src/main/java/com/google/devtools/build/lib/packages/AspectClass.java - bazel - Git at Google

 // Copyright 2015 The Bazel Authors. All rights reserved.
 //
 // 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.devtools.build.lib.packages;


 /**
  * A class of aspects.
  *
  * <p>An aspect allows a rule to create actions in its dependencies, without their knowledge. It can
  * be viewed as the ability to attach shadow targets to transitive dependencies or a way to run
  * visitations of certain parts of the transitive closure of a rule in such a way that can be cached
  * (even partially) and reused between different configured targets requiring the same aspect. Some
  * examples where aspects are useful:
  *
  * <ul>
  *   <li>Converting the .jar files in the transitive closure of an Android binary to dexes
  *   <li>Emitting Java sources for a <code>proto_library</code> and the messages it depends on
  *   <li>Collecting all the dependencies of a rule to make sure that it does not contain a forbidden
  *       one
  * </ul>
  *
  * <p>When a configured target requests that an aspect be attached to one of its dependencies, the
  * {@link com.google.devtools.build.lib.analysis.TransitiveInfoProvider}s generated by that aspects
  * are merged with those of the actual dependency, that is, {@link
  * com.google.devtools.build.lib.analysis.RuleContext#getPrerequisite( String,
  * RuleConfiguredTarget.Mode)} will contain the transitive info providers produced both by the
  * dependency and the aspects that are attached to it.
  *
  * <p>Configured targets can specify which aspects should be attached to some of their dependencies
  * by specifying this in their {@link com.google.devtools.build.lib.analysis.RuleDefinition}: each
  * attribute can have a list of aspects to be applied to the rules in that attribute and each aspect
  * can specify which {@link com.google.devtools.build.lib.analysis.TransitiveInfoProvider}s it needs
  * on a rule so that it can do meaningful work (for example, dexing only makes sense for configured
  * targets that produce Java code).
  *
  * <p>Aspects can be defined natively, in Java ({@link NativeAspectClass}) or in Skylark ({@link
  * SkylarkAspectClass}).
  *
  * <p>Bazel propagates aspects through a multistage process. The general pipeline is as follows:
  *
  * <pre>
  *  {@link AspectClass}
  *   |
  *   V
  *  {@code AspectDescriptor} <- {@link AspectParameters}
  *   \
  *   V
  *  {@link Aspect} <- {@link AspectDefinition} (might require loading Skylark files)
  *   |
  *   V
  *  {@code ConfiguredAspect}  <- {@code ConfiguredTarget}
  *  </pre>
  *
  * <ul>
  *   <li>{@link AspectClass} is a moniker for "user" definition of the aspect, be it a native aspect
  *       or a Skylark aspect. It contains either a reference to the native class implementing the
  *       aspect or the location of the Skylark definition of the aspect in the source tree, i.e.
  *       label of .bzl file + symbol name.
  *   <li>{@link AspectParameters} is a (key,value) pair list that can be used to parameterize aspect
  *       classes
  *   <li>{@link AspectDescriptor} is a pair of {@code AspectClass} and {@link AspectParameters}. It
  *       uniquely identifies the aspect and can be used in SkyKeys.
  *   <li>{@link AspectDefinition} is a class encapsulating the aspect definition (what attributes
  *       aspoect has, and along which dependencies does it propagate.
  *   <li>{@link Aspect} is a fully instantiated instance of an Aspect after it is loaded. Getting an
  *       {@code Aspect} from {@code AspectDescriptor} for Skylark aspects requires adding a Skyframe
  *       dependency.
  *   <li>{@link com.google.devtools.build.lib.analysis.ConfiguredAspect} represents a result of
  *       application of an {@link Aspect} to a given {@link
  *       com.google.devtools.build.lib.analysis.ConfiguredTarget}.
  * </ul>
  *
  * {@link AspectDescriptor}, or in general, a tuple of ({@link AspectClass}, {@link
  * AspectParameters}) is an identifier that should be used in SkyKeys or in other contexts that need
  * equality for aspects. See also {@link com.google.devtools.build.lib.skyframe.AspectFunction} for
  * details on Skyframe treatment of Aspects.
  *
  * @see com.google.devtools.build.lib.analysis.RuleConfiguredTargetFactory
  * @see com.google.devtools.build.lib.skyframe.AspectFunction
  */
 public interface AspectClass {
   /**
    * Returns an aspect name.
    */
   String getName();

   default String getKey() {
     return getName();
   }
 }
	// Copyright 2015 The Bazel Authors. All rights reserved.
	//
	// 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.devtools.build.lib.packages;


	/**
	* A class of aspects.
	*
	* <p>An aspect allows a rule to create actions in its dependencies, without their knowledge. It can
	* be viewed as the ability to attach shadow targets to transitive dependencies or a way to run
	* visitations of certain parts of the transitive closure of a rule in such a way that can be cached
	* (even partially) and reused between different configured targets requiring the same aspect. Some
	* examples where aspects are useful:
	*
	* <ul>
	* <li>Converting the .jar files in the transitive closure of an Android binary to dexes
	* <li>Emitting Java sources for a <code>proto_library</code> and the messages it depends on
	* <li>Collecting all the dependencies of a rule to make sure that it does not contain a forbidden
	* one
	* </ul>
	*
	* <p>When a configured target requests that an aspect be attached to one of its dependencies, the
	* {@link com.google.devtools.build.lib.analysis.TransitiveInfoProvider}s generated by that aspects
	* are merged with those of the actual dependency, that is, {@link
	* com.google.devtools.build.lib.analysis.RuleContext#getPrerequisite( String,
	* RuleConfiguredTarget.Mode)} will contain the transitive info providers produced both by the
	* dependency and the aspects that are attached to it.
	*
	* <p>Configured targets can specify which aspects should be attached to some of their dependencies
	* by specifying this in their {@link com.google.devtools.build.lib.analysis.RuleDefinition}: each
	* attribute can have a list of aspects to be applied to the rules in that attribute and each aspect
	* can specify which {@link com.google.devtools.build.lib.analysis.TransitiveInfoProvider}s it needs
	* on a rule so that it can do meaningful work (for example, dexing only makes sense for configured
	* targets that produce Java code).
	*
	* <p>Aspects can be defined natively, in Java ({@link NativeAspectClass}) or in Skylark ({@link
	* SkylarkAspectClass}).
	*
	* <p>Bazel propagates aspects through a multistage process. The general pipeline is as follows:
	*
	* <pre>
	* {@link AspectClass}
	* \|
	* V
	* {@code AspectDescriptor} <- {@link AspectParameters}
	* \
	* V
	* {@link Aspect} <- {@link AspectDefinition} (might require loading Skylark files)
	* \|
	* V
	* {@code ConfiguredAspect} <- {@code ConfiguredTarget}
	* </pre>
	*
	* <ul>
	* <li>{@link AspectClass} is a moniker for "user" definition of the aspect, be it a native aspect
	* or a Skylark aspect. It contains either a reference to the native class implementing the
	* aspect or the location of the Skylark definition of the aspect in the source tree, i.e.
	* label of .bzl file + symbol name.
	* <li>{@link AspectParameters} is a (key,value) pair list that can be used to parameterize aspect
	* classes
	* <li>{@link AspectDescriptor} is a pair of {@code AspectClass} and {@link AspectParameters}. It
	* uniquely identifies the aspect and can be used in SkyKeys.
	* <li>{@link AspectDefinition} is a class encapsulating the aspect definition (what attributes
	* aspoect has, and along which dependencies does it propagate.
	* <li>{@link Aspect} is a fully instantiated instance of an Aspect after it is loaded. Getting an
	* {@code Aspect} from {@code AspectDescriptor} for Skylark aspects requires adding a Skyframe
	* dependency.
	* <li>{@link com.google.devtools.build.lib.analysis.ConfiguredAspect} represents a result of
	* application of an {@link Aspect} to a given {@link
	* com.google.devtools.build.lib.analysis.ConfiguredTarget}.
	* </ul>
	*
	* {@link AspectDescriptor}, or in general, a tuple of ({@link AspectClass}, {@link
	* AspectParameters}) is an identifier that should be used in SkyKeys or in other contexts that need
	* equality for aspects. See also {@link com.google.devtools.build.lib.skyframe.AspectFunction} for
	* details on Skyframe treatment of Aspects.
	*
	* @see com.google.devtools.build.lib.analysis.RuleConfiguredTargetFactory
	* @see com.google.devtools.build.lib.skyframe.AspectFunction
	*/
	public interface AspectClass {
	/**
	* Returns an aspect name.
	*/
	String getName();

	default String getKey() {
	return getName();
	}
	}