core/src/com/google/inject/internal/InternalInjectorCreator.java - platform/external/guice - Git at Google

 /**
  * Copyright (C) 2006 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 com.google.inject.internal;

 import com.google.common.collect.ImmutableList;
 import com.google.common.collect.Iterables;
 import com.google.inject.Binding;
 import com.google.inject.Injector;
 import com.google.inject.Key;
 import com.google.inject.MembersInjector;
 import com.google.inject.Module;
 import com.google.inject.Provider;
 import com.google.inject.Scope;
 import com.google.inject.Stage;
 import com.google.inject.TypeLiteral;
 import com.google.inject.internal.util.Stopwatch;
 import com.google.inject.spi.Dependency;
 import com.google.inject.spi.TypeConverterBinding;

 import java.lang.annotation.Annotation;
 import java.util.Collection;
 import java.util.List;
 import java.util.Map;
 import java.util.Set;

 /**
  * Builds a tree of injectors. This is a primary injector, plus child injectors needed for each
  * {@code Binder.newPrivateBinder() private environment}. The primary injector is not necessarily a
  * top-level injector.
  *
  * <p>Injector construction happens in two phases.
  * <ol>
  *   <li>Static building. In this phase, we interpret commands, create bindings, and inspect
  *     dependencies. During this phase, we hold a lock to ensure consistency with parent injectors.
  *     No user code is executed in this phase.</li>
  *   <li>Dynamic injection. In this phase, we call user code. We inject members that requested
  *     injection. This may require user's objects be created and their providers be called. And we
  *     create eager singletons. In this phase, user code may have started other threads. This phase
  *     is not executed for injectors created using {@link Stage#TOOL the tool stage}</li>
  * </ol>
  *
  * @author crazybob@google.com (Bob Lee)
  * @author jessewilson@google.com (Jesse Wilson)
  */
 public final class InternalInjectorCreator {

   private final Stopwatch stopwatch = new Stopwatch();
   private final Errors errors = new Errors();

   private final Initializer initializer = new Initializer();
   private final ProcessedBindingData bindingData;
   private final InjectionRequestProcessor injectionRequestProcessor;

   private final InjectorShell.Builder shellBuilder = new InjectorShell.Builder();
   private List<InjectorShell> shells;

   public InternalInjectorCreator() {
     injectionRequestProcessor = new InjectionRequestProcessor(errors, initializer);
     bindingData = new ProcessedBindingData();
   }

   public InternalInjectorCreator stage(Stage stage) {
     shellBuilder.stage(stage);
     return this;
   }

   /**
    * Sets the parent of the injector to-be-constructed. As a side effect, this sets this injector's
    * stage to the stage of {@code parent} and sets {@link #requireExplicitBindings()} if the parent
    * injector also required them.
    */
   public InternalInjectorCreator parentInjector(InjectorImpl parent) {
     shellBuilder.parent(parent);
     return this;
   }

   public InternalInjectorCreator addModules(Iterable<? extends Module> modules) {
     shellBuilder.addModules(modules);
     return this;
   }

   public Injector build() {
     if (shellBuilder == null) {
       throw new AssertionError("Already built, builders are not reusable.");
     }

     // Synchronize while we're building up the bindings and other injector state. This ensures that
     // the JIT bindings in the parent injector don't change while we're being built
     synchronized (shellBuilder.lock()) {
       shells = shellBuilder.build(initializer, bindingData, stopwatch, errors);
       stopwatch.resetAndLog("Injector construction");

       initializeStatically();
     }

     injectDynamically();

     if (shellBuilder.getStage() == Stage.TOOL) {
       // wrap the primaryInjector in a ToolStageInjector
       // to prevent non-tool-friendy methods from being called.
       return new ToolStageInjector(primaryInjector());
     } else {
       return primaryInjector();
     }
   }

   /** Initialize and validate everything. */
   private void initializeStatically() {
     bindingData.initializeBindings();
     stopwatch.resetAndLog("Binding initialization");

     for (InjectorShell shell : shells) {
       shell.getInjector().index();
     }
     stopwatch.resetAndLog("Binding indexing");

     injectionRequestProcessor.process(shells);
     stopwatch.resetAndLog("Collecting injection requests");

     bindingData.runCreationListeners(errors);
     stopwatch.resetAndLog("Binding validation");

     injectionRequestProcessor.validate();
     stopwatch.resetAndLog("Static validation");

     initializer.validateOustandingInjections(errors);
     stopwatch.resetAndLog("Instance member validation");

     new LookupProcessor(errors).process(shells);
     for (InjectorShell shell : shells) {
       ((DeferredLookups) shell.getInjector().lookups).initialize(errors);
     }
     stopwatch.resetAndLog("Provider verification");

     for (InjectorShell shell : shells) {
       if (!shell.getElements().isEmpty()) {
         throw new AssertionError("Failed to execute " + shell.getElements());
       }
     }

     errors.throwCreationExceptionIfErrorsExist();
   }

   /**
    * Returns the injector being constructed. This is not necessarily the root injector.
    */
   private Injector primaryInjector() {
     return shells.get(0).getInjector();
   }

   /**
    * Inject everything that can be injected. This method is intentionally not synchronized. If we
    * locked while injecting members (ie. running user code), things would deadlock should the user
    * code build a just-in-time binding from another thread.
    */
   private void injectDynamically() {
     injectionRequestProcessor.injectMembers();
     stopwatch.resetAndLog("Static member injection");

     initializer.injectAll(errors);
     stopwatch.resetAndLog("Instance injection");
     errors.throwCreationExceptionIfErrorsExist();

     if(shellBuilder.getStage() != Stage.TOOL) {
       for (InjectorShell shell : shells) {
         loadEagerSingletons(shell.getInjector(), shellBuilder.getStage(), errors);
       }
       stopwatch.resetAndLog("Preloading singletons");
     }
     errors.throwCreationExceptionIfErrorsExist();
   }

   /**
    * Loads eager singletons, or all singletons if we're in Stage.PRODUCTION. Bindings discovered
    * while we're binding these singletons are not be eager.
    */
   void loadEagerSingletons(InjectorImpl injector, Stage stage, final Errors errors) {
     @SuppressWarnings("unchecked") // casting Collection<Binding> to Collection<BindingImpl> is safe
     Iterable<BindingImpl<?>> candidateBindings = ImmutableList.copyOf(Iterables.concat(
         (Collection) injector.state.getExplicitBindingsThisLevel().values(),
         injector.jitBindings.values()));
     for (final BindingImpl<?> binding : candidateBindings) {
       if (isEagerSingleton(injector, binding, stage)) {
         try {
           injector.callInContext(new ContextualCallable<Void>() {
             Dependency<?> dependency = Dependency.get(binding.getKey());
             public Void call(InternalContext context) {
               Dependency previous = context.pushDependency(dependency, binding.getSource());
               Errors errorsForBinding = errors.withSource(dependency);
               try {
                 binding.getInternalFactory().get(errorsForBinding, context, dependency, false);
               } catch (ErrorsException e) {
                 errorsForBinding.merge(e.getErrors());
               } finally {
                 context.popStateAndSetDependency(previous);
               }

               return null;
             }
           });
         } catch (ErrorsException e) {
           throw new AssertionError();
         }
       }
     }
   }

   private boolean isEagerSingleton(InjectorImpl injector, BindingImpl<?> binding, Stage stage) {
     if (binding.getScoping().isEagerSingleton(stage)) {
       return true;
     }

     // handle a corner case where a child injector links to a binding in a parent injector, and
     // that binding is singleton. We won't catch this otherwise because we only iterate the child's
     // bindings.
     if (binding instanceof LinkedBindingImpl) {
       Key<?> linkedBinding = ((LinkedBindingImpl<?>) binding).getLinkedKey();
       return isEagerSingleton(injector, injector.getBinding(linkedBinding), stage);
     }

     return false;
   }

   /** {@link Injector} exposed to users in {@link Stage#TOOL}. */
   static class ToolStageInjector implements Injector {
     private final Injector delegateInjector;

     ToolStageInjector(Injector delegateInjector) {
       this.delegateInjector = delegateInjector;
     }
     public void injectMembers(Object o) {
       throw new UnsupportedOperationException(
         "Injector.injectMembers(Object) is not supported in Stage.TOOL");
     }
     public Map<Key<?>, Binding<?>> getBindings() {
       return this.delegateInjector.getBindings();
     }
     public Map<Key<?>, Binding<?>> getAllBindings() {
       return this.delegateInjector.getAllBindings();
     }
     public <T> Binding<T> getBinding(Key<T> key) {
       return this.delegateInjector.getBinding(key);
     }
     public <T> Binding<T> getBinding(Class<T> type) {
       return this.delegateInjector.getBinding(type);
     }
     public <T> Binding<T> getExistingBinding(Key<T> key) {
       return this.delegateInjector.getExistingBinding(key);
     }
     public <T> List<Binding<T>> findBindingsByType(TypeLiteral<T> type) {
       return this.delegateInjector.findBindingsByType(type);
     }
     public Injector getParent() {
       return delegateInjector.getParent();
     }
     public Injector createChildInjector(Iterable<? extends Module> modules) {
       return delegateInjector.createChildInjector(modules);
     }
     public Injector createChildInjector(Module... modules) {
       return delegateInjector.createChildInjector(modules);
     }
     public Map<Class<? extends Annotation>, Scope> getScopeBindings() {
       return delegateInjector.getScopeBindings();
     }
     public Set<TypeConverterBinding> getTypeConverterBindings() {
       return delegateInjector.getTypeConverterBindings();
     }
     public <T> Provider<T> getProvider(Key<T> key) {
       throw new UnsupportedOperationException(
         "Injector.getProvider(Key<T>) is not supported in Stage.TOOL");
     }
     public <T> Provider<T> getProvider(Class<T> type) {
       throw new UnsupportedOperationException(
         "Injector.getProvider(Class<T>) is not supported in Stage.TOOL");
     }
     public <T> MembersInjector<T> getMembersInjector(TypeLiteral<T> typeLiteral) {
       throw new UnsupportedOperationException(
         "Injector.getMembersInjector(TypeLiteral<T>) is not supported in Stage.TOOL");
     }
     public <T> MembersInjector<T> getMembersInjector(Class<T> type) {
       throw new UnsupportedOperationException(
         "Injector.getMembersInjector(Class<T>) is not supported in Stage.TOOL");
     }
     public <T> T getInstance(Key<T> key) {
       throw new UnsupportedOperationException(
         "Injector.getInstance(Key<T>) is not supported in Stage.TOOL");
     }
     public <T> T getInstance(Class<T> type) {
       throw new UnsupportedOperationException(
         "Injector.getInstance(Class<T>) is not supported in Stage.TOOL");
     }
   }
 }
	/**
	* Copyright (C) 2006 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 com.google.inject.internal;

	import com.google.common.collect.ImmutableList;
	import com.google.common.collect.Iterables;
	import com.google.inject.Binding;
	import com.google.inject.Injector;
	import com.google.inject.Key;
	import com.google.inject.MembersInjector;
	import com.google.inject.Module;
	import com.google.inject.Provider;
	import com.google.inject.Scope;
	import com.google.inject.Stage;
	import com.google.inject.TypeLiteral;
	import com.google.inject.internal.util.Stopwatch;
	import com.google.inject.spi.Dependency;
	import com.google.inject.spi.TypeConverterBinding;

	import java.lang.annotation.Annotation;
	import java.util.Collection;
	import java.util.List;
	import java.util.Map;
	import java.util.Set;

	/**
	* Builds a tree of injectors. This is a primary injector, plus child injectors needed for each
	* {@code Binder.newPrivateBinder() private environment}. The primary injector is not necessarily a
	* top-level injector.
	*
	* <p>Injector construction happens in two phases.
	* <ol>
	* <li>Static building. In this phase, we interpret commands, create bindings, and inspect
	* dependencies. During this phase, we hold a lock to ensure consistency with parent injectors.
	* No user code is executed in this phase.</li>
	* <li>Dynamic injection. In this phase, we call user code. We inject members that requested
	* injection. This may require user's objects be created and their providers be called. And we
	* create eager singletons. In this phase, user code may have started other threads. This phase
	* is not executed for injectors created using {@link Stage#TOOL the tool stage}</li>
	* </ol>
	*
	* @author crazybob@google.com (Bob Lee)
	* @author jessewilson@google.com (Jesse Wilson)
	*/
	public final class InternalInjectorCreator {

	private final Stopwatch stopwatch = new Stopwatch();
	private final Errors errors = new Errors();

	private final Initializer initializer = new Initializer();
	private final ProcessedBindingData bindingData;
	private final InjectionRequestProcessor injectionRequestProcessor;

	private final InjectorShell.Builder shellBuilder = new InjectorShell.Builder();
	private List<InjectorShell> shells;

	public InternalInjectorCreator() {
	injectionRequestProcessor = new InjectionRequestProcessor(errors, initializer);
	bindingData = new ProcessedBindingData();
	}

	public InternalInjectorCreator stage(Stage stage) {
	shellBuilder.stage(stage);
	return this;
	}

	/**
	* Sets the parent of the injector to-be-constructed. As a side effect, this sets this injector's
	* stage to the stage of {@code parent} and sets {@link #requireExplicitBindings()} if the parent
	* injector also required them.
	*/
	public InternalInjectorCreator parentInjector(InjectorImpl parent) {
	shellBuilder.parent(parent);
	return this;
	}

	public InternalInjectorCreator addModules(Iterable<? extends Module> modules) {
	shellBuilder.addModules(modules);
	return this;
	}

	public Injector build() {
	if (shellBuilder == null) {
	throw new AssertionError("Already built, builders are not reusable.");
	}

	// Synchronize while we're building up the bindings and other injector state. This ensures that
	// the JIT bindings in the parent injector don't change while we're being built
	synchronized (shellBuilder.lock()) {
	shells = shellBuilder.build(initializer, bindingData, stopwatch, errors);
	stopwatch.resetAndLog("Injector construction");

	initializeStatically();
	}

	injectDynamically();

	if (shellBuilder.getStage() == Stage.TOOL) {
	// wrap the primaryInjector in a ToolStageInjector
	// to prevent non-tool-friendy methods from being called.
	return new ToolStageInjector(primaryInjector());
	} else {
	return primaryInjector();
	}
	}

	/** Initialize and validate everything. */
	private void initializeStatically() {
	bindingData.initializeBindings();
	stopwatch.resetAndLog("Binding initialization");

	for (InjectorShell shell : shells) {
	shell.getInjector().index();
	}
	stopwatch.resetAndLog("Binding indexing");

	injectionRequestProcessor.process(shells);
	stopwatch.resetAndLog("Collecting injection requests");

	bindingData.runCreationListeners(errors);
	stopwatch.resetAndLog("Binding validation");

	injectionRequestProcessor.validate();
	stopwatch.resetAndLog("Static validation");

	initializer.validateOustandingInjections(errors);
	stopwatch.resetAndLog("Instance member validation");

	new LookupProcessor(errors).process(shells);
	for (InjectorShell shell : shells) {
	((DeferredLookups) shell.getInjector().lookups).initialize(errors);
	}
	stopwatch.resetAndLog("Provider verification");

	for (InjectorShell shell : shells) {
	if (!shell.getElements().isEmpty()) {
	throw new AssertionError("Failed to execute " + shell.getElements());
	}
	}

	errors.throwCreationExceptionIfErrorsExist();
	}

	/**
	* Returns the injector being constructed. This is not necessarily the root injector.
	*/
	private Injector primaryInjector() {
	return shells.get(0).getInjector();
	}

	/**
	* Inject everything that can be injected. This method is intentionally not synchronized. If we
	* locked while injecting members (ie. running user code), things would deadlock should the user
	* code build a just-in-time binding from another thread.
	*/
	private void injectDynamically() {
	injectionRequestProcessor.injectMembers();
	stopwatch.resetAndLog("Static member injection");

	initializer.injectAll(errors);
	stopwatch.resetAndLog("Instance injection");
	errors.throwCreationExceptionIfErrorsExist();

	if(shellBuilder.getStage() != Stage.TOOL) {
	for (InjectorShell shell : shells) {
	loadEagerSingletons(shell.getInjector(), shellBuilder.getStage(), errors);
	}
	stopwatch.resetAndLog("Preloading singletons");
	}
	errors.throwCreationExceptionIfErrorsExist();
	}

	/**
	* Loads eager singletons, or all singletons if we're in Stage.PRODUCTION. Bindings discovered
	* while we're binding these singletons are not be eager.
	*/
	void loadEagerSingletons(InjectorImpl injector, Stage stage, final Errors errors) {
	@SuppressWarnings("unchecked") // casting Collection<Binding> to Collection<BindingImpl> is safe
	Iterable<BindingImpl<?>> candidateBindings = ImmutableList.copyOf(Iterables.concat(
	(Collection) injector.state.getExplicitBindingsThisLevel().values(),
	injector.jitBindings.values()));
	for (final BindingImpl<?> binding : candidateBindings) {
	if (isEagerSingleton(injector, binding, stage)) {
	try {
	injector.callInContext(new ContextualCallable<Void>() {
	Dependency<?> dependency = Dependency.get(binding.getKey());
	public Void call(InternalContext context) {
	Dependency previous = context.pushDependency(dependency, binding.getSource());
	Errors errorsForBinding = errors.withSource(dependency);
	try {
	binding.getInternalFactory().get(errorsForBinding, context, dependency, false);
	} catch (ErrorsException e) {
	errorsForBinding.merge(e.getErrors());
	} finally {
	context.popStateAndSetDependency(previous);
	}

	return null;
	}
	});
	} catch (ErrorsException e) {
	throw new AssertionError();
	}
	}
	}
	}

	private boolean isEagerSingleton(InjectorImpl injector, BindingImpl<?> binding, Stage stage) {
	if (binding.getScoping().isEagerSingleton(stage)) {
	return true;
	}

	// handle a corner case where a child injector links to a binding in a parent injector, and
	// that binding is singleton. We won't catch this otherwise because we only iterate the child's
	// bindings.
	if (binding instanceof LinkedBindingImpl) {
	Key<?> linkedBinding = ((LinkedBindingImpl<?>) binding).getLinkedKey();
	return isEagerSingleton(injector, injector.getBinding(linkedBinding), stage);
	}

	return false;
	}

	/** {@link Injector} exposed to users in {@link Stage#TOOL}. */
	static class ToolStageInjector implements Injector {
	private final Injector delegateInjector;

	ToolStageInjector(Injector delegateInjector) {
	this.delegateInjector = delegateInjector;
	}
	public void injectMembers(Object o) {
	throw new UnsupportedOperationException(
	"Injector.injectMembers(Object) is not supported in Stage.TOOL");
	}
	public Map<Key<?>, Binding<?>> getBindings() {
	return this.delegateInjector.getBindings();
	}
	public Map<Key<?>, Binding<?>> getAllBindings() {
	return this.delegateInjector.getAllBindings();
	}
	public <T> Binding<T> getBinding(Key<T> key) {
	return this.delegateInjector.getBinding(key);
	}
	public <T> Binding<T> getBinding(Class<T> type) {
	return this.delegateInjector.getBinding(type);
	}
	public <T> Binding<T> getExistingBinding(Key<T> key) {
	return this.delegateInjector.getExistingBinding(key);
	}
	public <T> List<Binding<T>> findBindingsByType(TypeLiteral<T> type) {
	return this.delegateInjector.findBindingsByType(type);
	}
	public Injector getParent() {
	return delegateInjector.getParent();
	}
	public Injector createChildInjector(Iterable<? extends Module> modules) {
	return delegateInjector.createChildInjector(modules);
	}
	public Injector createChildInjector(Module... modules) {
	return delegateInjector.createChildInjector(modules);
	}
	public Map<Class<? extends Annotation>, Scope> getScopeBindings() {
	return delegateInjector.getScopeBindings();
	}
	public Set<TypeConverterBinding> getTypeConverterBindings() {
	return delegateInjector.getTypeConverterBindings();
	}
	public <T> Provider<T> getProvider(Key<T> key) {
	throw new UnsupportedOperationException(
	"Injector.getProvider(Key<T>) is not supported in Stage.TOOL");
	}
	public <T> Provider<T> getProvider(Class<T> type) {
	throw new UnsupportedOperationException(
	"Injector.getProvider(Class<T>) is not supported in Stage.TOOL");
	}
	public <T> MembersInjector<T> getMembersInjector(TypeLiteral<T> typeLiteral) {
	throw new UnsupportedOperationException(
	"Injector.getMembersInjector(TypeLiteral<T>) is not supported in Stage.TOOL");
	}
	public <T> MembersInjector<T> getMembersInjector(Class<T> type) {
	throw new UnsupportedOperationException(
	"Injector.getMembersInjector(Class<T>) is not supported in Stage.TOOL");
	}
	public <T> T getInstance(Key<T> key) {
	throw new UnsupportedOperationException(
	"Injector.getInstance(Key<T>) is not supported in Stage.TOOL");
	}
	public <T> T getInstance(Class<T> type) {
	throw new UnsupportedOperationException(
	"Injector.getInstance(Class<T>) is not supported in Stage.TOOL");
	}
	}
	}