Gerard Meszaros introduces the concept of Test Doubles in [Meszaros2007] like this:
Sometimes it is just plain hard to test the system under test (SUT) because it depends on other components that cannot be used in the test environment. This could be because they aren't available, they will not return the results needed for the test or because executing them would have undesirable side effects. In other cases, our test strategy requires us to have more control or visibility of the internal behavior of the SUT. When we are writing a test in which we cannot (or chose not to) use a real depended-on component (DOC), we can replace it with a Test Double. The Test Double doesn't have to behave exactly like the real DOC; it merely has to provide the same API as the real one so that the SUT thinks it is the real one! |
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--Gerard Meszaros |
The createMock($type)
and getMockBuilder($type)
methods provided by PHPUnit can be used in a test to automatically generate an object that can act as a test double for the specified original type (interface or class name). This test double object can be used in every context where an object of the original type is expected or required.
The createMock($type)
method immediately returns a test double object for the specified type (interface or class). The creation of this test double is performed using best practice defaults (the __construct()
and __clone()
methods of the original class are not executed and the arguments passed to a method of the test double will not be cloned. If these defaults are not what you need then you can use the getMockBuilder($type)
method to customize the test double generation using a fluent interface.
By default, all methods of the original class are replaced with a dummy implementation that just returns null
(without calling the original method). Using the will($this->returnValue())
method, for instance, you can configure these dummy implementations to return a value when called.
Limitation: final, private, and static methods
Please note that final
, private
and static
methods cannot be stubbed or mocked. They are ignored by PHPUnit's test double functionality and retain their original behavior.
Stubs
The practice of replacing an object with a test double that (optionally) returns configured return values is referred to as stubbing. You can use a stub to "replace a real component on which the SUT depends so that the test has a control point for the indirect inputs of the SUT. This allows the test to force the SUT down paths it might not otherwise execute".
Example 9.2 shows how to stub method calls and set up return values. We first use the createMock()
method that is provided by the PHPUnit\Framework\TestCase
class to set up a stub object that looks like an object of SomeClass
(Example 9.1). We then use the Fluent Interface that PHPUnit provides to specify the behavior for the stub. In essence, this means that you do not need to create several temporary objects and wire them together afterwards. Instead, you chain method calls as shown in the example. This leads to more readable and "fluent" code.
Example 9.1: The class we want to stub
<?php use PHPUnit\Framework\TestCase; class SomeClass { public function doSomething() { // Do something. } } ?>
Example 9.2: Stubbing a method call to return a fixed value
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->willReturn('foo'); // Calling $stub->doSomething() will now return // 'foo'. $this->assertEquals('foo', $stub->doSomething()); } } ?>
Limitation: Methods named "method"
The example shown above only works when the original class does not declare a method named "method".
If the original class does declare a method named "method" then $stub->expects($this->any())->method('doSomething')->willReturn('foo');
has to be used.
"Behind the scenes", PHPUnit automatically generates a new PHP class that implements the desired behavior when the createMock()
method is used.
Example 9.3 shows an example of how to use the Mock Builder's fluent interface to configure the creation of the test double. The configuration of this test double uses the same best practice defaults used by createMock()
.
Example 9.3: Using the Mock Builder API can be used to configure the generated test double class
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testStub() { // Create a stub for the SomeClass class. $stub = $this->getMockBuilder($originalClassName) ->disableOriginalConstructor() ->disableOriginalClone() ->disableArgumentCloning() ->disallowMockingUnknownTypes() ->getMock(); // Configure the stub. $stub->method('doSomething') ->willReturn('foo'); // Calling $stub->doSomething() will now return // 'foo'. $this->assertEquals('foo', $stub->doSomething()); } } ?>
In the examples so far we have been returning simple values using willReturn($value)
. This short syntax is the same as will($this->returnValue($value))
. We can use variations on this longer syntax to achieve more complex stubbing behaviour.
Sometimes you want to return one of the arguments of a method call (unchanged) as the result of a stubbed method call. Example 9.4 shows how you can achieve this using returnArgument()
instead of returnValue()
.
Example 9.4: Stubbing a method call to return one of the arguments
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testReturnArgumentStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->will($this->returnArgument(0)); // $stub->doSomething('foo') returns 'foo' $this->assertEquals('foo', $stub->doSomething('foo')); // $stub->doSomething('bar') returns 'bar' $this->assertEquals('bar', $stub->doSomething('bar')); } } ?>
When testing a fluent interface, it is sometimes useful to have a stubbed method return a reference to the stubbed object. Example 9.5 shows how you can use returnSelf()
to achieve this.
Example 9.5: Stubbing a method call to return a reference to the stub object
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testReturnSelf() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->will($this->returnSelf()); // $stub->doSomething() returns $stub $this->assertSame($stub, $stub->doSomething()); } } ?>
Sometimes a stubbed method should return different values depending on a predefined list of arguments. You can use returnValueMap()
to create a map that associates arguments with corresponding return values. See Example 9.6 for an example.
Example 9.6: Stubbing a method call to return the value from a map
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testReturnValueMapStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Create a map of arguments to return values. $map = [ ['a', 'b', 'c', 'd'], ['e', 'f', 'g', 'h'] ]; // Configure the stub. $stub->method('doSomething') ->will($this->returnValueMap($map)); // $stub->doSomething() returns different values depending on // the provided arguments. $this->assertEquals('d', $stub->doSomething('a', 'b', 'c')); $this->assertEquals('h', $stub->doSomething('e', 'f', 'g')); } } ?>
When the stubbed method call should return a calculated value instead of a fixed one (see returnValue()
) or an (unchanged) argument (see returnArgument()
), you can use returnCallback()
to have the stubbed method return the result of a callback function or method. See Example 9.7 for an example.
Example 9.7: Stubbing a method call to return a value from a callback
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testReturnCallbackStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->will($this->returnCallback('str_rot13')); // $stub->doSomething($argument) returns str_rot13($argument) $this->assertEquals('fbzrguvat', $stub->doSomething('something')); } } ?>
A simpler alternative to setting up a callback method may be to specify a list of desired return values. You can do this with the onConsecutiveCalls()
method. See Example 9.8 for an example.
Example 9.8: Stubbing a method call to return a list of values in the specified order
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testOnConsecutiveCallsStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->will($this->onConsecutiveCalls(2, 3, 5, 7)); // $stub->doSomething() returns a different value each time $this->assertEquals(2, $stub->doSomething()); $this->assertEquals(3, $stub->doSomething()); $this->assertEquals(5, $stub->doSomething()); } } ?>
Instead of returning a value, a stubbed method can also raise an exception. Example 9.9 shows how to use throwException()
to do this.
Example 9.9: Stubbing a method call to throw an exception
<?php use PHPUnit\Framework\TestCase; class StubTest extends TestCase { public function testThrowExceptionStub() { // Create a stub for the SomeClass class. $stub = $this->createMock(SomeClass::class); // Configure the stub. $stub->method('doSomething') ->will($this->throwException(new Exception)); // $stub->doSomething() throws Exception $stub->doSomething(); } } ?>
Alternatively, you can write the stub yourself and improve your design along the way. Widely used resources are accessed through a single façade, so you can easily replace the resource with the stub. For example, instead of having direct database calls scattered throughout the code, you have a single Database
object, an implementor of the IDatabase
interface. Then, you can create a stub implementation of IDatabase
and use it for your tests. You can even create an option for running the tests with the stub database or the real database, so you can use your tests for both local testing during development and integration testing with the real database.
Functionality that needs to be stubbed out tends to cluster in the same object, improving cohesion. By presenting the functionality with a single, coherent interface you reduce the coupling with the rest of the system.
Mock Objects
The practice of replacing an object with a test double that verifies expectations, for instance asserting that a method has been called, is referred to as mocking.
You can use a mock object "as an observation point that is used to verify the indirect outputs of the SUT as it is exercised. Typically, the mock object also includes the functionality of a test stub in that it must return values to the SUT if it hasn't already failed the tests but the emphasis is on the verification of the indirect outputs. Therefore, a mock object is a lot more than just a test stub plus assertions; it is used in a fundamentally different way" (Gerard Meszaros).
Limitation: Automatic verification of expectations
Only mock objects generated within the scope of a test will be verified automatically by PHPUnit. Mock objects generated in data providers, for instance, or injected into the test using the @depends
annotation will not be verified automatically by PHPUnit.
Here is an example: suppose we want to test that the correct method, update()
in our example, is called on an object that observes another object. Example 9.10 shows the code for the Subject
and Observer
classes that are part of the System under Test (SUT).
Example 9.10: The Subject and Observer classes that are part of the System under Test (SUT)
<?php use PHPUnit\Framework\TestCase; class Subject { protected $observers = []; protected $name; public function __construct($name) { $this->name = $name; } public function getName() { return $this->name; } public function attach(Observer $observer) { $this->observers[] = $observer; } public function doSomething() { // Do something. // ... // Notify observers that we did something. $this->notify('something'); } public function doSomethingBad() { foreach ($this->observers as $observer) { $observer->reportError(42, 'Something bad happened', $this); } } protected function notify($argument) { foreach ($this->observers as $observer) { $observer->update($argument); } } // Other methods. } class Observer { public function update($argument) { // Do something. } public function reportError($errorCode, $errorMessage, Subject $subject) { // Do something } // Other methods. } ?>
Example 9.11 shows how to use a mock object to test the interaction between Subject
and Observer
objects.
We first use the getMockBuilder()
method that is provided by the PHPUnit\Framework\TestCase
class to set up a mock object for the Observer
. Since we give an array as the second (optional) parameter for the getMock()
method, only the update()
method of the Observer
class is replaced by a mock implementation.
Because we are interested in verifying that a method is called, and which arguments it is called with, we introduce the expects()
and with()
methods to specify how this interaction should look.
Example 9.11: Testing that a method gets called once and with a specified argument
<?php use PHPUnit\Framework\TestCase; class SubjectTest extends TestCase { public function testObserversAreUpdated() { // Create a mock for the Observer class, // only mock the update() method. $observer = $this->getMockBuilder(Observer::class) ->setMethods(['update']) ->getMock(); // Set up the expectation for the update() method // to be called only once and with the string 'something' // as its parameter. $observer->expects($this->once()) ->method('update') ->with($this->equalTo('something')); // Create a Subject object and attach the mocked // Observer object to it. $subject = new Subject('My subject'); $subject->attach($observer); // Call the doSomething() method on the $subject object // which we expect to call the mocked Observer object's // update() method with the string 'something'. $subject->doSomething(); } } ?>
The with()
method can take any number of arguments, corresponding to the number of arguments to the method being mocked. You can specify more advanced constraints on the method's arguments than a simple match.
Example 9.12: Testing that a method gets called with a number of arguments constrained in different ways
<?php use PHPUnit\Framework\TestCase; class SubjectTest extends TestCase { public function testErrorReported() { // Create a mock for the Observer class, mocking the // reportError() method $observer = $this->getMockBuilder(Observer::class) ->setMethods(['reportError']) ->getMock(); $observer->expects($this->once()) ->method('reportError') ->with( $this->greaterThan(0), $this->stringContains('Something'), $this->anything() ); $subject = new Subject('My subject'); $subject->attach($observer); // The doSomethingBad() method should report an error to the observer // via the reportError() method $subject->doSomethingBad(); } } ?>
The withConsecutive()
method can take any number of arrays of arguments, depending on the calls you want to test against. Each array is a list of constraints corresponding to the arguments of the method being mocked, like in with()
.
Example 9.13: Testing that a method gets called two times with specific arguments.
<?php use PHPUnit\Framework\TestCase; class FooTest extends TestCase { public function testFunctionCalledTwoTimesWithSpecificArguments() { $mock = $this->getMockBuilder(stdClass::class) ->setMethods(['set']) ->getMock(); $mock->expects($this->exactly(2)) ->method('set') ->withConsecutive( [$this->equalTo('foo'), $this->greaterThan(0)], [$this->equalTo('bar'), $this->greaterThan(0)] ); $mock->set('foo', 21); $mock->set('bar', 48); } } ?>
The callback()
constraint can be used for more complex argument verification. This constraint takes a PHP callback as its only argument. The PHP callback will receive the argument to be verified as its only argument and should return true
if the argument passes verification and false
otherwise.
Example 9.14: More complex argument verification
<?php use PHPUnit\Framework\TestCase; class SubjectTest extends TestCase { public function testErrorReported() { // Create a mock for the Observer class, mocking the // reportError() method $observer = $this->getMockBuilder(Observer::class) ->setMethods(['reportError']) ->getMock(); $observer->expects($this->once()) ->method('reportError') ->with($this->greaterThan(0), $this->stringContains('Something'), $this->callback(function($subject){ return is_callable([$subject, 'getName']) && $subject->getName() == 'My subject'; })); $subject = new Subject('My subject'); $subject->attach($observer); // The doSomethingBad() method should report an error to the observer // via the reportError() method $subject->doSomethingBad(); } } ?>
Example 9.15: Testing that a method gets called once and with the identical object as was passed
<?php use PHPUnit\Framework\TestCase; class FooTest extends TestCase { public function testIdenticalObjectPassed() { $expectedObject = new stdClass; $mock = $this->getMockBuilder(stdClass::class) ->setMethods(['foo']) ->getMock(); $mock->expects($this->once()) ->method('foo') ->with($this->identicalTo($expectedObject)); $mock->foo($expectedObject); } } ?>
Example 9.16: Create a mock object with cloning parameters enabled
<?php use PHPUnit\Framework\TestCase; class FooTest extends TestCase { public function testIdenticalObjectPassed() { $cloneArguments = true; $mock = $this->getMockBuilder(stdClass::class) ->enableArgumentCloning() ->getMock(); // now your mock clones parameters so the identicalTo constraint // will fail. } } ?>
Table A.1 shows the constraints that can be applied to method arguments and Table 9.1 shows the matchers that are available to specify the number of invocations.
Table 9.1. Matchers
Matcher | Meaning |
---|---|
PHPUnit_Framework_MockObject_Matcher_AnyInvokedCount any() |
Returns a matcher that matches when the method it is evaluated for is executed zero or more times. |
PHPUnit_Framework_MockObject_Matcher_InvokedCount never() |
Returns a matcher that matches when the method it is evaluated for is never executed. |
PHPUnit_Framework_MockObject_Matcher_InvokedAtLeastOnce atLeastOnce() |
Returns a matcher that matches when the method it is evaluated for is executed at least once. |
PHPUnit_Framework_MockObject_Matcher_InvokedCount once() |
Returns a matcher that matches when the method it is evaluated for is executed exactly once. |
PHPUnit_Framework_MockObject_Matcher_InvokedCount exactly(int $count) |
Returns a matcher that matches when the method it is evaluated for is executed exactly $count times. |
PHPUnit_Framework_MockObject_Matcher_InvokedAtIndex at(int $index) |
Returns a matcher that matches when the method it is evaluated for is invoked at the given $index . |
The $index
parameter for the at()
matcher refers to the index, starting at zero, in all method invocations for a given mock object. Exercise caution when using this matcher as it can lead to brittle tests which are too closely tied to specific implementation details.
As mentioned in the beginning, when the defaults used by the createMock()
method to generate the test double do not match your needs then you can use the getMockBuilder($type)
method to customize the test double generation using a fluent interface. Here is a list of methods provided by the Mock Builder:
setMethods(array $methods)
can be called on the Mock Builder object to specify the methods that are to be replaced with a configurable test double. The behavior of the other methods is not changed. If you callsetMethods(null)
, then no methods will be replaced.setConstructorArgs(array $args)
can be called to provide a parameter array that is passed to the original class' constructor (which is not replaced with a dummy implementation by default).setMockClassName($name)
can be used to specify a class name for the generated test double class.disableOriginalConstructor()
can be used to disable the call to the original class' constructor.disableOriginalClone()
can be used to disable the call to the original class' clone constructor.disableAutoload()
can be used to disable__autoload()
during the generation of the test double class.
Prophecy
Prophecy is a "highly opinionated yet very powerful and flexible PHP object mocking framework. Though initially it was created to fulfil phpspec2 needs, it is flexible enough to be used inside any testing framework out there with minimal effort".
PHPUnit has built-in support for using Prophecy to create test doubles. Example 9.17 shows how the same test shown in Example 9.11 can be expressed using Prophecy's philosophy of prophecies and revelations:
Example 9.17: Testing that a method gets called once and with a specified argument
<?php use PHPUnit\Framework\TestCase; class SubjectTest extends TestCase { public function testObserversAreUpdated() { $subject = new Subject('My subject'); // Create a prophecy for the Observer class. $observer = $this->prophesize(Observer::class); // Set up the expectation for the update() method // to be called only once and with the string 'something' // as its parameter. $observer->update('something')->shouldBeCalled(); // Reveal the prophecy and attach the mock object // to the Subject. $subject->attach($observer->reveal()); // Call the doSomething() method on the $subject object // which we expect to call the mocked Observer object's // update() method with the string 'something'. $subject->doSomething(); } } ?>
Please refer to the documentation for Prophecy for further details on how to create, configure, and use stubs, spies, and mocks using this alternative test double framework.
Mocking Traits and Abstract Classes
The getMockForTrait()
method returns a mock object that uses a specified trait. All abstract methods of the given trait are mocked. This allows for testing the concrete methods of a trait.
Example 9.18: Testing the concrete methods of a trait
<?php use PHPUnit\Framework\TestCase; trait AbstractTrait { public function concreteMethod() { return $this->abstractMethod(); } public abstract function abstractMethod(); } class TraitClassTest extends TestCase { public function testConcreteMethod() { $mock = $this->getMockForTrait(AbstractTrait::class); $mock->expects($this->any()) ->method('abstractMethod') ->will($this->returnValue(true)); $this->assertTrue($mock->concreteMethod()); } } ?>
The getMockForAbstractClass()
method returns a mock object for an abstract class. All abstract methods of the given abstract class are mocked. This allows for testing the concrete methods of an abstract class.
Example 9.19: Testing the concrete methods of an abstract class
<?php use PHPUnit\Framework\TestCase; abstract class AbstractClass { public function concreteMethod() { return $this->abstractMethod(); } public abstract function abstractMethod(); } class AbstractClassTest extends TestCase { public function testConcreteMethod() { $stub = $this->getMockForAbstractClass(AbstractClass::class); $stub->expects($this->any()) ->method('abstractMethod') ->will($this->returnValue(true)); $this->assertTrue($stub->concreteMethod()); } } ?>
Stubbing and Mocking Web Services
When your application interacts with a web service you want to test it without actually interacting with the web service. To make the stubbing and mocking of web services easy, the getMockFromWsdl()
can be used just like getMock()
(see above). The only difference is that getMockFromWsdl()
returns a stub or mock based on a web service description in WSDL and getMock()
returns a stub or mock based on a PHP class or interface.
Example 9.20 shows how getMockFromWsdl()
can be used to stub, for example, the web service described in GoogleSearch.wsdl
.
Example 9.20: Stubbing a web service
<?php use PHPUnit\Framework\TestCase; class GoogleTest extends TestCase { public function testSearch() { $googleSearch = $this->getMockFromWsdl( 'GoogleSearch.wsdl', 'GoogleSearch' ); $directoryCategory = new stdClass; $directoryCategory->fullViewableName = ''; $directoryCategory->specialEncoding = ''; $element = new stdClass; $element->summary = ''; $element->URL = 'https://phpunit.de/'; $element->snippet = '...'; $element->title = '<b>PHPUnit</b>'; $element->cachedSize = '11k'; $element->relatedInformationPresent = true; $element->hostName = 'phpunit.de'; $element->directoryCategory = $directoryCategory; $element->directoryTitle = ''; $result = new stdClass; $result->documentFiltering = false; $result->searchComments = ''; $result->estimatedTotalResultsCount = 3.9000; $result->estimateIsExact = false; $result->resultElements = [$element]; $result->searchQuery = 'PHPUnit'; $result->startIndex = 1; $result->endIndex = 1; $result->searchTips = ''; $result->directoryCategories = []; $result->searchTime = 0.248822; $googleSearch->expects($this->any()) ->method('doGoogleSearch') ->will($this->returnValue($result)); /** * $googleSearch->doGoogleSearch() will now return a stubbed result and * the web service's doGoogleSearch() method will not be invoked. */ $this->assertEquals( $result, $googleSearch->doGoogleSearch( '00000000000000000000000000000000', 'PHPUnit', 0, 1, false, '', false, '', '', '' ) ); } } ?>
Mocking the Filesystem
vfsStream is a stream wrapper for a virtual filesystem that may be helpful in unit tests to mock the real filesystem.
Simply add a dependency on mikey179/vfsStream
to your project's composer.json
file if you use Composer to manage the dependencies of your project. Here is a minimal example of a composer.json
file that just defines a development-time dependency on PHPUnit 4.6 and vfsStream:
{ "require-dev": { "phpunit/phpunit": "~4.6", "mikey179/vfsStream": "~1" } }
Example 9.21 shows a class that interacts with the filesystem.
Example 9.21: A class that interacts with the filesystem
<?php use PHPUnit\Framework\TestCase; class Example { protected $id; protected $directory; public function __construct($id) { $this->id = $id; } public function setDirectory($directory) { $this->directory = $directory . DIRECTORY_SEPARATOR . $this->id; if (!file_exists($this->directory)) { mkdir($this->directory, 0700, true); } } }?>
Without a virtual filesystem such as vfsStream we cannot test the setDirectory()
method in isolation from external influence (see Example 9.22).
Example 9.22: Testing a class that interacts with the filesystem
<?php use PHPUnit\Framework\TestCase; class ExampleTest extends TestCase { protected function setUp() { if (file_exists(dirname(__FILE__) . '/id')) { rmdir(dirname(__FILE__) . '/id'); } } public function testDirectoryIsCreated() { $example = new Example('id'); $this->assertFalse(file_exists(dirname(__FILE__) . '/id')); $example->setDirectory(dirname(__FILE__)); $this->assertTrue(file_exists(dirname(__FILE__) . '/id')); } protected function tearDown() { if (file_exists(dirname(__FILE__) . '/id')) { rmdir(dirname(__FILE__) . '/id'); } } } ?>
The approach above has several drawbacks:
As with any external resource, there might be intermittent problems with the filesystem. This makes tests interacting with it flaky.
In the
setUp()
andtearDown()
methods we have to ensure that the directory does not exist before and after the test.When the test execution terminates before the
tearDown()
method is invoked the directory will stay in the filesystem.
Example 9.23 shows how vfsStream can be used to mock the filesystem in a test for a class that interacts with the filesystem.
Example 9.23: Mocking the filesystem in a test for a class that interacts with the filesystem
<?php use PHPUnit\Framework\TestCase; class ExampleTest extends TestCase { public function setUp() { vfsStreamWrapper::register(); vfsStreamWrapper::setRoot(new vfsStreamDirectory('exampleDir')); } public function testDirectoryIsCreated() { $example = new Example('id'); $this->assertFalse(vfsStreamWrapper::getRoot()->hasChild('id')); $example->setDirectory(vfsStream::url('exampleDir')); $this->assertTrue(vfsStreamWrapper::getRoot()->hasChild('id')); } } ?>
This has several advantages:
The test itself is more concise.
vfsStream gives the test developer full control over what the filesystem environment looks like to the tested code.
Since the filesystem operations do not operate on the real filesystem anymore, cleanup operations in a
tearDown()
method are no longer required.
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