sarven / unit-testing-tips
- воскресенье, 7 марта 2021 г. в 00:26:49
Unit testing tips by examples in PHP
In these times, the benefits of writing unit tests are huge. I think that most of the recently started projects contain any unit tests. In enterprise applications with a lot of business logic, unit tests are the most important tests, because they are fast and can us instantly assure that our implementation is correct. However, I often see a problem with good tests in projects, though these tests' benefits are only huge when you have good unit tests. So in these examples, I will try to share some tips on what to do to write good unit tests.
Test doubles are fake dependencies used in tests.
A dummy is a just simple implementation that does nothing.
final class Mailer implements MailerInterface
{
public function send(Message $message): void
{
}
}A fake is a simplified implementation to simulate the original behavior.
final class InMemoryCustomerRepository implements CustomerRepositoryInterface
{
/**
* @var Customer[]
*/
private array $customers;
public function __construct()
{
$this->customers = [];
}
public function store(Customer $customer): void
{
$this->customers[(string) $customer->id()->id()] = $customer;
}
public function get(CustomerId $id): Customer
{
if (!isset($this->customers[(string) $id->id()])) {
throw new CustomerNotFoundException();
}
return $this->customers[(string) $id->id()];
}
public function findByEmail(Email $email): Customer
{
foreach ($this->customers as $customer) {
if ($customer->getEmail()->isEqual($email)) {
return $customer;
}
}
throw new CustomerNotFoundException();
}
}A stub is the simplest implementation with a hardcoded behavior.
final class UniqueEmailSpecificationStub implements UniqueEmailSpecificationInterface
{
public function isUnique(Email $email): bool
{
return true;
}
}$specificationStub = $this->createStub(UniqueEmailSpecificationInterface::class);
$specificationStub->method('isUnique')->willReturn(true);A spy is an implementation to verify a specific behavior.
final class Mailer implements MailerInterface
{
/**
* @var Message[]
*/
private array $messages;
public function __construct()
{
$this->messages = [];
}
public function send(Message $message): void
{
$this->messages[] = $message;
}
public function getCountOfSentMessages(): int
{
return count($this->messages);
}
}A mock is a configured imitation to verify calls on a collaborator.
$message = new Message('test@test.com', 'Test', 'Test test test');
$mailer = $this->createMock(MailerInterface::class);
$mailer
->expects($this->once())
->method('send')
->with($this->equalTo($message));public function test(): void
{
$subscription = SubscriptionMother::new();
$subscription->activate();
self::assertSame(Status::activated(), $subscription->status());
}public function sut(): void
{
// sut = System under test
$sut = SubscriptionMother::new();
$sut->activate();
self::assertSame(Status::activated(), $sut->status());
}public function it_throws_invalid_credentials_exception_when_sign_in_with_invalid_credentials(): void
{
}
public function testCreatingWithATooShortPasswordIsNotPossible(): void
{
}
public function testDeactivateASubscription(): void
{
}public function sign_in_with_invalid_credentials_is_not_possible(): void
{
}
public function creating_with_a_too_short_password_is_not_possible(): void
{
}
public function deactivating_an_activated_subscription_is_valid(): void
{
}
public function deactivating_an_inactive_subscription_is_invalid(): void
{
}If there is a project with complex domain logic, this logic must be very clear for everyone, so then tests describe domain details without technical keywords, and you can talk with a business in a language like in these tests.
All code that is related to the domain should be free from technical details. A non-programmer won't be read these tests. If you want to talk about the domain these tests will be useful to know what this domain does. There will be a description without technical details e.g., returns null, throws an exception, etc. This kind of information has nothing to do with the domain, so we shouldn't use these keywords.
It's also common Given, When, Then.
public function aaa_pattern_example_test(): void
{
//Arrange|Given
$sut = SubscriptionMother::new();
//Act|When
$sut->activate();
//Assert|Then
self::assertSame(Status::activated(), $sut->status());
}The pattern helps to create specific objects which can be reused in a few tests. Because of that the arrange section is concise and the test as a whole is more readable.
final class SubscriptionMother
{
public static function new(): Subscription
{
return new Subscription();
}
public static function activated(): Subscription
{
$subscription = new Subscription();
$subscription->activate();
return $subscription;
}
public static function deactivated(): Subscription
{
$subscription = self::activated();
$subscription->deactivate();
return $subscription;
}
}final class ExampleTest
{
public function example_test_with_activated_subscription(): void
{
$activatedSubscription = SubscriptionMother::activated();
// do something
// check something
}
public function example_test_with_deactivated_subscription(): void
{
$deactivatedSubscription = SubscriptionMother::deactivated();
// do something
// check something
}
}The parameterized test is a good option to test the SUT with many parameters without repeating the code.
final class ExampleTest extends TestCase
{
/**
* @test
* @dataProvider getInvalidEmails
*/
public function detects_an_invalid_email_address(string $email): void
{
$sut = new EmailValidator();
$result = $sut->isValid($email);
self::assertFalse($result);
}
/**
* @test
* @dataProvider getValidEmails
*/
public function detects_an_valid_email_address(string $email): void
{
$sut = new EmailValidator();
$result = $sut->isValid($email);
self::assertTrue($result);
}
public function getInvalidEmails(): array
{
return [
['test'],
['test@'],
['test@test'],
//...
];
}
public function getValidEmails(): array
{
return [
['test@test.com'],
['test123@test.com'],
['Test123@test.com'],
//...
];
}
}final class TestExample extends TestCase
{
/**
* @test
*/
public function suspending_an_subscription_with_can_always_suspend_policy_is_always_possible(): void
{
$canAlwaysSuspendPolicy = new CanAlwaysSuspendPolicy();
$sut = new Subscription();
$result = $sut->suspend($canAlwaysSuspendPolicy);
self::assertTrue($result);
self::assertSame(Status::suspend(), $sut->status());
}
}final class TestExample extends TestCase
{
/**
* @test
*/
public function suspending_an_subscription_with_can_always_suspend_policy_is_always_possible(): void
{
$canAlwaysSuspendPolicy = $this->createStub(SuspendingPolicyInterface::class);
$canAlwaysSuspendPolicy->method('suspend')->willReturn(true);
$sut = new Subscription();
$result = $sut->suspend($canAlwaysSuspendPolicy);
self::assertTrue($result);
self::assertSame(Status::suspend(), $sut->status());
}
}[TODO]
Example:
final class NotificationService
{
public function __construct(
private MailerInterface $mailer,
private MessageRepositoryInterface $messageRepository
) {}
public function send(): void
{
$messages = $this->messageRepository->getAll();
foreach ($messages as $message) {
$this->mailer->send($message);
}
}
}final class TestExample extends TestCase
{
/**
* @test
*/
public function sends_all_notifications(): void
{
$message1 = new Message();
$message2 = new Message();
$messageRepository = $this->createMock(MessageRepositoryInterface::class);
$messageRepository->method('getAll')->willReturn([$message1, $message2]);
$mailer = $this->createMock(MailerInterface::class);
$sut = new NotificationService($mailer, $messageRepository);
$messageRepository->expects(self::once())->method('getAll');
$mailer->expects(self::exactly(2))->method('send')
->withConsecutive([self::equalTo($message1)], [self::equalTo($message2)]);
$sut->send();
}
}final class TestExample extends TestCase
{
/**
* @test
*/
public function sends_all_notifications(): void
{
$message1 = new Message();
$message2 = new Message();
$messageRepository = $this->createStub(MessageRepositoryInterface::class);
$messageRepository->method('getAll')->willReturn([$message1, $message2]);
$mailer = $this->createMock(MailerInterface::class);
$sut = new NotificationService($mailer, $messageRepository);
// Removed asserting interactions with the stub
$mailer->expects(self::exactly(2))->method('send')
->withConsecutive([self::equalTo($message1)], [self::equalTo($message2)]);
$sut->send();
}
}final class ExampleTest extends TestCase
{
/**
* @test
* @dataProvider getInvalidEmails
*/
public function detects_an_invalid_email_address(string $email): void
{
$sut = new EmailValidator();
$result = $sut->isValid($email);
self::assertFalse($result);
}
/**
* @test
* @dataProvider getValidEmails
*/
public function detects_an_valid_email_address(string $email): void
{
$sut = new EmailValidator();
$result = $sut->isValid($email);
self::assertTrue($result);
}
public function getInvalidEmails(): array
{
return [
['test'],
['test@'],
['test@test'],
//...
];
}
public function getValidEmails(): array
{
return [
['test@test.com'],
['test123@test.com'],
['Test123@test.com'],
//...
];
}
}final class ExampleTest extends TestCase
{
/**
* @test
*/
public function adding_an_item_to_cart(): void
{
$item = new CartItem('Product');
$sut = new Cart();
$sut->addItem($item);
self::assertSame(1, $sut->getCount());
self::assertSame($item, $sut->getItems()[0]);
}
}final class ExampleTest extends TestCase
{
/**
* @test
*/
public function sends_all_notifications(): void
{
$message1 = new Message();
$message2 = new Message();
$messageRepository = $this->createStub(MessageRepositoryInterface::class);
$messageRepository->method('getAll')->willReturn([$message1, $message2]);
$mailer = $this->createMock(MailerInterface::class);
$sut = new NotificationService($mailer, $messageRepository);
$mailer->expects(self::exactly(2))->method('send')
->withConsecutive([self::equalTo($message1)], [self::equalTo($message2)]);
$sut->send();
}
}final class NameService
{
public function __construct(private CacheStorageInterface $cacheStorage) {}
public function loadAll(): void
{
$namesCsv = array_map('str_getcsv', file(__DIR__.'/../names.csv'));
$names = [];
foreach ($namesCsv as $nameData) {
if (!isset($nameData[0], $nameData[1])) {
continue;
}
$names[] = new Name($nameData[0], new Gender($nameData[1]));
}
$this->cacheStorage->store('names', $names);
}
}How to test a code like this? It is possible only with an integration test because it directly uses an infrastructure code related to a file system.
Like in functional architecture, we need to separate a code with side effects and code that contains only logic.
final class NameParser
{
/**
* @param array $namesData
* @return Name[]
*/
public function parse(array $namesData): array
{
$names = [];
foreach ($namesData as $nameData) {
if (!isset($nameData[0], $nameData[1])) {
continue;
}
$names[] = new Name($nameData[0], new Gender($nameData[1]));
}
return $names;
}
}final class CsvNamesFileLoader
{
public function load(): array
{
return array_map('str_getcsv', file(__DIR__.'/../names.csv'));
}
}final class ApplicationService
{
public function __construct(
private CsvNamesFileLoader $fileLoader,
private NameParser $parser,
private CacheStorageInterface $cacheStorage
) {}
public function loadNames(): void
{
$namesData = $this->fileLoader->load();
$names = $this->parser->parse($namesData);
$this->cacheStorage->store('names', $names);
}
}final class ValidUnitExampleTest extends TestCase
{
/**
* @test
*/
public function parse_all_names(): void
{
$namesData = [
['John', 'M'],
['Lennon', 'U'],
['Sarah', 'W']
];
$sut = new NameParser();
$result = $sut->parse($namesData);
self::assertSame(
[
new Name('John', new Gender('M')),
new Name('Lennon', new Gender('U')),
new Name('Sarah', new Gender('W'))
],
$result
);
}
}final class ApplicationService
{
public function __construct(private SubscriptionRepositoryInterface $subscriptionRepository) {}
public function renewSubscription(int $subscriptionId): bool
{
$subscription = $this->subscriptionRepository->findById($subscriptionId);
if (!$subscription->getStatus()->isEqual(Status::expired())) {
return false;
}
$subscription->setStatus(Status::active());
$subscription->setModifiedAt(new \DateTimeImmutable());
return true;
}
}final class Subscription
{
private Status $status;
private \DateTimeImmutable $modifiedAt;
public function __construct(Status $status, \DateTimeImmutable $modifiedAt)
{
$this->status = $status;
$this->modifiedAt = $modifiedAt;
}
public function getStatus(): Status
{
return $this->status;
}
public function setStatus(Status $status): void
{
$this->status = $status;
}
public function getModifiedAt(): \DateTimeImmutable
{
return $this->modifiedAt;
}
public function setModifiedAt(\DateTimeImmutable $modifiedAt): void
{
$this->modifiedAt = $modifiedAt;
}
}final class InvalidTestExample extends TestCase
{
/**
* @test
*/
public function renew_an_expired_subscription_is_possible(): void
{
$modifiedAt = new \DateTimeImmutable();
$expiredSubscription = new Subscription(Status::expired(), $modifiedAt);
$repository = $this->createStub(SubscriptionRepositoryInterface::class);
$repository->method('findById')->willReturn($expiredSubscription);
$sut = new ApplicationService($repository);
$result = $sut->renewSubscription(1);
self::assertSame(Status::active(), $expiredSubscription->getStatus());
self::assertGreaterThan($modifiedAt, $expiredSubscription->getModifiedAt());
self::assertTrue($result);
}
/**
* @test
*/
public function renew_an_active_subscription_is_not_possible(): void
{
$modifiedAt = new \DateTimeImmutable();
$activeSubscription = new Subscription(Status::active(), $modifiedAt);
$repository = $this->createStub(SubscriptionRepositoryInterface::class);
$repository->method('findById')->willReturn($activeSubscription);
$sut = new ApplicationService($repository);
$result = $sut->renewSubscription(1);
self::assertSame($modifiedAt, $activeSubscription->getModifiedAt());
self::assertFalse($result);
}
}final class ApplicationService
{
public function __construct(private SubscriptionRepositoryInterface $subscriptionRepository) {}
public function renewSubscription(int $subscriptionId): bool
{
$subscription = $this->subscriptionRepository->findById($subscriptionId);
return $subscription->renew(new \DateTimeImmutable());
}
}final class Subscription
{
private Status $status;
private \DateTimeImmutable $modifiedAt;
public function __construct(\DateTimeImmutable $modifiedAt)
{
$this->status = Status::new();
$this->modifiedAt = $modifiedAt;
}
public function renew(\DateTimeImmutable $modifiedAt): bool
{
if (!$this->status->isEqual(Status::expired())) {
return false;
}
$this->status = Status::active();
$this->modifiedAt = $modifiedAt;
return true;
}
public function active(\DateTimeImmutable $modifiedAt): void
{
//simplified
$this->status = Status::active();
$this->modifiedAt = $modifiedAt;
}
public function expire(\DateTimeImmutable $modifiedAt): void
{
//simplified
$this->status = Status::expired();
$this->modifiedAt = $modifiedAt;
}
public function isActive(): bool
{
return $this->status->isEqual(Status::active());
}
}final class ValidTestExample extends TestCase
{
/**
* @test
*/
public function renew_an_expired_subscription_is_possible(): void
{
$expiredSubscription = SubscriptionMother::expired();
$repository = $this->createStub(SubscriptionRepositoryInterface::class);
$repository->method('findById')->willReturn($expiredSubscription);
$sut = new ApplicationService($repository);
$result = $sut->renewSubscription(1);
// skip checking modifiedAt as it's not a part of observable behavior. To check this value we
// would have to add a getter for modifiedAt, probably only for test purposes.
self::assertTrue($expiredSubscription->isActive());
self::assertTrue($result);
}
/**
* @test
*/
public function renew_an_active_subscription_is_not_possible(): void
{
$activeSubscription = SubscriptionMother::active();
$repository = $this->createStub(SubscriptionRepositoryInterface::class);
$repository->method('findById')->willReturn($activeSubscription);
$sut = new ApplicationService($repository);
$result = $sut->renewSubscription(1);
self::assertTrue($activeSubscription->isActive());
self::assertFalse($result);
}
}modifiedAt, probably setting specific modifiedAt during a renew operation can be tested with an expiration business operation. The getter for modifiedAt is not required.
Of course, there are cases where finding the possibility to avoid getters provided only for tests will be very hard, but always we should try not to introduce them.
class CannotSuspendExpiredSubscriptionPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
if ($subscription->isExpired()) {
return false;
}
return true;
}
}class CannotSuspendExpiredSubscriptionPolicyTest extends TestCase
{
/**
* @test
*/
public function it_returns_true_when_a_subscription_is_expired(): void
{
$policy = new CannotSuspendExpiredSubscriptionPolicy();
$subscription = $this->createStub(Subscription::class);
$subscription->method('isExpired')->willReturn(true);
self::assertFalse($policy->suspend($subscription, new \DateTimeImmutable()));
}
/**
* @test
*/
public function it_returns_false_when_a_subscription_is_not_expired(): void
{
$policy = new CannotSuspendExpiredSubscriptionPolicy();
$subscription = $this->createStub(Subscription::class);
$subscription->method('isExpired')->willReturn(false);
self::assertTrue($policy->suspend($subscription, new \DateTimeImmutable()));
}
}class CannotSuspendNewSubscriptionPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
if ($subscription->isNew()) {
return false;
}
return true;
}
}class CannotSuspendNewSubscriptionPolicyTest extends TestCase
{
/**
* @test
*/
public function it_returns_false_when_a_subscription_is_new(): void
{
$policy = new CannotSuspendNewSubscriptionPolicy();
$subscription = $this->createStub(Subscription::class);
$subscription->method('isNew')->willReturn(true);
self::assertFalse($policy->suspend($subscription, new \DateTimeImmutable()));
}
/**
* @test
*/
public function it_returns_true_when_a_subscription_is_not_new(): void
{
$policy = new CannotSuspendNewSubscriptionPolicy();
$subscription = $this->createStub(Subscription::class);
$subscription->method('isNew')->willReturn(false);
self::assertTrue($policy->suspend($subscription, new \DateTimeImmutable()));
}
}class CanSuspendAfterOneMonthPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
$oneMonthEarlierDate = \DateTime::createFromImmutable($at)->sub(new \DateInterval('P1M'));
return $subscription->isOlderThan(\DateTimeImmutable::createFromMutable($oneMonthEarlierDate));
}
}class CanSuspendAfterOneMonthPolicyTest extends TestCase
{
/**
* @test
*/
public function it_returns_true_when_a_subscription_is_older_than_one_month(): void
{
$date = new \DateTimeImmutable('2021-01-29');
$policy = new CanSuspendAfterOneMonthPolicy();
$subscription = new Subscription(new \DateTimeImmutable('2020-12-28'));
self::assertTrue($policy->suspend($subscription, $date));
}
/**
* @test
*/
public function it_returns_false_when_a_subscription_is_not_older_than_one_month(): void
{
$date = new \DateTimeImmutable('2021-01-29');
$policy = new CanSuspendAfterOneMonthPolicy();
$subscription = new Subscription(new \DateTimeImmutable('2020-01-01'));
self::assertTrue($policy->suspend($subscription, $date));
}
}class Status
{
private const EXPIRED = 'expired';
private const ACTIVE = 'active';
private const NEW = 'new';
private const SUSPENDED = 'suspended';
private string $status;
private function __construct(string $status)
{
$this->status = $status;
}
public static function expired(): self
{
return new self(self::EXPIRED);
}
public static function active(): self
{
return new self(self::ACTIVE);
}
public static function new(): self
{
return new self(self::NEW);
}
public static function suspended(): self
{
return new self(self::SUSPENDED);
}
public function isEqual(self $status): bool
{
return $this->status === $status->status;
}
}class StatusTest extends TestCase
{
public function testEquals(): void
{
$status1 = Status::active();
$status2 = Status::active();
self::assertTrue($status1->isEqual($status2));
}
public function testNotEquals(): void
{
$status1 = Status::active();
$status2 = Status::expired();
self::assertFalse($status1->isEqual($status2));
}
}class SubscriptionTest extends TestCase
{
/**
* @test
*/
public function suspending_a_subscription_is_possible_when_a_policy_returns_true(): void
{
$policy = $this->createMock(SuspendingPolicyInterface::class);
$policy->expects($this->once())->method('suspend')->willReturn(true);
$sut = new Subscription(new \DateTimeImmutable());
$result = $sut->suspend($policy, new \DateTimeImmutable());
self::assertTrue($result);
self::assertTrue($sut->isSuspended());
}
/**
* @test
*/
public function suspending_a_subscription_is_not_possible_when_a_policy_returns_false(): void
{
$policy = $this->createMock(SuspendingPolicyInterface::class);
$policy->expects($this->once())->method('suspend')->willReturn(false);
$sut = new Subscription(new \DateTimeImmutable());
$result = $sut->suspend($policy, new \DateTimeImmutable());
self::assertFalse($result);
self::assertFalse($sut->isSuspended());
}
/**
* @test
*/
public function it_returns_true_when_a_subscription_is_older_than_one_month(): void
{
$date = new \DateTimeImmutable();
$futureDate = $date->add(new \DateInterval('P1M'));
$sut = new Subscription($date);
self::assertTrue($sut->isOlderThan($futureDate));
}
/**
* @test
*/
public function it_returns_false_when_a_subscription_is_not_older_than_one_month(): void
{
$date = new \DateTimeImmutable();
$futureDate = $date->add(new \DateInterval('P1D'));
$sut = new Subscription($date);
self::assertTrue($sut->isOlderThan($futureDate));
}
}final class CannotSuspendExpiredSubscriptionPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
if ($subscription->isExpired()) {
return false;
}
return true;
}
}final class CannotSuspendNewSubscriptionPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
if ($subscription->isNew()) {
return false;
}
return true;
}
}final class CanSuspendAfterOneMonthPolicy implements SuspendingPolicyInterface
{
public function suspend(Subscription $subscription, \DateTimeImmutable $at): bool
{
$oneMonthEarlierDate = \DateTime::createFromImmutable($at)->sub(new \DateInterval('P1M'));
return $subscription->isOlderThan(\DateTimeImmutable::createFromMutable($oneMonthEarlierDate));
}
}final class Status
{
private const EXPIRED = 'expired';
private const ACTIVE = 'active';
private const NEW = 'new';
private const SUSPENDED = 'suspended';
private string $status;
private function __construct(string $status)
{
$this->status = $status;
}
public static function expired(): self
{
return new self(self::EXPIRED);
}
public static function active(): self
{
return new self(self::ACTIVE);
}
public static function new(): self
{
return new self(self::NEW);
}
public static function suspended(): self
{
return new self(self::SUSPENDED);
}
public function isEqual(self $status): bool
{
return $this->status === $status->status;
}
}final class Subscription
{
private Status $status;
private \DateTimeImmutable $createdAt;
public function __construct(\DateTimeImmutable $createdAt)
{
$this->status = Status::new();
$this->createdAt = $createdAt;
}
public function suspend(SuspendingPolicyInterface $suspendingPolicy, \DateTimeImmutable $at): bool
{
$result = $suspendingPolicy->suspend($this, $at);
if ($result) {
$this->status = Status::suspended();
}
return $result;
}
public function isOlderThan(\DateTimeImmutable $date): bool
{
return $this->createdAt < $date;
}
public function activate(): void
{
$this->status = Status::active();
}
public function expire(): void
{
$this->status = Status::expired();
}
public function isExpired(): bool
{
return $this->status->isEqual(Status::expired());
}
public function isActive(): bool
{
return $this->status->isEqual(Status::active());
}
public function isNew(): bool
{
return $this->status->isEqual(Status::new());
}
public function isSuspended(): bool
{
return $this->status->isEqual(Status::suspended());
}
}final class SubscriptionSuspendingTest extends TestCase
{
/**
* @test
*/
public function suspending_an_expired_subscription_with_cannot_suspend_expired_policy_is_not_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable());
$sut->activate();
$sut->expire();
$result = $sut->suspend(new CannotSuspendExpiredSubscriptionPolicy(), new \DateTimeImmutable());
self::assertFalse($result);
}
/**
* @test
*/
public function suspending_a_new_subscription_with_cannot_suspend_new_policy_is_not_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable());
$result = $sut->suspend(new CannotSuspendNewSubscriptionPolicy(), new \DateTimeImmutable());
self::assertFalse($result);
}
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_new_policy_is_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable());
$sut->activate();
$result = $sut->suspend(new CannotSuspendNewSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_expired_policy_is_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable());
$sut->activate();
$result = $sut->suspend(new CannotSuspendExpiredSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_an_subscription_before_a_one_month_is_not_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable('2020-01-01'));
$result = $sut->suspend(new CanSuspendAfterOneMonthPolicy(), new \DateTimeImmutable('2020-01-10'));
self::assertFalse($result);
}
/**
* @test
*/
public function suspending_an_subscription_after_a_one_month_is_possible(): void
{
$sut = new Subscription(new \DateTimeImmutable('2020-01-01'));
$result = $sut->suspend(new CanSuspendAfterOneMonthPolicy(), new \DateTimeImmutable('2020-02-02'));
self::assertTrue($result);
}
}How to properly unit test a class like this?
class ApplicationService
{
public function __construct(
private OrderRepository $orderRepository,
private FormRepository $formRepository
) {}
public function changeFormStatus(int $orderId): void
{
$order = $this->orderRepository->getById($orderId);
$soapResponse = $this->getSoapClient()->getStatusByOrderId($orderId);
$form = $this->formRepository->getByOrderId($orderId);
$form->setStatus($soapResponse['status']);
$form->setModifiedAt(new \DateTimeImmutable());
if ($soapResponse['status'] === 'accepted') {
$order->setStatus('paid');
}
$this->formRepository->save($form);
$this->orderRepository->save($order);
}
private function getSoapClient(): \SoapClient
{
return new \SoapClient('https://legacy_system.pl/Soap/WebService', []);
}
}final class ApplicationService
{
public function __construct(
private OrderRepositoryInterface $orderRepository,
private FormRepositoryInterface $formRepository,
private FormApiInterface $formApi,
private ChangeFormStatusService $changeFormStatusService
) {}
public function changeFormStatus(int $orderId): void
{
$order = $this->orderRepository->getById($orderId);
$form = $this->formRepository->getByOrderId($orderId);
$status = $this->formApi->getStatusByOrderId($orderId);
$this->changeFormStatusService->changeStatus($order, $form, $status);
$this->formRepository->save($form);
$this->orderRepository->save($order);
}
}final class ChangeFormStatusService
{
public function changeStatus(Order $order, Form $form, string $formStatus): void
{
$status = FormStatus::createFromString($formStatus);
$form->changeStatus($status);
if ($form->isAccepted()) {
$order->changeStatus(OrderStatus::paid());
}
}
}final class ChangingFormStatusTest extends TestCase
{
/**
* @test
*/
public function changing_a_form_status_to_accepted_changes_an_order_status_to_paid(): void
{
$order = new Order();
$form = new Form();
$status = 'accepted';
$sut = new ChangeFormStatusService();
$sut->changeStatus($order, $form, $status);
self::assertTrue($form->isAccepted());
self::assertTrue($order->isPaid());
}
/**
* @test
*/
public function changing_a_form_status_to_refused_not_changes_an_order_status(): void
{
$order = new Order();
$form = new Form();
$status = 'new';
$sut = new ChangeFormStatusService();
$sut->changeStatus($order, $form, $status);
self::assertFalse($form->isAccepted());
self::assertFalse($order->isPaid());
}
}However, ApplicationService probably should be tested by an integration test with only mocked FormApiInterface.
final class Customer
{
public function __construct(private string $name) {}
public function getName(): string
{
return $this->name;
}
public function setName(string $name): void
{
$this->name = $name;
}
}final class CustomerTest extends TestCase
{
public function testSetName(): void
{
$customer = new Customer('Jack');
$customer->setName('John');
self::assertSame('John', $customer->getName());
}
}final class EventSubscriber
{
public static function getSubscribedEvents(): array
{
return ['event' => 'onEvent'];
}
public function onEvent(): void
{
}
}final class EventSubscriberTest extends TestCase
{
public function testGetSubscribedEvents(): void
{
$result = EventSubscriber::getSubscribedEvents();
self::assertSame(['event' => 'onEvent'], $result);
}
}final class UserRepository
{
public function __construct(
private Connection $connection
) {}
public function getUserNameByEmail(string $email): ?array
{
return $this
->connection
->createQueryBuilder()
->from('user', 'u')
->where('u.email = :email')
->setParameter('email', $email)
->execute()
->fetch();
}
}final class TestUserRepository extends TestCase
{
public function testGetUserNameByEmail(): void
{
$email = 'test@test.com';
$connection = $this->createMock(Connection::class);
$queryBuilder = $this->createMock(QueryBuilder::class);
$result = $this->createMock(ResultStatement::class);
$userRepository = new UserRepository($connection);
$connection
->expects($this->once())
->method('createQueryBuilder')
->willReturn($queryBuilder);
$queryBuilder
->expects($this->once())
->method('from')
->with('user', 'u')
->willReturn($queryBuilder);
$queryBuilder
->expects($this->once())
->method('where')
->with('u.email = :email')
->willReturn($queryBuilder);
$queryBuilder
->expects($this->once())
->method('setParameter')
->with('email', $email)
->willReturn($queryBuilder);
$queryBuilder
->expects($this->once())
->method('execute')
->willReturn($result);
$result
->expects($this->once())
->method('fetch')
->willReturn(['email' => $email]);
$result = $userRepository->getUserNameByEmail($email);
self::assertSame(['email' => $email], $result);
}
}final class InvalidTest extends TestCase
{
private ?Subscription $subscription;
public function setUp(): void
{
$this->subscription = new Subscription(new \DateTimeImmutable());
$this->subscription->activate();
}
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_new_policy_is_possible(): void
{
$result = $this->subscription->suspend(new CannotSuspendNewSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_expired_policy_is_possible(): void
{
$result = $this->subscription->suspend(new CannotSuspendExpiredSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_a_new_subscription_with_cannot_suspend_new_policy_is_not_possible(): void
{
// Here we need to create a new subscription, it is not possible to change $this->subscription to a new subscription
}
}final class ValidTest extends TestCase
{
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_new_policy_is_possible(): void
{
$sut = $this->createAnActiveSubscription();
$result = $sut->suspend(new CannotSuspendNewSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_an_active_subscription_with_cannot_suspend_expired_policy_is_possible(): void
{
$sut = $this->createAnActiveSubscription();
$result = $sut->suspend(new CannotSuspendExpiredSubscriptionPolicy(), new \DateTimeImmutable());
self::assertTrue($result);
}
/**
* @test
*/
public function suspending_a_new_subscription_with_cannot_suspend_new_policy_is_not_possible(): void
{
$sut = $this->createANewSubscription();
$result = $sut->suspend(new CannotSuspendNewSubscriptionPolicy(), new \DateTimeImmutable());
self::assertFalse($result);
}
private function createANewSubscription(): Subscription
{
return new Subscription(new \DateTimeImmutable());
}
private function createAnActiveSubscription(): Subscription
{
$subscription = new Subscription(new \DateTimeImmutable());
$subscription->activate();
return $subscription;
}
}final class Customer
{
private CustomerType $type;
private DiscountCalculationPolicyInterface $discountCalculationPolicy;
public function __construct()
{
$this->type = CustomerType::NORMAL();
$this->discountCalculationPolicy = new NormalDiscountPolicy();
}
public function makeVip(): void
{
$this->type = CustomerType::VIP();
$this->discountCalculationPolicy = new VipDiscountPolicy();
}
public function getCustomerType(): CustomerType
{
return $this->type;
}
public function getPercentageDiscount(): int
{
return $this->discountCalculationPolicy->getPercentageDiscount();
}
}final class InvalidTest extends TestCase
{
public function testMakeVip(): void
{
$sut = new Customer();
$sut->makeVip();
self::assertSame(CustomerType::VIP(), $sut->getCustomerType());
}
}final class Customer
{
private CustomerType $type;
private DiscountCalculationPolicyInterface $discountCalculationPolicy;
public function __construct()
{
$this->type = CustomerType::NORMAL();
$this->discountCalculationPolicy = new NormalDiscountPolicy();
}
public function makeVip(): void
{
$this->type = CustomerType::VIP();
$this->discountCalculationPolicy = new VipDiscountPolicy();
}
public function getPercentageDiscount(): int
{
return $this->discountCalculationPolicy->getPercentageDiscount();
}
}final class ValidTest extends TestCase
{
/**
* @test
*/
public function a_vip_customer_has_a_25_percentage_discount(): void
{
$sut = new Customer();
$sut->makeVip();
self::assertSame(25, $sut->getPercentageDiscount());
}
}final class DiscountCalculator
{
public function calculate(int $isVipFromYears): int
{
Assert::greaterThanEq($isVipFromYears, 0);
return min(($isVipFromYears * 10) + 3, 80);
}
}final class InvalidTest extends TestCase
{
/**
* @dataProvider discountDataProvider
*/
public function testCalculate(int $vipDaysFrom, int $expected): void
{
$sut = new DiscountCalculator();
self::assertSame($expected, $sut->calculate($vipDaysFrom));
}
public function discountDataProvider(): array
{
return [
[0, 0 * 10 + 3], //leaking domain details
[1, 1 * 10 + 3],
[5, 5 * 10 + 3],
[8, 80]
];
}
}final class ValidTest extends TestCase
{
/**
* @dataProvider discountDataProvider
*/
public function testCalculate(int $vipDaysFrom, int $expected): void
{
$sut = new DiscountCalculator();
self::assertSame($expected, $sut->calculate($vipDaysFrom));
}
public function discountDataProvider(): array
{
return [
[0, 3],
[1, 13],
[5, 53],
[8, 80]
];
}
}class DiscountCalculator
{
public function calculateInternalDiscount(int $isVipFromYears): int
{
Assert::greaterThanEq($isVipFromYears, 0);
return min(($isVipFromYears * 10) + 3, 80);
}
public function calculateAdditionalDiscountFromExternalSystem(): int
{
// get data from an external system to calculate a discount
return 5;
}
}class OrderService
{
public function __construct(private DiscountCalculator $discountCalculator) {}
public function getTotalPriceWithDiscount(int $totalPrice, int $vipFromDays): int
{
$internalDiscount = $this->discountCalculator->calculateInternalDiscount($vipFromDays);
$externalDiscount = $this->discountCalculator->calculateAdditionalDiscountFromExternalSystem();
$discountSum = $internalDiscount + $externalDiscount;
return $totalPrice - (int) ceil(($totalPrice * $discountSum) / 100);
}
}final class InvalidTest extends TestCase
{
/**
* @dataProvider orderDataProvider
*/
public function testGetTotalPriceWithDiscount(int $totalPrice, int $vipDaysFrom, int $expected): void
{
$discountCalculator = $this->createPartialMock(DiscountCalculator::class, ['calculateAdditionalDiscountFromExternalSystem']);
$discountCalculator->method('calculateAdditionalDiscountFromExternalSystem')->willReturn(5);
$sut = new OrderService($discountCalculator);
self::assertSame($expected, $sut->getTotalPriceWithDiscount($totalPrice, $vipDaysFrom));
}
public function orderDataProvider(): array
{
return [
[1000, 0, 920],
[500, 1, 410],
[644, 5, 270],
];
}
}interface ExternalDiscountCalculatorInterface
{
public function calculate(): int;
}final class InternalDiscountCalculator
{
public function calculate(int $isVipFromYears): int
{
Assert::greaterThanEq($isVipFromYears, 0);
return min(($isVipFromYears * 10) + 3, 80);
}
}final class OrderService
{
public function __construct(
private InternalDiscountCalculator $discountCalculator,
private ExternalDiscountCalculatorInterface $externalDiscountCalculator
) {}
public function getTotalPriceWithDiscount(int $totalPrice, int $vipFromDays): int
{
$internalDiscount = $this->discountCalculator->calculate($vipFromDays);
$externalDiscount = $this->externalDiscountCalculator->calculate();
$discountSum = $internalDiscount + $externalDiscount;
return $totalPrice - (int) ceil(($totalPrice * $discountSum) / 100);
}
}final class ValidTest extends TestCase
{
/**
* @dataProvider orderDataProvider
*/
public function testGetTotalPriceWithDiscount(int $totalPrice, int $vipDaysFrom, int $expected): void
{
$externalDiscountCalculator = $this->createStub(ExternalDiscountCalculatorInterface::class);
$externalDiscountCalculator->method('calculate')->willReturn(5);
$sut = new OrderService(new InternalDiscountCalculator(), $externalDiscountCalculator);
self::assertSame($expected, $sut->getTotalPriceWithDiscount($totalPrice, $vipDaysFrom));
}
public function orderDataProvider(): array
{
return [
[1000, 0, 920],
[500, 1, 410],
[644, 5, 270],
];
}
}final class OrderItem
{
public function __construct(private int $total) {}
public function getTotal(): int
{
return $this->total;
}
}final class Order
{
/**
* @param OrderItem[] $items
* @param int $transportCost
*/
public function __construct(private array $items, private int $transportCost) {}
public function getTotal(): int
{
return $this->getItemsTotal() + $this->transportCost;
}
private function getItemsTotal(): int
{
return array_reduce(
array_map(fn (OrderItem $item) => $item->getTotal(), $this->items),
fn (int $sum, int $total) => $sum += $total,
0
);
}
}final class InvalidTest extends TestCase
{
/**
* @test
* @dataProvider ordersDataProvider
*/
public function get_total_returns_a_total_cost_of_a_whole_order(Order $order, int $expectedTotal): void
{
self::assertSame($expectedTotal, $order->getTotal());
}
/**
* @test
* @dataProvider orderItemsDataProvider
*/
public function get_items_total_returns_a_total_cost_of_all_items(Order $order, int $expectedTotal): void
{
self::assertSame($expectedTotal, $this->invokePrivateMethodGetItemsTotal($order));
}
public function ordersDataProvider(): array
{
return [
[new Order([new OrderItem(20), new OrderItem(20), new OrderItem(20)], 15), 75],
[new Order([new OrderItem(20), new OrderItem(30), new OrderItem(40)], 0), 90],
[new Order([new OrderItem(99), new OrderItem(99), new OrderItem(99)], 9), 306]
];
}
public function orderItemsDataProvider(): array
{
return [
[new Order([new OrderItem(20), new OrderItem(20), new OrderItem(20)], 15), 60],
[new Order([new OrderItem(20), new OrderItem(30), new OrderItem(40)], 0), 90],
[new Order([new OrderItem(99), new OrderItem(99), new OrderItem(99)], 9), 297]
];
}
private function invokePrivateMethodGetItemsTotal(Order &$order): int
{
$reflection = new \ReflectionClass(get_class($order));
$method = $reflection->getMethod('getItemsTotal');
$method->setAccessible(true);
return $method->invokeArgs($order, []);
}
}final class ValidTest extends TestCase
{
/**
* @test
* @dataProvider ordersDataProvider
*/
public function get_total_returns_a_total_cost_of_a_whole_order(Order $order, int $expectedTotal): void
{
self::assertSame($expectedTotal, $order->getTotal());
}
public function ordersDataProvider(): array
{
return [
[new Order([new OrderItem(20), new OrderItem(20), new OrderItem(20)], 15), 75],
[new Order([new OrderItem(20), new OrderItem(30), new OrderItem(40)], 0), 90],
[new Order([new OrderItem(99), new OrderItem(99), new OrderItem(99)], 9), 306]
];
}
}final class Clock
{
public static \DateTime|null $currentDateTime = null;
public static function getCurrentDateTime(): \DateTime
{
if (null === self::$currentDateTime) {
self::$currentDateTime = new \DateTime();
}
return self::$currentDateTime;
}
public static function set(\DateTime $dateTime): void
{
self::$currentDateTime = $dateTime;
}
public static function reset(): void
{
self::$currentDateTime = null;
}
}final class Customer
{
private \DateTime $createdAt;
public function __construct()
{
$this->createdAt = Clock::getCurrentDateTime();
}
public function isVip(): bool
{
return $this->createdAt->diff(Clock::getCurrentDateTime())->y >= 1;
}
}final class InvalidTest extends TestCase
{
/**
* @test
*/
public function a_customer_registered_more_than_a_one_year_ago_is_a_vip(): void
{
Clock::set(new \DateTime('2019-01-01'));
$sut = new Customer();
Clock::reset(); // you have to remember about resetting the shared state
self::assertTrue($sut->isVip());
}
/**
* @test
*/
public function a_customer_registered_less_than_a_one_year_ago_is_not_a_vip(): void
{
Clock::set((new \DateTime())->sub(new \DateInterval('P2M')));
$sut = new Customer();
Clock::reset(); // you have to remember about resetting the shared state
self::assertFalse($sut->isVip());
}
}interface ClockInterface
{
public function getCurrentTime(): \DateTimeImmutable;
}final class Clock implements ClockInterface
{
private function __construct()
{
}
public static function create(): self
{
return new self();
}
public function getCurrentTime(): \DateTimeImmutable
{
return new \DateTimeImmutable();
}
}final class FixedClock implements ClockInterface
{
private function __construct(private \DateTimeImmutable $fixedDate) {}
public static function create(\DateTimeImmutable $fixedDate): self
{
return new self($fixedDate);
}
public function getCurrentTime(): \DateTimeImmutable
{
return $this->fixedDate;
}
}final class Customer
{
private \DateTimeImmutable $createdAt;
public function __construct(\DateTimeImmutable $createdAt)
{
$this->createdAt = $createdAt;
}
public function isVip(\DateTimeImmutable $currentDate): bool
{
return $this->createdAt->diff($currentDate)->y >= 1;
}
}final class ValidTest extends TestCase
{
/**
* @test
*/
public function a_customer_registered_more_than_a_one_year_ago_is_a_vip(): void
{
$sut = new Customer(FixedClock::create(new \DateTimeImmutable('2019-01-01'))->getCurrentTime());
self::assertTrue($sut->isVip(FixedClock::create(new \DateTimeImmutable('2020-01-02'))->getCurrentTime()));
}
/**
* @test
*/
public function a_customer_registered_less_than_a_one_year_ago_is_not_a_vip(): void
{
$sut = new Customer(FixedClock::create(new \DateTimeImmutable('2019-01-01'))->getCurrentTime());
self::assertFalse($sut->isVip(FixedClock::create(new \DateTimeImmutable('2019-05-02'))->getCurrentTime()));
}
}100% Coverage is not the goal or even is undesirable because if there is 100% coverage, tests probably will be very fragile, which means refactoring will be very hard. Mutation testing gives better feedback about the quality of tests. Read more