F.I.R.S.T., F.I.I.R.S.T. and FASRCS
Yes, the confusion partly has the reason, that the F.I.R.S.T. principle is not complete or concise enough concerning the "I". In courses I attended the principle was called F.I.I.R.S.T.
The second "I" stands for "Isolated". The test above is independent from other tests, but is not isolated in a separate class or project.
Isolation can mean:
A unit tests isolates functionality out of a SUT (system under test). You can isolate functionality even out of one single function. This draws the line between unit tests or their relatives component tests and integration tests, and of course to system tests.
"Tests isolate failures. A developer should never have to reverse-engineer tests or the code being tested to know what went wrong. Each test class name and test method name with the text of the assertion should state exactly what is wrong and where." Ref.: History of FIRST principle
A unit test could be isolated from the SUT which it tests in a different developer artifact (class, package, development project) and/or delivery artifact (Dll, package, assembly).
Unit tests, testing the same SUT, especially their containing Asserts, should be isolated from each other in different test functions, but this is only a recommendation. Ideally each unit test contains only one assert.
Unit tests, testing different SUTs, should be isolated from each other or from other kind of tests of course further more in different classes or other mentioned artifacts.
Independence can mean:
Unit tests should not rely on each other (explicit independency), with the exception of special "setup" and "teardown" functions, but even this is subject for a discussion.
Especially unit tests should be order-independant (implicit independency). The result should not depend on unit tests executed before. While this sounds trivial, it isn't. There are tests which cannot avoid doing initializations and/or starting runtimes. Just one shared (e.g. class) variable and the SUT could react differently, if it was started before. You make an outside call to the operating system? Some dll will be loaded first time? You already have a potential dependency, at least on OS level- sometimes only minor, sometimes essential to not discover an error. It may be necessary to add cleanup code to reach optimal independency of tests.
Unit tests should be independant as much as possible from the runtime environment and not depend on a specific test environment or setting. This belongs also partly to "Repeatable".
No need to fillout twenty user dialogs before. No need to start the server. No need to make the database available. No need for another component. No need for a network. To accomplish that, often test doubles are used (stubs, mocks, fakes, dummies, spies, ..).
(Gerard Meszaros' classic work on: xUnit patterns, here coining the name 'test double' and defining different kinds of)
(Test double zoo quickly explained)
(Follow Martin Fowler 2007, thinking about stubs, mocks, etc. Classic)
- While a unit test is never totally independant from it's SUT, ideally it should be independant as much as possible from the current implementation and only rely on the public interface of the function or class tested (SUT).
Conclusion: In this interpretations the word 'isolation' stresses more the physical location which often implies logical independence to some extent (e.g. class level isolation).
No completeness concerning potentially more accentuations and meanings claimed.
See also comments here.
But there are more properties of (good) unit tests: Roy Osherove found some more attributes in his book "The art of unit testing" which I don't find exactly in the F.I.I.R.S.T. principle (link to his book site), and which are cited here with my own words (and acronym):
Full control of SUT: the unit test should have full control of the SUT. I see this effectively identical as being independent from the test and runtime environment (e.g. using mocks, etc.). But because of independency is so ambigous, it makes sense to spend a separate letter.
Automated (related to repeatable and self-checking, but not the same)
identically). This one requires a test (runner) infrastructure.
Small, simple or in his words: "easy to implement" (again, related, but not identical). Often related to "Fast"
Relevant: The test should be relevant tomorrow. This one of the most difficult requirements to acchieve, and depending of the "school" there may be a need for temporary unit tests during TDD too. When a test is only testing the contracts, this is acchieved, but that may be not enough for high code coverage requirements.
Consistent result: Effectively a result of "enough" independency. Consistency is, what some people include in "Repeatable". There is an essential overlap, but they are not identical.
Self-explaining: In terms of naming, structure of the whole test, and specifically of the syntax of the assert as the key line, it should be clear what is tested, and what could be wrong if a test fails. Related to "Tests isolate failures", see above.
Given all these spedific points, it should be more clear than before, that it is all but simple to write (good) unit tests.