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JUnit Toolkit enhances JUnit with performance testing, asymptotic behaviour analysis, and concurrency testing.
/*
* Copyright The Sett Ltd, 2005 to 2014.
*
* 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.thesett.junit.extensions;
/**
* A TimingController is an interface that a test that is aware of the fact that it is being timed can use to register
* its own timings giving finer control over the exact wall-clock interval used, and allowing tests to register multiple
* timings.
*
* Using this interface tests can suspend and resume test timers. This is usefull if you want to exclude some
* expensive preparation from being timed as part of a test. In general when timing tests to measure the performance of
* code, you should try to set up data in the #setUp where possible, or as static members in the test class. This is not
* always convenient, this interface gives you a way to suspend and resume, or event completely restart test timers, to
* get accurate measurements.
*
* The interface can also be used to register multiple test pass/fails and timings from a single test method. In
* some cases it is easier to write tests in this way. For example a concurrent and asynchronous test may make many
* asynchronous requests and then wait for replies to all its requests. Writing such a test with one send/reply per test
* method and trying to scale up using many threads will quickly run into limitations if more than about 100
* asynchronous calls need to be made at once. A better way to write such a test is as a single method that sends many
* (perhaps thousands or millions) and waits for replies in two threads, one for send, one for replies. It can then log
* pass/fails and timings on each individual reply as they come back in, even though the test has been written to send
* thousands of requests per test method in order to do volume testing.
*
* If when the {@link #completeTest(boolean)} is called, the test runner decides that testing should stop (perhaps
* because a duration test has expired), it throws an InterruptedException to indicate that the test method should stop
* immediately. The test method can do this by allowing this exception to fall through, if no other clean-up handling is
* necessary, or it can simply return as soon as it possibly can. The test runner will still call the tearDown method in
* the usual way when this happens.
*
* Below are some examples of how this can be used. Note how checking that the timing controller is really available
* rather than assuming it is, means that the test can run as an ordinary JUnit test under the default test runners. In
* general code should be written to take advantage of the extended capabilities of junit toolkit, without assuming they
* are going to be run under its test runner.
*
*
* public class MyTest extends TestCase implements TimingControllerAware {
* ...
*
* timingUtils = this.getTimingController();
*
* // Do expensive data preparation here...
*
* if (timingUtils != null)
* timingUtils.restart();
*
*
*
* public class MyTest extends TestCase implements TimingControllerAware {
* ...
*
* public void myVolumeTest(int size) {
*
* timingUtils = this.getTimingController();
*
* boolean stopNow = false;
*
* // In Sender thread.
* for(int i = 0; !stopNow && i < size; i++)
* // Send request i.
* ...
*
* // In Receiver thread.
* onReceive(Object o) {
* try {
* // Check o is as expected.
* if (....)
* {
* if (timingUtils != null)
* timingUtils.completeTest(true);
* }
* else
* {
* if (timingUtils != null)
* timingUtils.completeTest(false);
* }
* } catch (InterruptedException e) {
* stopNow = true;
* return;
* }
* }
*
*
*
CRC Card
* Responsibilities
* Allow test timers to be suspended, restarted or reset.
* Allow tests to register multiple pass/fails and timings.
*
*
* @author Rupert Smith
*/
public interface TimingController
{
/**
* Gets the timing controller associated with the current test thread. Tests that use timing controller should
* always get the timing controller from this method in the same thread that called the setUp, tearDown or test
* method. The controller returned by this method may be called from any thread because it remembers the thread id
* of the original test thread.
*
* @return The timing controller associated with the current test thread.
*/
TimingController getControllerForCurrentThread();
/**
* Suspends the test timer.
*
* @return The current time in nanoseconds.
*/
long suspend();
/**
* Allows the test timer to continue running after a suspend.
*
* @return The current time in nanoseconds.
*/
long resume();
/**
* Completely restarts the test timer from zero.
*
* @return The current time in nanoseconds.
*/
long restart();
/**
* Register an additional pass/fail for the current test. The test result is assumed to apply to a test of 'size'
* parmeter 1. Use the {@link #completeTest(boolean, int)} method to register timings with parameters.
*
* @param testPassed Whether or not this timing is for a test pass or fail.
*
* @throws InterruptedException If the test runner decides that testing should stop it throws this exception to
* indicate to the test method that it should stop immediately.
*/
void completeTest(boolean testPassed) throws InterruptedException;
/**
* Register an additional pass/fail for the current test. The test result is applies to a test of the specified
* 'size' parmeter.
*
* @param testPassed Whether or not this timing is for a test pass or fail.
* @param param The test parameter size for parameterized tests.
*
* @throws InterruptedException If the test runner decides that testing should stop it throws this exception to
* indicate to the test method that it should stop immediately.
*/
void completeTest(boolean testPassed, int param) throws InterruptedException;
/**
* Register an additional pass/fail for the current test. The test result is applies to a test of the specified
* 'size' parmeter and allows the caller to sepecify the timing to log.
*
* @param testPassed Whether or not this timing is for a test pass or fail.
* @param param The test parameter size for parameterized tests.
* @param timeNanos The time in nano seconds to log the test result with.
*
* @throws InterruptedException If the test runner decides that testing should stop it throws this exception to
* indicate to the test method that it should stop immediately.
*/
void completeTest(boolean testPassed, int param, long timeNanos) throws InterruptedException;
}
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