/* * Copyright (C) 2017 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.writing; import static com.google.common.base.Preconditions.checkArgument; import static com.google.common.base.Preconditions.checkNotNull; import static com.google.common.base.Suppliers.memoize; import static dagger.internal.codegen.writing.ComponentImplementation.FieldSpecKind.COMPONENT_REQUIREMENT_FIELD; import static javax.lang.model.element.Modifier.FINAL; import static javax.lang.model.element.Modifier.PRIVATE; import com.google.common.base.Supplier; import com.squareup.javapoet.ClassName; import com.squareup.javapoet.CodeBlock; import com.squareup.javapoet.FieldSpec; import com.squareup.javapoet.TypeName; import dagger.internal.codegen.binding.BindingGraph; import dagger.internal.codegen.binding.ComponentRequirement; import dagger.internal.codegen.langmodel.DaggerElements; import java.util.HashMap; import java.util.Map; import java.util.Optional; import javax.inject.Inject; import javax.lang.model.element.TypeElement; /** * A central repository of expressions used to access any {@link ComponentRequirement} available to * a component. */ @PerComponentImplementation public final class ComponentRequirementExpressions { // TODO(dpb,ronshapiro): refactor this and ComponentBindingExpressions into a // HierarchicalComponentMap, or perhaps this use a flattened ImmutableMap, built from its // parents? If so, maybe make ComponentRequirementExpression.Factory create it. private final Optional parent; private final Map componentRequirementExpressions = new HashMap<>(); private final BindingGraph graph; private final ComponentImplementation componentImplementation; private final ModuleProxies moduleProxies; // TODO(ronshapiro): give ComponentImplementation a graph() method @Inject ComponentRequirementExpressions( @ParentComponent Optional parent, BindingGraph graph, ComponentImplementation componentImplementation, DaggerElements elements, ModuleProxies moduleProxies) { this.parent = parent; this.graph = graph; this.componentImplementation = componentImplementation; this.moduleProxies = moduleProxies; } /** * Returns an expression for the {@code componentRequirement} to be used when implementing a * component method. This may add a field or method to the component in order to reference the * component requirement outside of the {@code initialize()} methods. */ CodeBlock getExpression(ComponentRequirement componentRequirement, ClassName requestingClass) { return getExpression(componentRequirement).getExpression(requestingClass); } /** * Returns an expression for the {@code componentRequirement} to be used only within {@code * initialize()} methods, where the component constructor parameters are available. * *

When accessing this expression from a subcomponent, this may cause a field to be initialized * or a method to be added in the component that owns this {@link ComponentRequirement}. */ CodeBlock getExpressionDuringInitialization( ComponentRequirement componentRequirement, ClassName requestingClass) { return getExpression(componentRequirement).getExpressionDuringInitialization(requestingClass); } ComponentRequirementExpression getExpression(ComponentRequirement componentRequirement) { if (graph.componentRequirements().contains(componentRequirement)) { return componentRequirementExpressions.computeIfAbsent( componentRequirement, this::createField); } if (parent.isPresent()) { return parent.get().getExpression(componentRequirement); } throw new IllegalStateException( "no component requirement expression found for " + componentRequirement); } /** Returns a field for a {@link ComponentRequirement}. */ private ComponentRequirementExpression createField(ComponentRequirement requirement) { if (componentImplementation.componentDescriptor().hasCreator()) { return new ComponentParameterField(requirement, componentImplementation, Optional.empty()); } else if (graph.factoryMethod().isPresent() && graph.factoryMethodParameters().containsKey(requirement)) { String parameterName = graph.factoryMethodParameters().get(requirement).getSimpleName().toString(); return new ComponentParameterField( requirement, componentImplementation, Optional.of(parameterName)); } else if (requirement.kind().isModule()) { return new InstantiableModuleField(requirement, componentImplementation); } else { throw new AssertionError( String.format("Can't create %s in %s", requirement, componentImplementation.name())); } } private abstract static class AbstractField implements ComponentRequirementExpression { final ComponentRequirement componentRequirement; final ComponentImplementation componentImplementation; final String fieldName; private final Supplier field = memoize(this::addField); private AbstractField( ComponentRequirement componentRequirement, ComponentImplementation componentImplementation) { this.componentRequirement = checkNotNull(componentRequirement); this.componentImplementation = checkNotNull(componentImplementation); // Note: The field name is being claimed eagerly here even though we don't know at this point // whether or not the requirement will even need a field. This is done because: // A) ComponentParameterField wants to ensure that it doesn't give the parameter the same name // as any field in the component, which requires that it claim a "field name" for itself // when naming the parameter. // B) The parameter name may be needed before the field name is. // C) We want to prefer giving the best name to the field rather than the parameter given its // wider scope. this.fieldName = componentImplementation.getUniqueFieldName(componentRequirement.variableName()); } @Override public CodeBlock getExpression(ClassName requestingClass) { return field.get().getExpressionFor(requestingClass); } private MemberSelect addField() { FieldSpec field = createField(); componentImplementation.addField(COMPONENT_REQUIREMENT_FIELD, field); componentImplementation.addComponentRequirementInitialization(fieldInitialization(field)); return MemberSelect.localField(componentImplementation.name(), fieldName); } private FieldSpec createField() { return FieldSpec.builder(TypeName.get(componentRequirement.type()), fieldName, PRIVATE, FINAL) .build(); } /** Returns the {@link CodeBlock} that initializes the component field during construction. */ abstract CodeBlock fieldInitialization(FieldSpec componentField); } /** * A {@link ComponentRequirementExpression} for {@link ComponentRequirement}s that can be * instantiated by the component (i.e. a static class with a no-arg constructor). */ private final class InstantiableModuleField extends AbstractField { private final TypeElement moduleElement; private InstantiableModuleField( ComponentRequirement module, ComponentImplementation componentImplementation) { super(module, componentImplementation); checkArgument(module.kind().isModule()); this.moduleElement = module.typeElement(); } @Override CodeBlock fieldInitialization(FieldSpec componentField) { return CodeBlock.of( "this.$N = $L;", componentField, moduleProxies.newModuleInstance(moduleElement, componentImplementation.name())); } } /** * A {@link ComponentRequirementExpression} for {@link ComponentRequirement}s that are passed in * as parameters to the component's constructor. */ private static final class ComponentParameterField extends AbstractField { private final String parameterName; private ComponentParameterField( ComponentRequirement componentRequirement, ComponentImplementation componentImplementation, Optional name) { super(componentRequirement, componentImplementation); // Get the name that the component implementation will use for its parameter for the // requirement. If the given name is different than the name of the field created for the // requirement (as may be the case when the parameter name is derived from a user-written // factory method parameter), just use that as the base name for the parameter. Otherwise, // append "Param" to the end of the name to differentiate. // In either case, componentImplementation.getParameterName() will ensure that the final name // that is used is not the same name as any field in the component even if there's something // weird where the component actually has fields named, say, "foo" and "fooParam". String baseName = name.filter(n -> !n.equals(fieldName)).orElse(fieldName + "Param"); this.parameterName = componentImplementation.getParameterName(componentRequirement, baseName); } @Override public CodeBlock getExpressionDuringInitialization(ClassName requestingClass) { if (componentImplementation.name().equals(requestingClass)) { return CodeBlock.of("$L", parameterName); } else { // requesting this component requirement during initialization of a child component requires // it to be accessed from a field and not the parameter (since it is no longer available) return getExpression(requestingClass); } } @Override CodeBlock fieldInitialization(FieldSpec componentField) { // Don't checkNotNull here because the parameter may be nullable; if it isn't, the caller // should handle checking that before passing the parameter. return CodeBlock.of("this.$N = $L;", componentField, parameterName); } } }