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A fast dependency injector for Android and Java.
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/*
* Copyright (C) 2018 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.Verify.verify;
import static dagger.internal.codegen.binding.BindingRequest.bindingRequest;
import static dagger.internal.codegen.extension.DaggerGraphs.unreachableNodes;
import static dagger.internal.codegen.model.BindingKind.SUBCOMPONENT_CREATOR;
import androidx.room.compiler.processing.XType;
import androidx.room.compiler.processing.XTypeElement;
import com.google.auto.value.AutoValue;
import com.google.auto.value.extension.memoized.Memoized;
import com.google.common.collect.ImmutableList;
import com.google.common.graph.ImmutableNetwork;
import com.google.common.graph.MutableNetwork;
import com.google.common.graph.NetworkBuilder;
import dagger.internal.codegen.binding.BindingGraph.TopLevelBindingGraph;
import dagger.internal.codegen.binding.BindingGraphFactory.LegacyBindingGraph;
import dagger.internal.codegen.binding.ComponentDescriptor.ComponentMethodDescriptor;
import dagger.internal.codegen.model.BindingGraph.ComponentNode;
import dagger.internal.codegen.model.BindingGraph.DependencyEdge;
import dagger.internal.codegen.model.BindingGraph.Edge;
import dagger.internal.codegen.model.BindingGraph.MissingBinding;
import dagger.internal.codegen.model.BindingGraph.Node;
import dagger.internal.codegen.model.ComponentPath;
import dagger.internal.codegen.model.DaggerTypeElement;
import dagger.internal.codegen.model.DependencyRequest;
import dagger.internal.codegen.model.Key;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.HashSet;
import java.util.Set;
import javax.inject.Inject;
/** Converts {@link BindingGraph}s to {@link dagger.internal.codegen.model.BindingGraph}s. */
final class BindingGraphConverter {
@Inject
BindingGraphConverter() {}
/**
* Creates the external {@link dagger.internal.codegen.model.BindingGraph} representing the given
* internal {@link BindingGraph}.
*/
BindingGraph convert(LegacyBindingGraph legacyBindingGraph, boolean isFullBindingGraph) {
MutableNetwork network = Converter.convertToNetwork(legacyBindingGraph);
ComponentNode rootNode = legacyBindingGraph.componentNode();
// When bindings are copied down into child graphs because they transitively depend on local
// multibindings or optional bindings, the parent-owned binding is still there. If that
// parent-owned binding is not reachable from its component, it doesn't need to be in the graph
// because it will never be used. So remove all nodes that are not reachable from the root
// component—unless we're converting a full binding graph.
if (!isFullBindingGraph) {
unreachableNodes(network.asGraph(), rootNode).forEach(network::removeNode);
}
TopLevelBindingGraph topLevelBindingGraph =
TopLevelBindingGraph.create(ImmutableNetwork.copyOf(network), isFullBindingGraph);
return BindingGraph.create(rootNode, topLevelBindingGraph);
}
private static final class Converter {
static MutableNetwork convertToNetwork(LegacyBindingGraph graph) {
Converter converter = new Converter();
converter.visitRootComponent(graph);
return converter.network;
}
/** The path from the root graph to the currently visited graph. */
private final Deque bindingGraphPath = new ArrayDeque<>();
private final MutableNetwork network =
NetworkBuilder.directed().allowsParallelEdges(true).allowsSelfLoops(true).build();
private final Set bindings = new HashSet<>();
private void visitRootComponent(LegacyBindingGraph graph) {
visitComponent(graph);
}
/**
* Called once for each component in a component hierarchy.
*
* This implementation does the following:
*
*
* - If this component is installed in its parent by a subcomponent factory method, adds
* an edge between the parent and child components.
*
- For each entry point, adds an edge between the component and the entry point.
*
- For each child component, calls {@link #visitComponent(LegacyBindingGraph)},
* updating the traversal state.
*
*
* @param graph the currently visited graph
*/
private void visitComponent(LegacyBindingGraph graph) {
bindingGraphPath.addLast(graph);
network.addNode(graph.componentNode());
for (ComponentMethodDescriptor entryPointMethod :
graph.componentDescriptor().entryPointMethods()) {
addDependencyEdges(graph.componentNode(), entryPointMethod.dependencyRequest().get());
}
for (ResolvedBindings resolvedBindings : graph.resolvedBindings()) {
for (BindingNode binding : resolvedBindings.bindingNodes()) {
if (bindings.add(binding)) {
network.addNode(binding);
for (DependencyRequest dependencyRequest : binding.dependencies()) {
addDependencyEdges(binding, dependencyRequest);
}
}
if (binding.kind().equals(SUBCOMPONENT_CREATOR)
&& binding.componentPath().equals(graph.componentPath())) {
network.addEdge(
binding,
subcomponentNode(binding.key().type().xprocessing(), graph),
new SubcomponentCreatorBindingEdgeImpl(binding.subcomponentDeclarations()));
}
}
}
for (LegacyBindingGraph childGraph : graph.subgraphs()) {
visitComponent(childGraph);
graph
.componentDescriptor()
.getFactoryMethodForChildComponent(childGraph.componentDescriptor())
.ifPresent(
childFactoryMethod ->
network.addEdge(
graph.componentNode(),
childGraph.componentNode(),
new ChildFactoryMethodEdgeImpl(childFactoryMethod.methodElement())));
}
verify(bindingGraphPath.removeLast().equals(graph));
}
/**
* Returns an immutable snapshot of the path from the root component to the currently visited
* component.
*/
private ComponentPath componentPath() {
return bindingGraphPath.getLast().componentPath();
}
/**
* Returns the LegacyBindingGraph for {@code ancestor}, where {@code ancestor} is in the
* component path of the current traversal.
*/
private LegacyBindingGraph graphForAncestor(XTypeElement ancestor) {
for (LegacyBindingGraph graph : bindingGraphPath) {
if (graph.componentDescriptor().typeElement().equals(ancestor)) {
return graph;
}
}
throw new IllegalArgumentException(
String.format(
"%s is not in the current path: %s", ancestor.getQualifiedName(), componentPath()));
}
/**
* Adds a {@link dagger.internal.codegen.model.BindingGraph.DependencyEdge} from a node to the
* binding(s) that satisfy a dependency request.
*/
private void addDependencyEdges(Node source, DependencyRequest dependencyRequest) {
ResolvedBindings dependencies = resolvedDependencies(source, dependencyRequest);
if (dependencies.isEmpty()) {
addDependencyEdge(source, dependencyRequest, missingBindingNode(dependencies));
} else {
for (BindingNode dependency : dependencies.bindingNodes()) {
addDependencyEdge(source, dependencyRequest, dependency);
}
}
}
private void addDependencyEdge(
Node source, DependencyRequest dependencyRequest, Node dependency) {
network.addNode(dependency);
if (!hasDependencyEdge(source, dependency, dependencyRequest)) {
network.addEdge(
source,
dependency,
new DependencyEdgeImpl(dependencyRequest, source instanceof ComponentNode));
}
}
private boolean hasDependencyEdge(
Node source, Node dependency, DependencyRequest dependencyRequest) {
// An iterative approach is used instead of a Stream because this method is called in a hot
// loop, and the Stream calculates the size of network.edgesConnecting(), which is slow. This
// seems to be because caculating the edges connecting two nodes in a Network that supports
// parallel edges is must check the equality of many nodes, and BindingNode's equality
// semantics drag in the equality of many other expensive objects
for (Edge edge : network.edgesConnecting(source, dependency)) {
if (edge instanceof DependencyEdge) {
if (((DependencyEdge) edge).dependencyRequest().equals(dependencyRequest)) {
return true;
}
}
}
return false;
}
private ResolvedBindings resolvedDependencies(
Node source, DependencyRequest dependencyRequest) {
return graphForAncestor(source.componentPath().currentComponent().xprocessing())
.resolvedBindings(bindingRequest(dependencyRequest));
}
private MissingBinding missingBindingNode(ResolvedBindings dependencies) {
// Put all missing binding nodes in the root component. This simplifies the binding graph
// and produces better error messages for users since all dependents point to the same node.
return MissingBindingImpl.create(
ComponentPath.create(ImmutableList.of(componentPath().rootComponent())),
dependencies.key());
}
private ComponentNode subcomponentNode(
XType subcomponentBuilderType, LegacyBindingGraph graph) {
XTypeElement subcomponentBuilderElement = subcomponentBuilderType.getTypeElement();
ComponentDescriptor subcomponent =
graph.componentDescriptor().getChildComponentWithBuilderType(subcomponentBuilderElement);
return ComponentNodeImpl.create(
componentPath().childPath(DaggerTypeElement.from(subcomponent.typeElement())),
subcomponent);
}
}
@AutoValue
abstract static class MissingBindingImpl extends MissingBinding {
static MissingBinding create(ComponentPath component, Key key) {
return new AutoValue_BindingGraphConverter_MissingBindingImpl(component, key);
}
@Memoized
@Override
public abstract int hashCode();
@Override
public abstract boolean equals(Object o);
}
}