Refrain from using your DI container within your unit tests. In unit tests, you try to test one class or module in isolation, and there is little use for a DI container in that area.
Things are different with integration testing, since you want to test how the components in your system integrate and work together. In that case you often use your production DI configuration and swap out some of your services for fake services (e.g. a
EmailService) but stick as close to the real thing as you can. In this case you would typically use your Container to resolve the whole object graph.
The desire to use a DI container in the unit tests as well, often stems from ineffective patterns. For instance, in case you try to create the class under test with all its dependencies in each test, you get lots of duplicated initialization code, and a little change in your class under test can in that case ripple through the system and require you to change dozens of unit tests. This obviously causes maintainability problems.
One pattern that helped me out here a lot in the past is the use of a simple SUT-specific factory method. This method centralizes the creation of the class under test and minimizes the amount of changes that need to be made when the dependencies of the class under test change. This is how such factory method could look like:
private ClassUnderTest CreateClassUnderTest(
ILogger logger = null,
IMailSender mailSender = null,
IEventPublisher publisher = null)
return new ClassUnderTest(
logger ?? new FakeLogger(),
mailSender ?? new FakeMailer(),
publisher ?? new FakePublisher());
The factory method's arguments duplicate the class's constructor arguments, but makes them all optional. For any particular dependency that is not supplied by the caller, a new default fake implementation will be injected.
This typically works very well, because in most tests you are just interested in one or two dependencies. The other dependencies might be required for the class to function, but might not be interesting for that specific test. The factory method, therefore, allows you to only supply the dependencies that are interesting for the test at hand, while removing the noise of unused dependencies from the test method. As an example using the factory method, here's a test method:
public void Doing_something_will_always_log_a_message()
var logger = new ListLogger();
ClassUnderTest sut = CreateClassUnderTest(logger: logger);
Assert.IsTrue(logger.Count > 0);
If you are interested in learning how to write Readable, Trustworthy and Maintainable (RTM) tests, Roy Osherove's book The Art of Unit Testing (second edition) is an excellent read. This has helped me tremendously in my understanding of writing great unit tests. If you’re interested in a deep-dive into Dependency Injection and its related patterns, consider reading Dependency Injection Principles, Practices, and Patterns (which I co-authored).