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/*
 * Copyright 2001-2013 Artima, 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.
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package org.scalatest

import scala.util.Random
import org.scalatest.events.Event
import org.scalatest.time.{Seconds, Span}
import org.scalatest.tools.TestSortingReporter

import scala.util.{Failure, Success}

/**
 * Trait that causes tests to be run in pseudo-random order.
 *
 * 

* Although the tests are run in pseudo-random order, events will be fired in the “normal” order for the Suite * that mixes in this trait, as determined by runTests. *

* *

* The purpose of this trait is to reduce the likelihood of unintentional order dependencies between tests * in the same test class. *

* * @author Chee Seng */ trait RandomTestOrder extends OneInstancePerTest { this: Suite => private[scalatest] case class DeferredSuiteRun(suite: Suite with RandomTestOrder, testName: String, status: ScalaTestStatefulStatus) private val suiteRunQueue = new ConcurrentLinkedQueue[DeferredSuiteRun] /** * Modifies the behavior of super.runTest to facilitate pseudo-random order test execution. * *

* If runTestInNewInstance is false, this is the test-specific (distributed) * instance, so this trait's implementation of this method simply invokes super.runTest, * passing along the same testName and args object, delegating responsibility * for actually running the test to the super implementation. After super.runTest returns * (or completes abruptly by throwing an exception), it notifies args.distributedTestSorter * that it has completed running the test by invoking completedTest on it, * passing in the testName. *

* *

* If runTestInNewInstance is true, it notifies args.distributedTestSorter * that it is distributing the test by invoking distributingTest on it, * passing in the testName. The test execution will be deferred to be run in pseudo-random order later. *

* *

* Note: this trait's implementation of this method is final to ensure that * any other desired runTest behavior is executed by the same thread that executes * the test. For example, if you were to mix in BeforeAndAfter after * RandomTestOrder, the before and after code would * be executed by the general instance on the main test thread, rather than by the test-specific * instance on the distributed thread. Marking this method final ensures that * traits like BeforeAndAfter can only be &lquot;super&rquot; to RandomTestOrder * and, therefore, that its before and after code will be run * by the same distributed thread that runs the test itself. *

* * @param testName the name of one test to execute. * @param args the Args for this run * @return a Status object that indicates when the test started by this method has completed, and whether or not it failed . */ final protected abstract override def runTest(testName: String, args: Args): Status = { if (args.runTestInNewInstance) { // Tell the TSR that the test is being distributed for (sorter <- args.distributedTestSorter) sorter.distributingTest(testName) // defer the suite execution val status = new ScalaTestStatefulStatus suiteRunQueue.add(DeferredSuiteRun(newInstance, testName, status)) status } else { // In test-specific (distributed) instance, so just run the test. (RTINI was // removed by OIPT's implementation of runTests.) try { super.runTest(testName, args) } finally { // Tell the TSR that the distributed test has completed for (sorter <- args.distributedTestSorter) sorter.completedTest(testName) } } } /** * Construct a new instance of this Suite. * *

* This trait's implementation of runTests invokes this method to create * a new instance of this Suite for each test. This trait's implementation * of this method uses reflection to call this.getClass.newInstance. This * approach will succeed only if this Suite's class has a public, no-arg * constructor. In most cases this is likely to be true, because to be instantiated * by ScalaTest's Runner a Suite needs a public, no-arg * constructor. However, this will not be true of any Suite defined as * an inner class of another class or trait, because every constructor of an inner * class type takes a reference to the enclosing instance. In such cases, and in * cases where a Suite class is explicitly defined without a public, * no-arg constructor, you will need to override this method to construct a new * instance of the Suite in some other way. *

* *

* Here's an example of how you could override newInstance to construct * a new instance of an inner class: *

* *
   * import org.scalatest._
   *
   * class Outer {
   *   class InnerSuite extends Suite with RandomTestOrder {
   *     def testOne() {}
   *     def testTwo() {}
   *     override def newInstance = new InnerSuite
   *   }
   * }
   * 
*/ override def newInstance: Suite with RandomTestOrder = this.getClass.newInstance.asInstanceOf[Suite with RandomTestOrder] /** * A maximum amount of time to wait for out-of-order events generated by running the tests * of this Suite in parallel while sorting the events back into a more * user-friendly, sequential order. * *

* The default implementation of this method returns the value specified via -T to * Suite, or 2 seconds, if no -T was supplied. *

* * @return a maximum amount of time to wait for events while resorting them into sequential order */ protected def sortingTimeout: Span = Span(Suite.defaultTestSortingReporterTimeoutInSeconds, Seconds) /** * Modifies the behavior of super.run to facilitate pseudo-random order test execution. * *

* If both testName and args.distributedTestSorter are defined, * this trait's implementation of this method will create a "test-specific reporter" whose apply * method will invoke the apply method of the DistributedTestSorter, which takes * a test name as well as the event. It will then invoke super.run passing along * the same testName and an Args object that is the same except with the * original reporter replaced by the test-specific reporter. *

* *

* If either testName or args.distributedTestSorter is empty, it will create TestSortingReporter * and override args's reporter and distributedTestSorter with it. It then call super.run * to delegate the run to super's implementation, and to collect all children suites in suiteRunQueue. After super.run * completed, it then shuffle the order of the suites collected in suiteRunQueue and run them. *

* * @param testName an optional name of one test to execute. If None, all relevant tests should be executed. * I.e., None acts like a wildcard that means execute all relevant tests in this Suite. * @param args the Args for this run * @return a Status object that indicates when all tests and nested suites started by this method have completed, and whether or not a failure occurred. */ abstract override def run(testName: Option[String], args: Args): Status = { (testName, args.distributedTestSorter) match { case (Some(name), Some(sorter)) => super.run(testName, args.copy(reporter = createTestSpecificReporter(sorter, name))) case _ => val testSortingReporter = new TestSortingReporter(suiteId, args.reporter, sortingTimeout, expectedTestCount(args.filter), args.distributedSuiteSorter, System.err) val newArgs = args.copy(reporter = testSortingReporter, distributedTestSorter = Some(testSortingReporter)) val status = super.run(testName, newArgs) // Random shuffle the deferred suite list, before executing them. Random.shuffle(suiteRunQueue.asScala.toList).map { case DeferredSuiteRun(suite, testName, statefulStatus) => val status = suite.run(Some(testName), newArgs.copy(runTestInNewInstance = true)) status.whenCompleted { tri => tri match { case Success(result) => if (!result) statefulStatus.setFailed() case Failure(ex) => statefulStatus.setFailedWith(ex) } statefulStatus.setCompleted() } } status } } private[scalatest] def createTestSpecificReporter(testSorter: DistributedTestSorter, testName: String): Reporter = { class TestSpecificReporter(testSorter: DistributedTestSorter, testName: String) extends Reporter { def apply(event: Event): Unit = { testSorter.apply(testName, event) } } new TestSpecificReporter(testSorter, testName) } }




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