modules} declared in {@link Component#modules()} and reachable by
    * traversing {@link Module#includes()}.
    */
   public abstract ImmutableSet<ModuleDescriptor> modules();

   /** The types of the {@link #modules()}. */
   public final ImmutableSet<TypeElement> moduleTypes() {
     return modules().stream().map(ModuleDescriptor::moduleElement).collect(toImmutableSet());
   }

   /**
    * The types for which the component will need instances if all of its bindings are used. For the
    * types the component will need in a given binding graph, use {@link
    * BindingGraph#componentRequirements()}.
    *
    * <ul>
    *   <li>{@linkplain #modules()} modules} with concrete instance bindings
    *   <li>Bound instances
    *   <li>{@linkplain #dependencies() dependencies}
    * </ul>
    */
   @Memoized
   ImmutableSet<ComponentRequirement> requirements() {
     ImmutableSet.Builder<ComponentRequirement> requirements = ImmutableSet.builder();
     modules().stream()
         .filter(
             module ->
                 module.bindings().stream().anyMatch(ContributionBinding::requiresModuleInstance))
         .map(module -> ComponentRequirement.forModule(module.moduleElement().asType()))
         .forEach(requirements::add);
     requirements.addAll(dependencies());
     requirements.addAll(
         creatorDescriptor()
             .map(ComponentCreatorDescriptor::boundInstanceRequirements)
             .orElse(ImmutableSet.of()));
     return requirements.build();
   }

   /**
    * This component's {@linkplain #dependencies() dependencies} keyed by each provision or
    * production method defined by that dependency. Note that the dependencies' types are not simply
    * the enclosing type of the method; a method may be declared by a supertype of the actual
    * dependency.
    */
   public abstract ImmutableMap<ExecutableElement, ComponentRequirement>
       dependenciesByDependencyMethod();

   /** The {@linkplain #dependencies() component dependency} that defines a method. */
   public final ComponentRequirement getDependencyThatDefinesMethod(Element method) {
     checkArgument(
         method instanceof ExecutableElement, "method must be an executable element: %s", method);
     return checkNotNull(
         dependenciesByDependencyMethod().get(method), "no dependency implements %s", method);
   }

   /** The scopes of the component. */
   public abstract ImmutableSet<Scope> scopes();

   /**
    * All {@link Subcomponent}s which are direct children of this component. This includes
    * subcomponents installed from {@link Module#subcomponents()} as well as subcomponent {@linkplain
    * #childComponentsDeclaredByFactoryMethods() factory methods} and {@linkplain
    * #childComponentsDeclaredByBuilderEntryPoints() builder methods}.
    */
   public final ImmutableSet<ComponentDescriptor> childComponents() {
     return ImmutableSet.<ComponentDescriptor>builder()
         .addAll(childComponentsDeclaredByFactoryMethods().values())
         .addAll(childComponentsDeclaredByBuilderEntryPoints().values())
         .addAll(childComponentsDeclaredByModules())
         .build();
   }

   /**
    * All {@linkplain Subcomponent direct child} components that are declared by a {@linkplain
    * Module#subcomponents() module's subcomponents}.
    */
   abstract ImmutableSet<ComponentDescriptor> childComponentsDeclaredByModules();

   /**
    * All {@linkplain Subcomponent direct child} components that are declared by a subcomponent
    * factory method.
    */
   public abstract ImmutableBiMap<ComponentMethodDescriptor, ComponentDescriptor>
       childComponentsDeclaredByFactoryMethods();

   /** Returns a map of {@link #childComponents()} indexed by {@link #typeElement()}. */
   @Memoized
   public ImmutableMap<TypeElement, ComponentDescriptor> childComponentsByElement() {
     return Maps.uniqueIndex(childComponents(), ComponentDescriptor::typeElement);
   }

   /** Returns the factory method that declares a child component. */
   final Optional<ComponentMethodDescriptor> getFactoryMethodForChildComponent(
       ComponentDescriptor childComponent) {
     return Optional.ofNullable(
         childComponentsDeclaredByFactoryMethods().inverse().get(childComponent));
   }

   /**
    * All {@linkplain Subcomponent direct child} components that are declared by a subcomponent
    * builder method.
    */
   abstract ImmutableBiMap<ComponentMethodDescriptor, ComponentDescriptor>
       childComponentsDeclaredByBuilderEntryPoints();

   private final Supplier<ImmutableMap<TypeElement, ComponentDescriptor>>
       childComponentsByBuilderType =
           Suppliers.memoize(
               () ->
                   childComponents().stream()
                       .filter(child -> child.creatorDescriptor().isPresent())
                       .collect(
                           toImmutableMap(
                               child -> child.creatorDescriptor().get().typeElement(),
                               child -> child)));

   /** Returns the child component with the given builder type. */
   final ComponentDescriptor getChildComponentWithBuilderType(TypeElement builderType) {
     return checkNotNull(
         childComponentsByBuilderType.get().get(builderType),
         "no child component found for builder type %s",
         builderType.getQualifiedName());
   }

   public abstract ImmutableSet<ComponentMethodDescriptor> componentMethods();

   /** Returns the first component method associated with this binding request, if one exists. */
   public Optional<ComponentMethodDescriptor> firstMatchingComponentMethod(BindingRequest request) {
     return Optional.ofNullable(firstMatchingComponentMethods().get(request));
   }

   @Memoized
   ImmutableMap<BindingRequest, ComponentMethodDescriptor>
       firstMatchingComponentMethods() {
     Map<BindingRequest, ComponentMethodDescriptor> methods = new HashMap<>();
     for (ComponentMethodDescriptor method : entryPointMethods()) {
       methods.putIfAbsent(BindingRequest.bindingRequest(method.dependencyRequest().get()), method);
     }
     return ImmutableMap.copyOf(methods);
   }

   /** The entry point methods on the component type. Each has a {@link DependencyRequest}. */
   public final ImmutableSet<ComponentMethodDescriptor> entryPointMethods() {
     return componentMethods()
         .stream()
         .filter(method -> method.dependencyRequest().isPresent())
         .collect(toImmutableSet());
   }

   // TODO(gak): Consider making this non-optional and revising the
   // interaction between the spec & generation
   /** Returns a descriptor for the creator type for this component type, if the user defined one. */
   public abstract Optional<ComponentCreatorDescriptor> creatorDescriptor();

   /**
    * Returns {@code true} for components that have a creator, either because the user {@linkplain
    * #creatorDescriptor() specified one} or because it's a top-level component with an implicit
    * builder.
    */
   public final boolean hasCreator() {
     return !isSubcomponent() || creatorDescriptor().isPresent();
   }

   /**
    * Returns the {@link CancellationPolicy} for this component, or an empty optional if either the
    * component is not a production component or no {@code CancellationPolicy} annotation is present.
    */
   public final Optional<CancellationPolicy> cancellationPolicy() {
     return isProduction()
         ? Optional.ofNullable(typeElement().getAnnotation(CancellationPolicy.class))
         : Optional.empty();
   }

   @Memoized
   @Override
   public int hashCode() {
     // TODO(b/122962745): Only use typeElement().hashCode()
     return Objects.hash(typeElement(), annotation());
   }

   // TODO(ronshapiro): simplify the equality semantics
   @Override
   public abstract boolean equals(Object obj);

   /** A component method. */
   @AutoValue
   public abstract static class ComponentMethodDescriptor {
     /** The method itself. Note that this may be declared on a supertype of the component. */
     public abstract ExecutableElement methodElement();

     /**
      * The dependency request for production, provision, and subcomponent creator methods. Absent
      * for subcomponent factory methods.
      */
     public abstract Optional<DependencyRequest> dependencyRequest();

     /** The subcomponent for subcomponent factory methods and subcomponent creator methods. */
     public abstract Optional<ComponentDescriptor> subcomponent();

     /**
      * Returns the return type of {@link #methodElement()} as resolved in the {@link
      * ComponentDescriptor#typeElement() component type}. If there are no type variables in the
      * return type, this is the equivalent of {@code methodElement().getReturnType()}.
      */
     public TypeMirror resolvedReturnType(DaggerTypes types) {
       checkState(dependencyRequest().isPresent());

       TypeMirror returnType = methodElement().getReturnType();
       if (returnType.getKind().isPrimitive() || returnType.getKind().equals(VOID)) {
         return returnType;
       }
       return BindingRequest.bindingRequest(dependencyRequest().get())
           .requestedType(dependencyRequest().get().key().type(), types);
     }

     /** A {@link ComponentMethodDescriptor}builder for a method. */
     public static Builder builder(ExecutableElement method) {
       return new AutoValue_ComponentDescriptor_ComponentMethodDescriptor.Builder()
           .methodElement(method);
     }

     /** A builder of {@link ComponentMethodDescriptor}s. */
     @AutoValue.Builder
     @CanIgnoreReturnValue
     public interface Builder {
       /** @see ComponentMethodDescriptor#methodElement() */
       Builder methodElement(ExecutableElement methodElement);

       /** @see ComponentMethodDescriptor#dependencyRequest() */
       Builder dependencyRequest(DependencyRequest dependencyRequest);

       /** @see ComponentMethodDescriptor#subcomponent() */
       Builder subcomponent(ComponentDescriptor subcomponent);

       /** Builds the descriptor. */
       @CheckReturnValue
       ComponentMethodDescriptor build();
     }
   }

   /** No-argument methods defined on {@link Object} that are ignored for contribution. */
   private static final ImmutableSet<String> NON_CONTRIBUTING_OBJECT_METHOD_NAMES =
       ImmutableSet.of("toString", "hashCode", "clone", "getClass");

   /**
    * Returns {@code true} if a method could be a component entry point but not a members-injection
    * method.
    */
   static boolean isComponentContributionMethod(DaggerElements elements, ExecutableElement method) {
     return method.getParameters().isEmpty()
         && !method.getReturnType().getKind().equals(VOID)
         && !elements.getTypeElement(Object.class).equals(method.getEnclosingElement())
         && !NON_CONTRIBUTING_OBJECT_METHOD_NAMES.contains(method.getSimpleName().toString());
   }

   /** Returns {@code true} if a method could be a component production entry point. */
   static boolean isComponentProductionMethod(DaggerElements elements, ExecutableElement method) {
     return isComponentContributionMethod(elements, method) && isFutureType(method.getReturnType());
   }
 }
	/*
	* Copyright (C) 2014 The Dagger Authors.
	*
	* 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 dagger.internal.codegen.binding;

	import static com.google.common.base.Preconditions.checkArgument;
	import static com.google.common.base.Preconditions.checkNotNull;
	import static com.google.common.base.Preconditions.checkState;
	import static dagger.internal.codegen.extension.DaggerStreams.toImmutableMap;
	import static dagger.internal.codegen.extension.DaggerStreams.toImmutableSet;
	import static dagger.internal.codegen.langmodel.DaggerTypes.isFutureType;
	import static javax.lang.model.element.Modifier.ABSTRACT;
	import static javax.lang.model.type.TypeKind.VOID;

	import com.google.auto.value.AutoValue;
	import com.google.auto.value.extension.memoized.Memoized;
	import com.google.common.base.Supplier;
	import com.google.common.base.Suppliers;
	import com.google.common.collect.ImmutableBiMap;
	import com.google.common.collect.ImmutableMap;
	import com.google.common.collect.ImmutableSet;
	import com.google.common.collect.Maps;
	import com.google.errorprone.annotations.CanIgnoreReturnValue;
	import com.google.errorprone.annotations.CheckReturnValue;
	import dagger.Component;
	import dagger.Module;
	import dagger.Subcomponent;
	import dagger.internal.codegen.base.ComponentAnnotation;
	import dagger.internal.codegen.langmodel.DaggerElements;
	import dagger.internal.codegen.langmodel.DaggerTypes;
	import dagger.model.DependencyRequest;
	import dagger.model.Scope;
	import dagger.producers.CancellationPolicy;
	import dagger.producers.ProductionComponent;
	import java.util.HashMap;
	import java.util.Map;
	import java.util.Objects;
	import java.util.Optional;
	import java.util.stream.Stream;
	import javax.lang.model.element.Element;
	import javax.lang.model.element.ExecutableElement;
	import javax.lang.model.element.TypeElement;
	import javax.lang.model.type.TypeMirror;

	/**
	* A component declaration.
	*
	* <p>Represents one type annotated with {@code @Component}, {@code Subcomponent},
	* {@code @ProductionComponent}, or {@code @ProductionSubcomponent}.
	*
	* <p>When validating bindings installed in modules, a {@link ComponentDescriptor} can also
	* represent a synthetic component for the module, where there is an entry point for each binding in
	* the module.
	*/
	@AutoValue
	public abstract class ComponentDescriptor {
	/** The annotation that specifies that {@link #typeElement()} is a component. */
	public abstract ComponentAnnotation annotation();

	/** Returns {@code true} if this is a subcomponent. */
	public final boolean isSubcomponent() {
	return annotation().isSubcomponent();
	}

	/**
	* Returns {@code true} if this is a production component or subcomponent, or a
	* {@code @ProducerModule} when doing module binding validation.
	*/
	public final boolean isProduction() {
	return annotation().isProduction();
	}

	/**
	* Returns {@code true} if this is a real component, and not a fictional one used to validate
	* module bindings.
	*/
	public final boolean isRealComponent() {
	return annotation().isRealComponent();
	}

	/**
	* The element that defines the component. This is the element to which the {@link #annotation()}
	* was applied.
	*/
	public abstract TypeElement typeElement();

	/**
	* The set of component dependencies listed in {@link Component#dependencies} or {@link
	* ProductionComponent#dependencies()}.
	*/
	public abstract ImmutableSet<ComponentRequirement> dependencies();

	/** The non-abstract {@link #modules()} and the {@link #dependencies()}. */
	public final ImmutableSet<ComponentRequirement> dependenciesAndConcreteModules() {
	return Stream.concat(
	moduleTypes().stream()
	.filter(dep -> !dep.getModifiers().contains(ABSTRACT))
	.map(module -> ComponentRequirement.forModule(module.asType())),
	dependencies().stream())
	.collect(toImmutableSet());
	}

	/**
	* The {@link ModuleDescriptor modules} declared in {@link Component#modules()} and reachable by
	* traversing {@link Module#includes()}.
	*/
	public abstract ImmutableSet<ModuleDescriptor> modules();

	/** The types of the {@link #modules()}. */
	public final ImmutableSet<TypeElement> moduleTypes() {
	return modules().stream().map(ModuleDescriptor::moduleElement).collect(toImmutableSet());
	}

	/**
	* The types for which the component will need instances if all of its bindings are used. For the
	* types the component will need in a given binding graph, use {@link
	* BindingGraph#componentRequirements()}.
	*
	* <ul>
	* <li>{@linkplain #modules()} modules} with concrete instance bindings
	* <li>Bound instances
	* <li>{@linkplain #dependencies() dependencies}
	* </ul>
	*/
	@Memoized
	ImmutableSet<ComponentRequirement> requirements() {
	ImmutableSet.Builder<ComponentRequirement> requirements = ImmutableSet.builder();
	modules().stream()
	.filter(
	module ->
	module.bindings().stream().anyMatch(ContributionBinding::requiresModuleInstance))
	.map(module -> ComponentRequirement.forModule(module.moduleElement().asType()))
	.forEach(requirements::add);
	requirements.addAll(dependencies());
	requirements.addAll(
	creatorDescriptor()
	.map(ComponentCreatorDescriptor::boundInstanceRequirements)
	.orElse(ImmutableSet.of()));
	return requirements.build();
	}

	/**
	* This component's {@linkplain #dependencies() dependencies} keyed by each provision or
	* production method defined by that dependency. Note that the dependencies' types are not simply
	* the enclosing type of the method; a method may be declared by a supertype of the actual
	* dependency.
	*/
	public abstract ImmutableMap<ExecutableElement, ComponentRequirement>
	dependenciesByDependencyMethod();

	/** The {@linkplain #dependencies() component dependency} that defines a method. */
	public final ComponentRequirement getDependencyThatDefinesMethod(Element method) {
	checkArgument(
	method instanceof ExecutableElement, "method must be an executable element: %s", method);
	return checkNotNull(
	dependenciesByDependencyMethod().get(method), "no dependency implements %s", method);
	}

	/** The scopes of the component. */
	public abstract ImmutableSet<Scope> scopes();

	/**
	* All {@link Subcomponent}s which are direct children of this component. This includes
	* subcomponents installed from {@link Module#subcomponents()} as well as subcomponent {@linkplain
	* #childComponentsDeclaredByFactoryMethods() factory methods} and {@linkplain
	* #childComponentsDeclaredByBuilderEntryPoints() builder methods}.
	*/
	public final ImmutableSet<ComponentDescriptor> childComponents() {
	return ImmutableSet.<ComponentDescriptor>builder()
	.addAll(childComponentsDeclaredByFactoryMethods().values())
	.addAll(childComponentsDeclaredByBuilderEntryPoints().values())
	.addAll(childComponentsDeclaredByModules())
	.build();
	}

	/**
	* All {@linkplain Subcomponent direct child} components that are declared by a {@linkplain
	* Module#subcomponents() module's subcomponents}.
	*/
	abstract ImmutableSet<ComponentDescriptor> childComponentsDeclaredByModules();

	/**
	* All {@linkplain Subcomponent direct child} components that are declared by a subcomponent
	* factory method.
	*/
	public abstract ImmutableBiMap<ComponentMethodDescriptor, ComponentDescriptor>
	childComponentsDeclaredByFactoryMethods();

	/** Returns a map of {@link #childComponents()} indexed by {@link #typeElement()}. */
	@Memoized
	public ImmutableMap<TypeElement, ComponentDescriptor> childComponentsByElement() {
	return Maps.uniqueIndex(childComponents(), ComponentDescriptor::typeElement);
	}

	/** Returns the factory method that declares a child component. */
	final Optional<ComponentMethodDescriptor> getFactoryMethodForChildComponent(
	ComponentDescriptor childComponent) {
	return Optional.ofNullable(
	childComponentsDeclaredByFactoryMethods().inverse().get(childComponent));
	}

	/**
	* All {@linkplain Subcomponent direct child} components that are declared by a subcomponent
	* builder method.
	*/
	abstract ImmutableBiMap<ComponentMethodDescriptor, ComponentDescriptor>
	childComponentsDeclaredByBuilderEntryPoints();

	private final Supplier<ImmutableMap<TypeElement, ComponentDescriptor>>
	childComponentsByBuilderType =
	Suppliers.memoize(
	() ->
	childComponents().stream()
	.filter(child -> child.creatorDescriptor().isPresent())
	.collect(
	toImmutableMap(
	child -> child.creatorDescriptor().get().typeElement(),
	child -> child)));

	/** Returns the child component with the given builder type. */
	final ComponentDescriptor getChildComponentWithBuilderType(TypeElement builderType) {
	return checkNotNull(
	childComponentsByBuilderType.get().get(builderType),
	"no child component found for builder type %s",
	builderType.getQualifiedName());
	}

	public abstract ImmutableSet<ComponentMethodDescriptor> componentMethods();

	/** Returns the first component method associated with this binding request, if one exists. */
	public Optional<ComponentMethodDescriptor> firstMatchingComponentMethod(BindingRequest request) {
	return Optional.ofNullable(firstMatchingComponentMethods().get(request));
	}

	@Memoized
	ImmutableMap<BindingRequest, ComponentMethodDescriptor>
	firstMatchingComponentMethods() {
	Map<BindingRequest, ComponentMethodDescriptor> methods = new HashMap<>();
	for (ComponentMethodDescriptor method : entryPointMethods()) {
	methods.putIfAbsent(BindingRequest.bindingRequest(method.dependencyRequest().get()), method);
	}
	return ImmutableMap.copyOf(methods);
	}

	/** The entry point methods on the component type. Each has a {@link DependencyRequest}. */
	public final ImmutableSet<ComponentMethodDescriptor> entryPointMethods() {
	return componentMethods()
	.stream()
	.filter(method -> method.dependencyRequest().isPresent())
	.collect(toImmutableSet());
	}

	// TODO(gak): Consider making this non-optional and revising the
	// interaction between the spec & generation
	/** Returns a descriptor for the creator type for this component type, if the user defined one. */
	public abstract Optional<ComponentCreatorDescriptor> creatorDescriptor();

	/**
	* Returns {@code true} for components that have a creator, either because the user {@linkplain
	* #creatorDescriptor() specified one} or because it's a top-level component with an implicit
	* builder.
	*/
	public final boolean hasCreator() {
	return !isSubcomponent() \|\| creatorDescriptor().isPresent();
	}

	/**
	* Returns the {@link CancellationPolicy} for this component, or an empty optional if either the
	* component is not a production component or no {@code CancellationPolicy} annotation is present.
	*/
	public final Optional<CancellationPolicy> cancellationPolicy() {
	return isProduction()
	? Optional.ofNullable(typeElement().getAnnotation(CancellationPolicy.class))
	: Optional.empty();
	}

	@Memoized
	@Override
	public int hashCode() {
	// TODO(b/122962745): Only use typeElement().hashCode()
	return Objects.hash(typeElement(), annotation());
	}

	// TODO(ronshapiro): simplify the equality semantics
	@Override
	public abstract boolean equals(Object obj);

	/** A component method. */
	@AutoValue
	public abstract static class ComponentMethodDescriptor {
	/** The method itself. Note that this may be declared on a supertype of the component. */
	public abstract ExecutableElement methodElement();

	/**
	* The dependency request for production, provision, and subcomponent creator methods. Absent
	* for subcomponent factory methods.
	*/
	public abstract Optional<DependencyRequest> dependencyRequest();

	/** The subcomponent for subcomponent factory methods and subcomponent creator methods. */
	public abstract Optional<ComponentDescriptor> subcomponent();

	/**
	* Returns the return type of {@link #methodElement()} as resolved in the {@link
	* ComponentDescriptor#typeElement() component type}. If there are no type variables in the
	* return type, this is the equivalent of {@code methodElement().getReturnType()}.
	*/
	public TypeMirror resolvedReturnType(DaggerTypes types) {
	checkState(dependencyRequest().isPresent());

	TypeMirror returnType = methodElement().getReturnType();
	if (returnType.getKind().isPrimitive() \|\| returnType.getKind().equals(VOID)) {
	return returnType;
	}
	return BindingRequest.bindingRequest(dependencyRequest().get())
	.requestedType(dependencyRequest().get().key().type(), types);
	}

	/** A {@link ComponentMethodDescriptor}builder for a method. */
	public static Builder builder(ExecutableElement method) {
	return new AutoValue_ComponentDescriptor_ComponentMethodDescriptor.Builder()
	.methodElement(method);
	}

	/** A builder of {@link ComponentMethodDescriptor}s. */
	@AutoValue.Builder
	@CanIgnoreReturnValue
	public interface Builder {
	/** @see ComponentMethodDescriptor#methodElement() */
	Builder methodElement(ExecutableElement methodElement);

	/** @see ComponentMethodDescriptor#dependencyRequest() */
	Builder dependencyRequest(DependencyRequest dependencyRequest);

	/** @see ComponentMethodDescriptor#subcomponent() */
	Builder subcomponent(ComponentDescriptor subcomponent);

	/** Builds the descriptor. */
	@CheckReturnValue
	ComponentMethodDescriptor build();
	}
	}

	/** No-argument methods defined on {@link Object} that are ignored for contribution. */
	private static final ImmutableSet<String> NON_CONTRIBUTING_OBJECT_METHOD_NAMES =
	ImmutableSet.of("toString", "hashCode", "clone", "getClass");

	/**
	* Returns {@code true} if a method could be a component entry point but not a members-injection
	* method.
	*/
	static boolean isComponentContributionMethod(DaggerElements elements, ExecutableElement method) {
	return method.getParameters().isEmpty()
	&& !method.getReturnType().getKind().equals(VOID)
	&& !elements.getTypeElement(Object.class).equals(method.getEnclosingElement())
	&& !NON_CONTRIBUTING_OBJECT_METHOD_NAMES.contains(method.getSimpleName().toString());
	}

	/** Returns {@code true} if a method could be a component production entry point. */
	static boolean isComponentProductionMethod(DaggerElements elements, ExecutableElement method) {
	return isComponentContributionMethod(elements, method) && isFutureType(method.getReturnType());
	}
	}