/* * Copyright (C) 2016 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 dagger.internal.codegen.binding.SourceFiles.simpleVariableName; import static dagger.internal.codegen.langmodel.DaggerElements.isAnyAnnotationPresent; import static javax.lang.model.element.ElementKind.CONSTRUCTOR; import static javax.lang.model.element.Modifier.ABSTRACT; import static javax.lang.model.element.Modifier.PRIVATE; import static javax.lang.model.element.Modifier.STATIC; import com.google.auto.common.MoreElements; import com.google.auto.common.MoreTypes; import com.google.auto.value.AutoValue; import com.google.common.base.Equivalence; import com.google.common.collect.ImmutableSet; import com.squareup.javapoet.ParameterSpec; import com.squareup.javapoet.TypeName; import dagger.Binds; import dagger.BindsOptionalOf; import dagger.Provides; import dagger.internal.codegen.kotlin.KotlinMetadataUtil; import dagger.internal.codegen.langmodel.DaggerElements; import dagger.model.BindingKind; import dagger.model.Key; import dagger.multibindings.Multibinds; import dagger.producers.Produces; import java.util.Optional; 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 type that a component needs an instance of. */ @AutoValue public abstract class ComponentRequirement { /** The kind of the {@link ComponentRequirement}. */ public enum Kind { /** A type listed in the component's {@code dependencies} attribute. */ DEPENDENCY, /** A type listed in the component or subcomponent's {@code modules} attribute. */ MODULE, /** * An object that is passed to a builder's {@link dagger.BindsInstance @BindsInstance} method. */ BOUND_INSTANCE, ; public boolean isBoundInstance() { return equals(BOUND_INSTANCE); } public boolean isModule() { return equals(MODULE); } } /** The kind of requirement. */ public abstract Kind kind(); /** Returns true if this is a {@link Kind#BOUND_INSTANCE} requirement. */ // TODO(ronshapiro): consider removing this and inlining the usages final boolean isBoundInstance() { return kind().isBoundInstance(); } /** * The type of the instance the component must have, wrapped so that requirements can be used as * value types. */ public abstract Equivalence.Wrapper wrappedType(); /** The type of the instance the component must have. */ public TypeMirror type() { return wrappedType().get(); } /** The element associated with the type of this requirement. */ public TypeElement typeElement() { return MoreTypes.asTypeElement(type()); } /** The action a component builder should take if it {@code null} is passed. */ public enum NullPolicy { /** Make a new instance. */ NEW, /** Throw an exception. */ THROW, /** Allow use of null values. */ ALLOW, } /** * An override for the requirement's null policy. If set, this is used as the null policy instead * of the default behavior in {@link #nullPolicy}. * *

Some implementations' null policy can be determined upon construction (e.g., for binding * instances), but others' require Elements which must wait until {@link #nullPolicy} is called. */ abstract Optional overrideNullPolicy(); /** The requirement's null policy. */ public NullPolicy nullPolicy(DaggerElements elements, KotlinMetadataUtil metadataUtil) { if (overrideNullPolicy().isPresent()) { return overrideNullPolicy().get(); } switch (kind()) { case MODULE: return componentCanMakeNewInstances(typeElement(), metadataUtil) ? NullPolicy.NEW : requiresAPassedInstance(elements, metadataUtil) ? NullPolicy.THROW : NullPolicy.ALLOW; case DEPENDENCY: case BOUND_INSTANCE: return NullPolicy.THROW; } throw new AssertionError(); } /** * Returns true if the passed {@link ComponentRequirement} requires a passed instance in order to * be used within a component. */ public boolean requiresAPassedInstance(DaggerElements elements, KotlinMetadataUtil metadataUtil) { if (!kind().isModule()) { // Bound instances and dependencies always require the user to provide an instance. return true; } return requiresModuleInstance(elements, metadataUtil) && !componentCanMakeNewInstances(typeElement(), metadataUtil); } /** * Returns {@code true} if an instance is needed for this (module) requirement. * *

An instance is only needed if there is a binding method on the module that is neither {@code * abstract} nor {@code static}; if all bindings are one of those, then there should be no * possible dependency on instance state in the module's bindings. * *

Alternatively, if the module is a Kotlin Object then the binding methods are considered * {@code static}, requiring no module instance. */ private boolean requiresModuleInstance(DaggerElements elements, KotlinMetadataUtil metadataUtil) { boolean isKotlinObject = metadataUtil.isObjectClass(typeElement()) || metadataUtil.isCompanionObjectClass(typeElement()); if (isKotlinObject) { return false; } ImmutableSet methods = elements.getLocalAndInheritedMethods(typeElement()); return methods.stream() .filter(this::isBindingMethod) .map(ExecutableElement::getModifiers) .anyMatch(modifiers -> !modifiers.contains(ABSTRACT) && !modifiers.contains(STATIC)); } private boolean isBindingMethod(ExecutableElement method) { // TODO(cgdecker): At the very least, we should have utility methods to consolidate this stuff // in one place; listing individual annotations all over the place is brittle. return isAnyAnnotationPresent( method, Provides.class, Produces.class, // TODO(ronshapiro): it would be cool to have internal meta-annotations that could describe // these, like @AbstractBindingMethod Binds.class, Multibinds.class, BindsOptionalOf.class); } /** The key for this requirement, if one is available. */ public abstract Optional key(); /** Returns the name for this requirement that could be used as a variable. */ public abstract String variableName(); /** Returns a parameter spec for this requirement. */ public ParameterSpec toParameterSpec() { return ParameterSpec.builder(TypeName.get(type()), variableName()).build(); } public static ComponentRequirement forDependency(TypeMirror type) { return new AutoValue_ComponentRequirement( Kind.DEPENDENCY, MoreTypes.equivalence().wrap(checkNotNull(type)), Optional.empty(), Optional.empty(), simpleVariableName(MoreTypes.asTypeElement(type))); } public static ComponentRequirement forModule(TypeMirror type) { return new AutoValue_ComponentRequirement( Kind.MODULE, MoreTypes.equivalence().wrap(checkNotNull(type)), Optional.empty(), Optional.empty(), simpleVariableName(MoreTypes.asTypeElement(type))); } static ComponentRequirement forBoundInstance(Key key, boolean nullable, String variableName) { return new AutoValue_ComponentRequirement( Kind.BOUND_INSTANCE, MoreTypes.equivalence().wrap(key.type()), nullable ? Optional.of(NullPolicy.ALLOW) : Optional.empty(), Optional.of(key), variableName); } public static ComponentRequirement forBoundInstance(ContributionBinding binding) { checkArgument(binding.kind().equals(BindingKind.BOUND_INSTANCE)); return forBoundInstance( binding.key(), binding.nullableType().isPresent(), binding.bindingElement().get().getSimpleName().toString()); } /** * Returns true if and only if a component can instantiate new instances (typically of a module) * rather than requiring that they be passed. */ // TODO(bcorso): Should this method throw if its called knowing that an instance is not needed? public static boolean componentCanMakeNewInstances( TypeElement typeElement, KotlinMetadataUtil metadataUtil) { switch (typeElement.getKind()) { case CLASS: break; case ENUM: case ANNOTATION_TYPE: case INTERFACE: return false; default: throw new AssertionError("TypeElement cannot have kind: " + typeElement.getKind()); } if (typeElement.getModifiers().contains(ABSTRACT)) { return false; } if (requiresEnclosingInstance(typeElement)) { return false; } if (metadataUtil.isObjectClass(typeElement) || metadataUtil.isCompanionObjectClass(typeElement)) { return false; } for (Element enclosed : typeElement.getEnclosedElements()) { if (enclosed.getKind().equals(CONSTRUCTOR) && MoreElements.asExecutable(enclosed).getParameters().isEmpty() && !enclosed.getModifiers().contains(PRIVATE)) { return true; } } // TODO(gak): still need checks for visibility return false; } private static boolean requiresEnclosingInstance(TypeElement typeElement) { switch (typeElement.getNestingKind()) { case TOP_LEVEL: return false; case MEMBER: return !typeElement.getModifiers().contains(STATIC); case ANONYMOUS: case LOCAL: return true; } throw new AssertionError( "TypeElement cannot have nesting kind: " + typeElement.getNestingKind()); } }