content/public/test/android/javatests/src/org/chromium/content/browser/test/util/CallbackHelper.java - platform/external/chromium_org - Git at Google

 // Copyright 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 package org.chromium.content.browser.test.util;

 import static org.chromium.base.test.util.ScalableTimeout.ScaleTimeout;

 import java.util.concurrent.TimeUnit;
 import java.util.concurrent.TimeoutException;

 /**
  * A helper class that encapsulates listening and blocking for callbacks.
  *
  * Sample usage:
  *
  * // Let us assume that this interface is defined by some piece of production code and is used
  * // to communicate events that occur in that piece of code. Let us further assume that the
  * // production code runs on the main thread test code runs on a separate test thread.
  * // An instance that implements this interface would be injected by test code to ensure that the
  * // methods are being called on another thread.
  * interface Delegate {
  *     void onOperationFailed(String errorMessage);
  *     void onDataPersisted();
  * }
  *
  * // This is the inner class you'd write in your test case to later inject into the production
  * // code.
  * class TestDelegate implements Delegate {
  *     // This is the preferred way to create a helper that stores the parameters it receives
  *     // when called by production code.
  *     public static class OnOperationFailedHelper extends CallbackHelper {
  *         private String mErrorMessage;
  *
  *         public void getErrorMessage() {
  *             assert getCallCount() > 0;
  *             return mErrorMessage;
  *         }
  *
  *         public void notifyCalled(String errorMessage) {
  *             mErrorMessage = errorMessage;
  *             // It's important to call this after all parameter assignments.
  *             notifyCalled();
  *         }
  *     }
  *
  *     // There should be one CallbackHelper instance per method.
  *     private OnOperationFailedHelper mOnOperationFailedHelper;
  *     private CallbackHelper mOnDataPersistedHelper;
  *
  *     public OnOperationFailedHelper getOnOperationFailedHelper() {
  *         return mOnOperationFailedHelper;
  *     }
  *
  *     public CallbackHelper getOnDataPersistedHelper() {
  *         return mOnDataPersistedHelper;
  *     }
  *
  *     @Override
  *     public void onOperationFailed(String errorMessage) {
  *         mOnOperationFailedHelper.notifyCalled(errorMessage);
  *     }
  *
  *     @Override
  *     public void onDataPersisted() {
  *         mOnDataPersistedHelper.notifyCalled();
  *     }
  * }
  *
  * // This is a sample test case.
  * public void testCase() throws Exception {
  *     // Create the TestDelegate to inject into production code.
  *     TestDelegate delegate = new TestDelegate();
  *     // Create the production class instance that is being tested and inject the test delegate.
  *     CodeUnderTest codeUnderTest = new CodeUnderTest();
  *     codeUnderTest.setDelegate(delegate);
  *
  *     // Typically you'd get the current call count before performing the operation you expect to
  *     // trigger the callback. There can't be any callbacks 'in flight' at this moment, otherwise
  *     // the call count is unpredictable and the test will be flaky.
  *     int onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
  *     codeUnderTest.doSomethingThatEndsUpCallingOnOperationFailedFromAnotherThread();
  *     // It's safe to do other stuff here, if needed.
  *     ....
  *     // Wait for the callback if it hadn't been called yet, otherwise return immediately. This
  *     // can throw an exception if the callback doesn't arrive within the timeout.
  *     delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
  *     // Access to method parameters is now safe.
  *     assertEquals("server error", delegate.getOnOperationFailedHelper().getErrorMessage());
  *
  *     // Being able to pass the helper around lets us build methods which encapsulate commonly
  *     // performed tasks.
  *     doSomeOperationAndWait(codeUnerTest, delegate.getOnOperationFailedHelper());
  *
  *     // The helper can be resued for as many calls as needed, just be sure to get the count each
  *     // time.
  *     onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
  *     codeUnderTest.doSomethingElseButStillFailOnAnotherThread();
  *     delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
  *
  *     // It is also possible to use more than one helper at a time.
  *     onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
  *     int onDataPersistedCallCount = delegate.getOnDataPersistedHelper().getCallCount();
  *     codeUnderTest.doSomethingThatPersistsDataButFailsInSomeOtherWayOnAnotherThread();
  *     delegate.getOnDataPersistedHelper().waitForCallback(onDataPersistedCallCount);
  *     delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
  * }
  *
  * // Shows how to turn an async operation + completion callback into a synchronous operation.
  * private void doSomeOperationAndWait(final CodeUnderTest underTest,
  *         CallbackHelper operationHelper) throws InterruptedException, TimeoutException {
  *     final int callCount = operaitonHelper.getCallCount();
  *     getInstrumentaiton().runOnMainSync(new Runnable() {
  *         @Override
  *         public void run() {
  *             // This schedules a call to a method on the injected TestDelegate. The TestDelegate
  *             // implementation will then call operationHelper.notifyCalled().
  *             underTest.operation();
  *         }
  *      });
  *      operationHelper.waitForCallback(callCount);
  * }
  *
  */
 public class CallbackHelper {
     protected static final long WAIT_TIMEOUT_SECONDS = ScaleTimeout(5);

     private final Object mLock = new Object();
     private int mCallCount = 0;

     /**
      * Gets the number of times the callback has been called.
      *
      * The call count can be used with the waitForCallback() method, indicating a point
      * in time after which the caller wishes to record calls to the callback.
      *
      * In order to wait for a callback caused by X, the call count should be obtained
      * before X occurs.
      *
      * NOTE: any call to the callback that occurs after the call count is obtained
      * will result in the corresponding wait call to resume execution. The call count
      * is intended to 'catch' callbacks that occur after X but before waitForCallback()
      * is called.
      */
     public int getCallCount() {
         synchronized (mLock) {
             return mCallCount;
         }
     }

     /**
      * Blocks until the callback is called the specified number of
      * times or throws an exception if we exceeded the specified time frame.
      *
      * This will wait for a callback to be called a specified number of times after
      * the point in time at which the call count was obtained.  The method will return
      * immediately if a call occurred the specified number of times after the
      * call count was obtained but before the method was called, otherwise the method will
      * block until the specified call count is reached.
      *
      * @param currentCallCount the value obtained by calling getCallCount().
      * @param numberOfCallsToWaitFor number of calls (counting since
      *                               currentCallCount was obtained) that we will wait for.
      * @param timeout timeout value. We will wait the specified amount of time for a single
      *                callback to occur so the method call may block up to
      *                <code>numberOfCallsToWaitFor * timeout</code> units.
      * @param unit timeout unit.
      * @throws InterruptedException
      * @throws TimeoutException Thrown if the method times out before onPageFinished is called.
      */
     public void waitForCallback(int currentCallCount, int numberOfCallsToWaitFor, long timeout,
             TimeUnit unit) throws InterruptedException, TimeoutException {
         assert mCallCount >= currentCallCount;
         assert numberOfCallsToWaitFor > 0;
         synchronized (mLock) {
             int callCountWhenDoneWaiting = currentCallCount + numberOfCallsToWaitFor;
             while (callCountWhenDoneWaiting > mCallCount) {
                 int callCountBeforeWait = mCallCount;
                 mLock.wait(unit.toMillis(timeout));
                 if (callCountBeforeWait == mCallCount) {
                     throw new TimeoutException("waitForCallback timed out!");
                 }
             }
         }
     }

     public void waitForCallback(int currentCallCount, int numberOfCallsToWaitFor)
             throws InterruptedException, TimeoutException {
         waitForCallback(currentCallCount, numberOfCallsToWaitFor,
                 WAIT_TIMEOUT_SECONDS, TimeUnit.SECONDS);
     }

     public void waitForCallback(int currentCallCount)
             throws InterruptedException, TimeoutException {
         waitForCallback(currentCallCount, 1);
     }

     /**
      * Blocks until the criteria is satisfied or throws an exception
      * if the specified time frame is exceeded.
      * @param timeout timeout value.
      * @param unit timeout unit.
      */
     public void waitUntilCriteria(Criteria criteria, long timeout, TimeUnit unit)
             throws InterruptedException, TimeoutException {
         synchronized (mLock) {
             final long startTime = System.currentTimeMillis();
             boolean isSatisfied = criteria.isSatisfied();
             while (!isSatisfied &&
                     System.currentTimeMillis() - startTime < unit.toMillis(timeout)) {
                 mLock.wait(unit.toMillis(timeout));
                 isSatisfied = criteria.isSatisfied();
             }
             if (!isSatisfied) throw new TimeoutException("waitUntilCriteria timed out!");
         }
     }

     public void waitUntilCriteria(Criteria criteria)
             throws InterruptedException, TimeoutException {
         waitUntilCriteria(criteria, WAIT_TIMEOUT_SECONDS, TimeUnit.SECONDS);
     }

     /**
      * Should be called when the callback associated with this helper object is called.
      */
     public void notifyCalled() {
         synchronized (mLock) {
             mCallCount++;
             mLock.notifyAll();
         }
     }
 }
	// Copyright 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	package org.chromium.content.browser.test.util;

	import static org.chromium.base.test.util.ScalableTimeout.ScaleTimeout;

	import java.util.concurrent.TimeUnit;
	import java.util.concurrent.TimeoutException;

	/**
	* A helper class that encapsulates listening and blocking for callbacks.
	*
	* Sample usage:
	*
	* // Let us assume that this interface is defined by some piece of production code and is used
	* // to communicate events that occur in that piece of code. Let us further assume that the
	* // production code runs on the main thread test code runs on a separate test thread.
	* // An instance that implements this interface would be injected by test code to ensure that the
	* // methods are being called on another thread.
	* interface Delegate {
	* void onOperationFailed(String errorMessage);
	* void onDataPersisted();
	* }
	*
	* // This is the inner class you'd write in your test case to later inject into the production
	* // code.
	* class TestDelegate implements Delegate {
	* // This is the preferred way to create a helper that stores the parameters it receives
	* // when called by production code.
	* public static class OnOperationFailedHelper extends CallbackHelper {
	* private String mErrorMessage;
	*
	* public void getErrorMessage() {
	* assert getCallCount() > 0;
	* return mErrorMessage;
	* }
	*
	* public void notifyCalled(String errorMessage) {
	* mErrorMessage = errorMessage;
	* // It's important to call this after all parameter assignments.
	* notifyCalled();
	* }
	* }
	*
	* // There should be one CallbackHelper instance per method.
	* private OnOperationFailedHelper mOnOperationFailedHelper;
	* private CallbackHelper mOnDataPersistedHelper;
	*
	* public OnOperationFailedHelper getOnOperationFailedHelper() {
	* return mOnOperationFailedHelper;
	* }
	*
	* public CallbackHelper getOnDataPersistedHelper() {
	* return mOnDataPersistedHelper;
	* }
	*
	* @Override
	* public void onOperationFailed(String errorMessage) {
	* mOnOperationFailedHelper.notifyCalled(errorMessage);
	* }
	*
	* @Override
	* public void onDataPersisted() {
	* mOnDataPersistedHelper.notifyCalled();
	* }
	* }
	*
	* // This is a sample test case.
	* public void testCase() throws Exception {
	* // Create the TestDelegate to inject into production code.
	* TestDelegate delegate = new TestDelegate();
	* // Create the production class instance that is being tested and inject the test delegate.
	* CodeUnderTest codeUnderTest = new CodeUnderTest();
	* codeUnderTest.setDelegate(delegate);
	*
	* // Typically you'd get the current call count before performing the operation you expect to
	* // trigger the callback. There can't be any callbacks 'in flight' at this moment, otherwise
	* // the call count is unpredictable and the test will be flaky.
	* int onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
	* codeUnderTest.doSomethingThatEndsUpCallingOnOperationFailedFromAnotherThread();
	* // It's safe to do other stuff here, if needed.
	* ....
	* // Wait for the callback if it hadn't been called yet, otherwise return immediately. This
	* // can throw an exception if the callback doesn't arrive within the timeout.
	* delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
	* // Access to method parameters is now safe.
	* assertEquals("server error", delegate.getOnOperationFailedHelper().getErrorMessage());
	*
	* // Being able to pass the helper around lets us build methods which encapsulate commonly
	* // performed tasks.
	* doSomeOperationAndWait(codeUnerTest, delegate.getOnOperationFailedHelper());
	*
	* // The helper can be resued for as many calls as needed, just be sure to get the count each
	* // time.
	* onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
	* codeUnderTest.doSomethingElseButStillFailOnAnotherThread();
	* delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
	*
	* // It is also possible to use more than one helper at a time.
	* onOperationFailedCallCount = delegate.getOnOperationFailedHelper().getCallCount();
	* int onDataPersistedCallCount = delegate.getOnDataPersistedHelper().getCallCount();
	* codeUnderTest.doSomethingThatPersistsDataButFailsInSomeOtherWayOnAnotherThread();
	* delegate.getOnDataPersistedHelper().waitForCallback(onDataPersistedCallCount);
	* delegate.getOnOperationFailedHelper().waitForCallback(onOperationFailedCallCount);
	* }
	*
	* // Shows how to turn an async operation + completion callback into a synchronous operation.
	* private void doSomeOperationAndWait(final CodeUnderTest underTest,
	* CallbackHelper operationHelper) throws InterruptedException, TimeoutException {
	* final int callCount = operaitonHelper.getCallCount();
	* getInstrumentaiton().runOnMainSync(new Runnable() {
	* @Override
	* public void run() {
	* // This schedules a call to a method on the injected TestDelegate. The TestDelegate
	* // implementation will then call operationHelper.notifyCalled().
	* underTest.operation();
	* }
	* });
	* operationHelper.waitForCallback(callCount);
	* }
	*
	*/
	public class CallbackHelper {
	protected static final long WAIT_TIMEOUT_SECONDS = ScaleTimeout(5);

	private final Object mLock = new Object();
	private int mCallCount = 0;

	/**
	* Gets the number of times the callback has been called.
	*
	* The call count can be used with the waitForCallback() method, indicating a point
	* in time after which the caller wishes to record calls to the callback.
	*
	* In order to wait for a callback caused by X, the call count should be obtained
	* before X occurs.
	*
	* NOTE: any call to the callback that occurs after the call count is obtained
	* will result in the corresponding wait call to resume execution. The call count
	* is intended to 'catch' callbacks that occur after X but before waitForCallback()
	* is called.
	*/
	public int getCallCount() {
	synchronized (mLock) {
	return mCallCount;
	}
	}

	/**
	* Blocks until the callback is called the specified number of
	* times or throws an exception if we exceeded the specified time frame.
	*
	* This will wait for a callback to be called a specified number of times after
	* the point in time at which the call count was obtained. The method will return
	* immediately if a call occurred the specified number of times after the
	* call count was obtained but before the method was called, otherwise the method will
	* block until the specified call count is reached.
	*
	* @param currentCallCount the value obtained by calling getCallCount().
	* @param numberOfCallsToWaitFor number of calls (counting since
	* currentCallCount was obtained) that we will wait for.
	* @param timeout timeout value. We will wait the specified amount of time for a single
	* callback to occur so the method call may block up to
	* <code>numberOfCallsToWaitFor * timeout</code> units.
	* @param unit timeout unit.
	* @throws InterruptedException
	* @throws TimeoutException Thrown if the method times out before onPageFinished is called.
	*/
	public void waitForCallback(int currentCallCount, int numberOfCallsToWaitFor, long timeout,
	TimeUnit unit) throws InterruptedException, TimeoutException {
	assert mCallCount >= currentCallCount;
	assert numberOfCallsToWaitFor > 0;
	synchronized (mLock) {
	int callCountWhenDoneWaiting = currentCallCount + numberOfCallsToWaitFor;
	while (callCountWhenDoneWaiting > mCallCount) {
	int callCountBeforeWait = mCallCount;
	mLock.wait(unit.toMillis(timeout));
	if (callCountBeforeWait == mCallCount) {
	throw new TimeoutException("waitForCallback timed out!");
	}
	}
	}
	}

	public void waitForCallback(int currentCallCount, int numberOfCallsToWaitFor)
	throws InterruptedException, TimeoutException {
	waitForCallback(currentCallCount, numberOfCallsToWaitFor,
	WAIT_TIMEOUT_SECONDS, TimeUnit.SECONDS);
	}

	public void waitForCallback(int currentCallCount)
	throws InterruptedException, TimeoutException {
	waitForCallback(currentCallCount, 1);
	}

	/**
	* Blocks until the criteria is satisfied or throws an exception
	* if the specified time frame is exceeded.
	* @param timeout timeout value.
	* @param unit timeout unit.
	*/
	public void waitUntilCriteria(Criteria criteria, long timeout, TimeUnit unit)
	throws InterruptedException, TimeoutException {
	synchronized (mLock) {
	final long startTime = System.currentTimeMillis();
	boolean isSatisfied = criteria.isSatisfied();
	while (!isSatisfied &&
	System.currentTimeMillis() - startTime < unit.toMillis(timeout)) {
	mLock.wait(unit.toMillis(timeout));
	isSatisfied = criteria.isSatisfied();
	}
	if (!isSatisfied) throw new TimeoutException("waitUntilCriteria timed out!");
	}
	}

	public void waitUntilCriteria(Criteria criteria)
	throws InterruptedException, TimeoutException {
	waitUntilCriteria(criteria, WAIT_TIMEOUT_SECONDS, TimeUnit.SECONDS);
	}

	/**
	* Should be called when the callback associated with this helper object is called.
	*/
	public void notifyCalled() {
	synchronized (mLock) {
	mCallCount++;
	mLock.notifyAll();
	}
	}
	}