org.scalatest.junit.JUnit3Suite.scala Maven / Gradle / Ivy
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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.junit
import collection.immutable.TreeSet
import java.lang.reflect.{Method, Modifier}
import org.scalatest._
import _root_.junit.framework.TestCase
import _root_.junit.framework.TestResult
import _root_.junit.framework.TestSuite
import _root_.junit.framework.TestListener
import _root_.junit.framework.Test
import _root_.junit.framework.AssertionFailedError
import scala.collection.mutable.HashSet
import org.scalatest.events.TestStarting
import org.scalatest.events.TestSucceeded
import org.scalatest.events.TestFailed
import org.scalatest.events.MotionToSuppress
import Suite.getIndentedTextForTest
import org.scalatest.events._
import exceptions._
import Suite.wrapReporterIfNecessary
/**
* A Suite
that is also a junit.framework.TestCase
.
*
*
* A JUnit3Suite
may be run by either JUnit 3 (such as JUnit 3.8) or ScalaTest's runner. You write it the way
* you write a JUnit 3 TestCase
. Tests are methods that start with test
, take no parameters, and
* have a Unit
return type. You manage fixtures with methods setUp
and tearDown
.
* Here's an example:
*
*
*
* import org.scalatest.junit.JUnit3Suite
* import scala.collection.mutable.ListBuffer
*
* class BlastFromThePastSuite extends JUnit3Suite {
*
* var sb: StringBuilder = _
* var lb: ListBuffer[String] = _
*
* override def setUp() {
* sb = new StringBuilder("ScalaTest is ")
* lb = new ListBuffer[String]
* }
*
* def testEasy() { // Uses JUnit-style assertions
* sb.append("easy!")
* assertEquals("ScalaTest is easy!", sb.toString)
* assertTrue(lb.isEmpty)
* lb += "sweet"
* }
*
* def testFun() { // Uses ScalaTest assertions
* sb.append("fun!")
* assert(sb.toString === "ScalaTest is fun!")
* assert(lb.isEmpty)
* }
* }
*
*
*
* You can use either JUnit's assertions, inherited from TestCase
, or ScalaTest's, inherited from AssertionsForJUnit
.
* You can also mix in ShouldMatchersForJUnit
or MustMatchersForJUnit
if you want to use ScalaTests's matchers DSL.
* Here's an example:
*
*
*
* import org.scalatest.junit.JUnit3Suite
* import org.scalatest.junit.MustMatchersForJUnit
* import scala.collection.mutable.ListBuffer
*
* class BlastFromThePastSuite extends JUnit3Suite with MustMatchersForJUnit {
*
* var stringBuilder: StringBuilder = _
* var listBuffer: ListBuffer[String] = _
*
* override def setUp() {
* stringBuilder = new StringBuilder("ScalaTest is ")
* listBuffer = new ListBuffer[String]
* }
*
* def testEasy() {
* stringBuilder.append("easy!")
* stringBuilder.toString must be ("ScalaTest is easy!")
* listBuffer must be ('empty)
* listBuffer += "sweet"
* }
*
* def testFun() {
* stringBuilder.append("fun!")
* stringBuilder.toString must be ("ScalaTest is fun!")
* listBuffer must be ('empty)
* }
* }
*
*
*
* The reason you would ordinarily want to mix in MustMatchersForJUnit
or ShouldMatchersForJUnit
rather than MustMatchers
* or ShouldMatchers
is that MustMatchersForJUnit
and ShouldMatchersForJUnit
throw
* junit.framework.AssertionFailedError
s, which JUnit 3 will report as failures, not errors.
*
*
*
* When writing JUnit 3 tests in Scala, you should keep in mind that JUnit 3 will not run tests that have a return type other than
* Unit
. Thus it is best to leave off the equals sign before the curly braces of the body of the test, like this:
*
*
*
* def testGoodIdea() { // result type will be Unit
* // ...
* }
*
*
*
* Instead of this:
*
*
*
* def testBadIdea() = { // result type will be inferred
* // ...
* }
*
*
*
* If the testBadIdea
method ends in an expression that has a result type other than Unit
, the Scala
* compiler will infer a result type to the testBadIdea
method to be the same non-Unit
type. As a "result,"
* JUnit 3 will not discover or run the testBadIdea
method at all.
*
*
*
* See also: Getting started with JUnit 3 and ScalaTest.
*
*
* @author Bill Venners
*/
class JUnit3Suite extends TestCase with Suite with AssertionsForJUnit { thisSuite =>
// This is volatile, because who knows what Thread JUnit will fire through this.
@volatile private var theTracker = new Tracker
/**
* Returns the set of test names that will be executed by JUnit when run
is invoked
* on an instance of this class, or the instance is passed directly to JUnit for running.
*
*
* The iterator obtained by invoking elements
on this
* returned Set
will produce the test names in their natural order, as determined by String
's
* compareTo
method. Nevertheless, this method is not consulted by JUnit when it
* runs the tests, and JUnit may run the tests in any order.
*
*/
override def testNames: Set[String] = {
def isTestMethod(m: Method) = {
val isInstanceMethod = !Modifier.isStatic(m.getModifiers())
// name must have at least 4 chars (minimum is "test")
val simpleName = m.getName
val firstFour = if (simpleName.length >= 4) simpleName.substring(0, 4) else ""
val paramTypes = m.getParameterTypes
val hasNoParams = paramTypes.length == 0
val hasVoidReturnType = m.getReturnType == Void.TYPE
// won't discover testNames because it has a non-Unit return type
isInstanceMethod && (firstFour == "test") && hasNoParams && hasVoidReturnType
}
val testNameArray =
for (m <- getClass.getMethods; if isTestMethod(m))
yield m.getName
TreeSet[String]() ++ testNameArray
}
/**
* Returns an empty Map
, because tags are not supported by JUnit 3.
*/
override def tags = Map()
/**
* Returns the number of tests expected to be run by JUnit when run
is invoked
* on this Suite
.
*
*
* If tagsToInclude
in the passed Filter
is defined, this class's
* implementation of this method returns 0. Else this class's implementation of this method
* returns the size of the set returned by testNames
on the current instance.
*
*/
override def expectedTestCount(filter: Filter) =
if (filter.tagsToInclude.isDefined) 0 else testNames.size
/**
* Throws UnsupportedOperationException
, because this method is unused by this
* class, given this class's run
method delegates to JUnit to run
* its tests.
*
*
* The main purpose of this method implementation is to render a compiler error an attempt
* to mix in a trait that overrides withFixture
. Because this
* trait does not actually use withFixture
, the attempt to mix
* in behavior would very likely not work.
*
*
*
* @param test the no-arg test function to run with a fixture
*/
override final protected def withFixture(test: NoArgTest): Outcome = {
throw new UnsupportedOperationException
}
/**
* Throws UnsupportedOperationException
, because this method is unused by this
* class, given this class's run
method delegates to JUnit to run
* its tests.
*
*
* The main purpose of this method implementation is to render a compiler error an attempt
* to mix in a trait that overrides runNestedSuites
. Because this
* trait does not actually use runNestedSuites
, the attempt to mix
* in behavior would very likely not work.
*
*
* @param args the Args
for this run
*
* @throws UnsupportedOperationException always.
*/
override final protected def runNestedSuites(args: Args): Status = {
throw new UnsupportedOperationException
}
/**
* Throws UnsupportedOperationException
, because this method is unused by this
* class, given this class's run
method delegates to JUnit to run
* its tests.
*
*
* The main purpose of this method implementation is to render a compiler error an attempt
* to mix in a trait that overrides runTests
. Because this
* trait does not actually use runTests
, the attempt to mix
* in behavior would very likely not work.
*
*
* @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
*
* @throws UnsupportedOperationException always.
*/
override protected final def runTests(testName: Option[String], args: Args): Status = {
throw new UnsupportedOperationException
}
/**
* Throws UnsupportedOperationException
, because this method is unused by this
* class, given this class's run
method delegates to JUnit to run
* its tests.
*
*
* The main purpose of this method implementation is to render a compiler error an attempt
* to mix in a trait that overrides runTest
. Because this
* trait does not actually use runTest
, the attempt to mix
* in behavior would very likely not work.
*
*
* @param testName the name of one test to run.
* @param args the Args
for this run
*
* @throws UnsupportedOperationException always.
*/
override protected final def runTest(testName: String, args: Args): Status = {
throw new UnsupportedOperationException
}
/**
* Overrides to use JUnit 3 to run the test(s).
*
* @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 and nested suites started by this method have completed, and whether or not a failure occurred.
*
*/
override def run(testName: Option[String], args: Args): Status = {
import args._
theTracker = tracker
val status = new ScalaTestStatefulStatus
if (!filter.tagsToInclude.isDefined) {
val testResult = new TestResult
testResult.addListener(new MyTestListener(wrapReporterIfNecessary(thisSuite, reporter), tracker, status))
testName match {
case None => new TestSuite(this.getClass).run(testResult)
case Some(tn) =>
if (!testNames.contains(tn))
throw new IllegalArgumentException(Resources("testNotFound", testName))
setName(tn)
run(testResult)
}
}
status.setCompleted()
status
}
/**
* Suite style name.
*
* @return JUnit3Suite
*/
final override val styleName: String = "JUnit3Suite"
final override def testDataFor(testName: String, theConfigMap: ConfigMap = ConfigMap.empty): TestData =
new TestData {
val configMap = theConfigMap
val name = testName
val scopes = Vector.empty
val text = testName
val tags = Set.empty[String]
}
}
private[scalatest] class MyTestListener(report: Reporter, tracker: Tracker, status: ScalaTestStatefulStatus) extends TestListener {
// TODO: worry about threading
private val failedTestsSet = scala.collection.mutable.Set[Test]()
private def getSuiteNameForTestCase(testCase: Test) =
testCase match {
case junit3Suite: JUnit3Suite => junit3Suite.suiteName
case _ => Suite.getSimpleNameOfAnObjectsClass(testCase) // Should never happen, but just in case
}
def getMessageGivenThrowable(throwable: Throwable, isAssertionFailedError: Boolean) =
if (throwable.getMessage == null)
"A JUnit3Suite test failed with an " + (if (isAssertionFailedError) "AssertionFailedError" else "exception") // Hopefully will never happen
else
throwable.getMessage
def getTopOfMethod(className: String, methodName: String) = Some(TopOfMethod(className, "public void " + className + "." + methodName + "()"))
// The Test passed to these methods is an instance of the JUnit3Suite class, Calling
// test.getClass.getName on it gets the fully qualified name of the class
// test.asInstanceOf[TestCase].getName gives you the name of the test method, without any parens
// Calling test.toSring gives you testError(org.scalatestexamples.junit.JUnit3ExampleSuite)
// So that's that old JUnit-style test name thing.
def startTest(testCase: Test) {
if (testCase == null)
throw new NullPointerException("testCase was null")
val suiteName = getSuiteNameForTestCase(testCase)
report(TestStarting(tracker.nextOrdinal(), suiteName, testCase.getClass.getName, Some(testCase.getClass.getName), testCase.toString, testCase.toString, Some(MotionToSuppress), getTopOfMethod(testCase.getClass.getName, testCase.asInstanceOf[TestCase].getName)))
}
def addError(testCase: Test, throwable: Throwable) {
if (testCase == null)
throw new NullPointerException("testCase was null")
if (throwable == null)
throw new NullPointerException("throwable was null")
val formatter = getIndentedTextForTest(testCase.toString, 1, true)
val suiteName = getSuiteNameForTestCase(testCase)
val payload =
throwable match {
case optPayload: PayloadField =>
optPayload.payload
case _ =>
None
}
report(TestFailed(tracker.nextOrdinal(), getMessageGivenThrowable(throwable, false), suiteName, testCase.getClass.getName, Some(testCase.getClass.getName), testCase.toString, testCase.toString, Vector.empty, Some(throwable), None, Some(formatter), Some(SeeStackDepthException), None, payload))
failedTestsSet += testCase
}
def addFailure(testCase: Test, assertionFailedError: AssertionFailedError) {
if (testCase == null)
throw new NullPointerException("testCase was null")
if (assertionFailedError == null)
throw new NullPointerException("throwable was null")
val formatter = getIndentedTextForTest(testCase.toString, 1, true)
val suiteName = getSuiteNameForTestCase(testCase)
report(TestFailed(tracker.nextOrdinal(), getMessageGivenThrowable(assertionFailedError, true), suiteName, testCase.getClass.getName, Some(testCase.getClass.getName), testCase.toString, testCase.toString, Vector.empty, Some(assertionFailedError), None, Some(formatter), Some(SeeStackDepthException), None))
failedTestsSet += testCase
}
def endTest(testCase: Test) {
val testHadFailed = failedTestsSet.contains(testCase)
if (!testHadFailed) {
if (testCase == null)
throw new NullPointerException("testCase was null")
val formatter = getIndentedTextForTest(testCase.toString, 1, true)
val suiteName = getSuiteNameForTestCase(testCase)
report(TestSucceeded(tracker.nextOrdinal(), suiteName, testCase.getClass.getName, Some(testCase.getClass.getName), testCase.toString, testCase.toString, Vector.empty, None, Some(formatter), getTopOfMethod(testCase.getClass.getName, testCase.asInstanceOf[TestCase].getName)))
}
else {
failedTestsSet -= testCase
status.setFailed()
}
}
}