google3/third_party/java_src/junit/main/java/org/junit/runner/Request.java - junit4 - Git at Google

 package org.junit.runner;

 import java.util.Comparator;

 import org.junit.internal.builders.AllDefaultPossibilitiesBuilder;
 import org.junit.internal.requests.ClassRequest;
 import org.junit.internal.requests.FilterRequest;
 import org.junit.internal.requests.OrderingRequest;
 import org.junit.internal.requests.SortingRequest;
 import org.junit.internal.runners.ErrorReportingRunner;
 import org.junit.runner.manipulation.Filter;
 import org.junit.runner.manipulation.Ordering;
 import org.junit.runners.model.InitializationError;

 /**
  * A <code>Request</code> is an abstract description of tests to be run. Older versions of
  * JUnit did not need such a concept--tests to be run were described either by classes containing
  * tests or a tree of {@link  org.junit.Test}s. However, we want to support filtering and sorting,
  * so we need a more abstract specification than the tests themselves and a richer
  * specification than just the classes.
  *
  * <p>The flow when JUnit runs tests is that a <code>Request</code> specifies some tests to be run -&gt;
  * a {@link org.junit.runner.Runner} is created for each class implied by the <code>Request</code> -&gt;
  * the {@link org.junit.runner.Runner} returns a detailed {@link org.junit.runner.Description}
  * which is a tree structure of the tests to be run.
  *
  * @since 4.0
  */
 public abstract class Request {
     /**
      * Create a <code>Request</code> that, when processed, will run a single test.
      * This is done by filtering out all other tests. This method is used to support rerunning
      * single tests.
      *
      * @param clazz the class of the test
      * @param methodName the name of the test
      * @return a <code>Request</code> that will cause a single test be run
      */
     public static Request method(Class<?> clazz, String methodName) {
         Description method = Description.createTestDescription(clazz, methodName);
         return Request.aClass(clazz).filterWith(method);
     }

     /**
      * Create a <code>Request</code> that, when processed, will run all the tests
      * in a class. The odd name is necessary because <code>class</code> is a reserved word.
      *
      * @param clazz the class containing the tests
      * @return a <code>Request</code> that will cause all tests in the class to be run
      */
     public static Request aClass(Class<?> clazz) {
         return new ClassRequest(clazz);
     }

     /**
      * Create a <code>Request</code> that, when processed, will run all the tests
      * in a class. If the class has a suite() method, it will be ignored.
      *
      * @param clazz the class containing the tests
      * @return a <code>Request</code> that will cause all tests in the class to be run
      */
     public static Request classWithoutSuiteMethod(Class<?> clazz) {
         return new ClassRequest(clazz, false);
     }

     /**
      * Create a <code>Request</code> that, when processed, will run all the tests
      * in a set of classes.
      *
      * @param computer Helps construct Runners from classes
      * @param classes the classes containing the tests
      * @return a <code>Request</code> that will cause all tests in the classes to be run
      */
     public static Request classes(Computer computer, Class<?>... classes) {
         try {
             AllDefaultPossibilitiesBuilder builder = new AllDefaultPossibilitiesBuilder();
             Runner suite = computer.getSuite(builder, classes);
             return runner(suite);
         } catch (InitializationError e) {
             return runner(new ErrorReportingRunner(e, classes));
         }
     }

     /**
      * Create a <code>Request</code> that, when processed, will run all the tests
      * in a set of classes with the default <code>Computer</code>.
      *
      * @param classes the classes containing the tests
      * @return a <code>Request</code> that will cause all tests in the classes to be run
      */
     public static Request classes(Class<?>... classes) {
         return classes(JUnitCore.defaultComputer(), classes);
     }


     /**
      * Creates a {@link Request} that, when processed, will report an error for the given
      * test class with the given cause.
      */
     public static Request errorReport(Class<?> klass, Throwable cause) {
         return runner(new ErrorReportingRunner(klass, cause));
     }

     /**
      * @param runner the runner to return
      * @return a <code>Request</code> that will run the given runner when invoked
      */
     public static Request runner(final Runner runner) {
         return new Request() {
             @Override
             public Runner getRunner() {
                 return runner;
             }
         };
     }

     /**
      * Returns a {@link Runner} for this Request
      *
      * @return corresponding {@link Runner} for this Request
      */
     public abstract Runner getRunner();

     /**
      * Returns a Request that only contains those tests that should run when
      * <code>filter</code> is applied
      *
      * @param filter The {@link Filter} to apply to this Request
      * @return the filtered Request
      */
     public Request filterWith(Filter filter) {
         return new FilterRequest(this, filter);
     }

     /**
      * Returns a Request that only runs tests whose {@link Description}
      * matches the given description.
      *
      * <p>Returns an empty {@code Request} if {@code desiredDescription} is not a single test and filters all but the single
      * test if {@code desiredDescription} is a single test.</p>
      *
      * @param desiredDescription {@code Description} of those tests that should be run
      * @return the filtered Request
      */
     public Request filterWith(Description desiredDescription) {
         return filterWith(Filter.matchMethodDescription(desiredDescription));
     }

     /**
      * Returns a Request whose Tests can be run in a certain order, defined by
      * <code>comparator</code>
      * <p>
      * For example, here is code to run a test suite in alphabetical order:
      * <pre>
      * private static Comparator&lt;Description&gt; forward() {
      *   return new Comparator&lt;Description&gt;() {
      *     public int compare(Description o1, Description o2) {
      *       return o1.getDisplayName().compareTo(o2.getDisplayName());
      *     }
      *   };
      * }
      *
      * public static main() {
      *   new JUnitCore().run(Request.aClass(AllTests.class).sortWith(forward()));
      * }
      * </pre>
      *
      * @param comparator definition of the order of the tests in this Request
      * @return a Request with ordered Tests
      */
     public Request sortWith(Comparator<Description> comparator) {
         return new SortingRequest(this, comparator);
     }

     /**
      * Returns a Request whose Tests can be run in a certain order, defined by
      * <code>ordering</code>
      * <p>
      * For example, here is code to run a test suite in reverse order:
      * <pre>
      * private static Ordering reverse() {
      *   return new Ordering() {
      *     public List&lt;Description&gt; orderItems(Collection&lt;Description&gt; descriptions) {
      *       List&lt;Description&gt; ordered = new ArrayList&lt;&gt;(descriptions);
      *       Collections.reverse(ordered);
      *       return ordered;
      *     }
      *   }
      * }
      *
      * public static main() {
      *   new JUnitCore().run(Request.aClass(AllTests.class).orderWith(reverse()));
      * }
      * </pre>
      *
      * @return a Request with ordered Tests
      * @since 4.13
      */
     public Request orderWith(Ordering ordering) {
         return new OrderingRequest(this, ordering);
     }
 }
	package org.junit.runner;

	import java.util.Comparator;

	import org.junit.internal.builders.AllDefaultPossibilitiesBuilder;
	import org.junit.internal.requests.ClassRequest;
	import org.junit.internal.requests.FilterRequest;
	import org.junit.internal.requests.OrderingRequest;
	import org.junit.internal.requests.SortingRequest;
	import org.junit.internal.runners.ErrorReportingRunner;
	import org.junit.runner.manipulation.Filter;
	import org.junit.runner.manipulation.Ordering;
	import org.junit.runners.model.InitializationError;

	/**
	* A <code>Request</code> is an abstract description of tests to be run. Older versions of
	* JUnit did not need such a concept--tests to be run were described either by classes containing
	* tests or a tree of {@link org.junit.Test}s. However, we want to support filtering and sorting,
	* so we need a more abstract specification than the tests themselves and a richer
	* specification than just the classes.
	*
	* <p>The flow when JUnit runs tests is that a <code>Request</code> specifies some tests to be run ->
	* a {@link org.junit.runner.Runner} is created for each class implied by the <code>Request</code> ->
	* the {@link org.junit.runner.Runner} returns a detailed {@link org.junit.runner.Description}
	* which is a tree structure of the tests to be run.
	*
	* @since 4.0
	*/
	public abstract class Request {
	/**
	* Create a <code>Request</code> that, when processed, will run a single test.
	* This is done by filtering out all other tests. This method is used to support rerunning
	* single tests.
	*
	* @param clazz the class of the test
	* @param methodName the name of the test
	* @return a <code>Request</code> that will cause a single test be run
	*/
	public static Request method(Class<?> clazz, String methodName) {
	Description method = Description.createTestDescription(clazz, methodName);
	return Request.aClass(clazz).filterWith(method);
	}

	/**
	* Create a <code>Request</code> that, when processed, will run all the tests
	* in a class. The odd name is necessary because <code>class</code> is a reserved word.
	*
	* @param clazz the class containing the tests
	* @return a <code>Request</code> that will cause all tests in the class to be run
	*/
	public static Request aClass(Class<?> clazz) {
	return new ClassRequest(clazz);
	}

	/**
	* Create a <code>Request</code> that, when processed, will run all the tests
	* in a class. If the class has a suite() method, it will be ignored.
	*
	* @param clazz the class containing the tests
	* @return a <code>Request</code> that will cause all tests in the class to be run
	*/
	public static Request classWithoutSuiteMethod(Class<?> clazz) {
	return new ClassRequest(clazz, false);
	}

	/**
	* Create a <code>Request</code> that, when processed, will run all the tests
	* in a set of classes.
	*
	* @param computer Helps construct Runners from classes
	* @param classes the classes containing the tests
	* @return a <code>Request</code> that will cause all tests in the classes to be run
	*/
	public static Request classes(Computer computer, Class<?>... classes) {
	try {
	AllDefaultPossibilitiesBuilder builder = new AllDefaultPossibilitiesBuilder();
	Runner suite = computer.getSuite(builder, classes);
	return runner(suite);
	} catch (InitializationError e) {
	return runner(new ErrorReportingRunner(e, classes));
	}
	}

	/**
	* Create a <code>Request</code> that, when processed, will run all the tests
	* in a set of classes with the default <code>Computer</code>.
	*
	* @param classes the classes containing the tests
	* @return a <code>Request</code> that will cause all tests in the classes to be run
	*/
	public static Request classes(Class<?>... classes) {
	return classes(JUnitCore.defaultComputer(), classes);
	}


	/**
	* Creates a {@link Request} that, when processed, will report an error for the given
	* test class with the given cause.
	*/
	public static Request errorReport(Class<?> klass, Throwable cause) {
	return runner(new ErrorReportingRunner(klass, cause));
	}

	/**
	* @param runner the runner to return
	* @return a <code>Request</code> that will run the given runner when invoked
	*/
	public static Request runner(final Runner runner) {
	return new Request() {
	@Override
	public Runner getRunner() {
	return runner;
	}
	};
	}

	/**
	* Returns a {@link Runner} for this Request
	*
	* @return corresponding {@link Runner} for this Request
	*/
	public abstract Runner getRunner();

	/**
	* Returns a Request that only contains those tests that should run when
	* <code>filter</code> is applied
	*
	* @param filter The {@link Filter} to apply to this Request
	* @return the filtered Request
	*/
	public Request filterWith(Filter filter) {
	return new FilterRequest(this, filter);
	}

	/**
	* Returns a Request that only runs tests whose {@link Description}
	* matches the given description.
	*
	* <p>Returns an empty {@code Request} if {@code desiredDescription} is not a single test and filters all but the single
	* test if {@code desiredDescription} is a single test.</p>
	*
	* @param desiredDescription {@code Description} of those tests that should be run
	* @return the filtered Request
	*/
	public Request filterWith(Description desiredDescription) {
	return filterWith(Filter.matchMethodDescription(desiredDescription));
	}

	/**
	* Returns a Request whose Tests can be run in a certain order, defined by
	* <code>comparator</code>
	* <p>
	* For example, here is code to run a test suite in alphabetical order:
	* <pre>
	* private static Comparator<Description> forward() {
	* return new Comparator<Description>() {
	* public int compare(Description o1, Description o2) {
	* return o1.getDisplayName().compareTo(o2.getDisplayName());
	* }
	* };
	* }
	*
	* public static main() {
	* new JUnitCore().run(Request.aClass(AllTests.class).sortWith(forward()));
	* }
	* </pre>
	*
	* @param comparator definition of the order of the tests in this Request
	* @return a Request with ordered Tests
	*/
	public Request sortWith(Comparator<Description> comparator) {
	return new SortingRequest(this, comparator);
	}

	/**
	* Returns a Request whose Tests can be run in a certain order, defined by
	* <code>ordering</code>
	* <p>
	* For example, here is code to run a test suite in reverse order:
	* <pre>
	* private static Ordering reverse() {
	* return new Ordering() {
	* public List<Description> orderItems(Collection<Description> descriptions) {
	* List<Description> ordered = new ArrayList<>(descriptions);
	* Collections.reverse(ordered);
	* return ordered;
	* }
	* }
	* }
	*
	* public static main() {
	* new JUnitCore().run(Request.aClass(AllTests.class).orderWith(reverse()));
	* }
	* </pre>
	*
	* @return a Request with ordered Tests
	* @since 4.13
	*/
	public Request orderWith(Ordering ordering) {
	return new OrderingRequest(this, ordering);
	}
	}