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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.
 */
package org.scalatest

import org.scalactic.Requirements._

/**
 * Trait that facilitates a style of testing in which each test is run in its own instance
 * of the suite class to isolate each test from the side effects of the other tests in the
 * suite.
 *
 * 
* Recommended Usage: Trait OneInstancePerTest is intended primarily to serve as a supertrait for * ParallelTestExecution and the path traits, to * facilitate porting JUnit tests to ScalaTest, and to make it easy for users who prefer JUnit's approach to isolation to obtain similar * behavior in ScalaTest. *
* *

* If you mix this trait into a Suite, you can initialize shared reassignable * fixture variables as well as shared mutable fixture objects in the constructor of the * class. Because each test will run in its own instance of the class, each test will * get a fresh copy of the instance variables. This is the approach to test isolation taken, * for example, by the JUnit framework. OneInstancePerTest can, therefore, * be handy when porting JUnit tests to ScalaTest. *

* *

* Here's an example of OneInstancePerTest being used in a FunSuite: *

* *
 * import org.scalatest.FunSuite
 * import org.scalatest.OneInstancePerTest
 * import collection.mutable.ListBuffer
 * 
 * class MySuite extends FunSuite with OneInstancePerTest {
 * 
 *   val builder = new StringBuilder("ScalaTest is ")
 *   val buffer = new ListBuffer[String]
 * 
 *   test("easy") {
 *     builder.append("easy!")
 *     assert(builder.toString === "ScalaTest is easy!")
 *     assert(buffer.isEmpty)
 *     buffer += "sweet"
 *   }
 * 
 *   test("fun") {
 *     builder.append("fun!")
 *     assert(builder.toString === "ScalaTest is fun!")
 *     assert(buffer.isEmpty)
 *   }
 * }
 * 
* *

* OneInstancePerTest is supertrait to ParallelTestExecution, in which * running each test in its own instance is intended to make it easier to write suites of tests that run in parallel (by reducing the likelihood * of concurrency bugs in those suites.) OneInstancePerTest is also supertrait to the path traits, * path.FunSpec and path.FreeSpec, to make it obvious * these traits run each test in a new, isolated instance. *

* *

* For the details on how OneInstancePerTest works, see the documentation for methods runTests and runTest, * which this trait overrides. *

* * @author Bill Venners */ trait OneInstancePerTest extends SuiteMixin { this: Suite => /** * Modifies the behavior of super.runTest to facilitate running each test in its * own instance of this Suite's class. * *

* This trait's implementation of runTest * uses the runTestInNewInstance flag of the passed Args object to determine whether this instance is the general instance responsible * for running all tests in the suite (runTestInNewInstance is true), or a test-specific instance * responsible for running just one test (runTestInNewInstance is false). * Note that these Boolean values are reverse those used by runTests, because runTests always inverts the Boolean value * of runTestInNewInstance when invoking runTest. *

* *

* If runTestInNewInstance is true, this trait's implementation of this method creates a new instance of this class (by * invoking newInstance on itself), then invokes run on the new instance, * passing in testName, wrapped in a Some, and args unchanged. * (I.e., the Args object passed to runTest is forwarded as is to run * on the new instance, including with runTestInNewInstance set.) * If the invocation of either newInstance on this * Suite or run on a newly created instance of this Suite * completes abruptly with an exception, then this runTests method will complete * abruptly with the same exception. *

* *

* If runTestInNewInstance is false, this trait's implementation of this method simply invokes super.runTest, * passing along the same testName and args objects. *

* * @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 . */ protected abstract override def runTest(testName: String, args: Args): Status = { if (args.runTestInNewInstance) { // In initial instance, so create a new test-specific instance for this test and invoke run on it. val oneInstance = newInstance oneInstance.run(Some(testName), args) } else // Therefore, in test-specific instance, so run the test. super.runTest(testName, args) } /** * Modifies the behavior of super.runTests to facilitate running each test in its * own instance of this Suite's class. * *

* This trait's implementation of runTest * uses the runTestInNewInstance flag of the passed Args object to determine whether this instance is the general instance responsible * for running all tests in the suite (runTestInNewInstance is false), or a test-specific instance * responsible for running just one test (runTestInNewInstance is true). Note that these Boolean values are * reverse those used by runTest, because runTests always inverts the Boolean value of * runTestInNewInstance when invoking runTest. *

* *

* If runTestInNewInstance is false, this trait's implementation of this method will invoke * super.runTests, passing along testName and args, but with the * runTestInNewInstance flag set to true. By setting runTestInNewInstance to * true, runTests is telling runTest to create a new instance to run each test. *

* *

* If runTestInNewInstance is true, this trait's implementation of this method will invoke * runTest directly, passing in testName.get and the args object, with * the runTestInNewInstance flag set to false. By setting runTestInNewInstance to * false, runTests is telling runTest that this is the test-specific instance, * so it should just run the specified test. *

* * @param testName an optional name of one test to run. If None, all relevant tests should be run. * I.e., None acts like a wildcard that means run all relevant tests in this Suite. * @param args the Args for this run * @return a Status object that indicates when all tests started by this method have completed, and whether or not a failure occurred. * * @throws NullPointerException if any of the passed parameters is null. * @throws IllegalArgumentException if testName is defined, but no test with the specified test name * exists in this Suite, or if runTestInNewInstance is true, but testName * is empty. */ protected abstract override def runTests(testName: Option[String], args: Args): Status = { requireNonNull(testName, args) if (args.runTestInNewInstance) { if (testName.isEmpty) throw new IllegalArgumentException("args.runTestInNewInstance was true, but testName was not defined") // In test-specific instance, so run the test. (We are removing RTINI // so that runTest will realize it is in the test-specific instance.) runTest(testName.get, args.copy(runTestInNewInstance = false)) } else { // In initial instance, so set the RTINI flag and call super.runTests, which // will go through any scopes and call runTest as usual. If this method was called // via super.runTests from PTE, the TestSortingReporter and WrappedDistributor // will already be in place. super.runTests(testName, args.copy(runTestInNewInstance = true)) } } /* Just read through the code again to refresh my memory of how the runTestInNewInstance flag works. The reason I was a bit confused is it kind of means the opposite thing in runTests as runTest. In runTests, it will initially be not set, i.e., the first time someone calls into run. OIPT.runTests will notice this and SET it, as a note to self, and call super.runTests. super.runTests will do its thing, including executing scopes where need be, and call runTest. That will end up back in this trait's runTest, which will look and see the flag is set. So that means DO run it in a new instance. This traits' runTest will create that new instance and call run, leaving the flag set. Reason is that in the test-specific instance, this same code will execute, but this time, the flag will be set already on entry into runTests. So this time, runTests, knows this is the test-specific instance, so it just direclty calls runTest, but sets the flag to false. In runTest, now the flag is false, so it just executes the test in this test-specific instance. So in short, This instance is the general instance iff: - In runTests, the runTestInNewInstance flag is false on entry - In runTest, if the runTestInNewInstance flag is true on entry This is the test-specific instance iff: - In runTests, the runTestInNewInstance flag is true on entry - In runTest, if the runTestInNewInstance flag is false on entry This is why in BeforeAndAfterAll, we only execute the beforeAll/afterAll code if the flag is false, because we only want to do that from the general instance. This is done from run itself. In BeforeAndAfter and BeforeAndAfterEach, we want to only execute beforeEach/afterEach code in the test-specific instance. This is done from runTest, so that means we should only do it if the flag is false. */ /** * 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.Suite
   *
   * class Outer {
   *   class InnerSuite extends Suite with OneInstancePerTest {
   *     def testOne() {}
   *     def testTwo() {}
   *     override def newInstance = new InnerSuite
   *   }
   * }
   * 
*/ // SKIP-SCALATESTJS,NATIVE-START def newInstance: Suite with OneInstancePerTest = this.getClass.newInstance.asInstanceOf[Suite with OneInstancePerTest] // SKIP-SCALATESTJS,NATIVE-END //SCALATESTJS,NATIVE-ONLY def newInstance: Suite with OneInstancePerTest }




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