I must be missing something here. The JavaDoc of
ActivityUnitTestCase suggest that this test case tests an Activity in isolation from the system:
This class provides isolated testing of a single activity. The activity under test will be created with minimal connection to the system infrastructure, and you can inject mocked or wrappered versions of many of Activity's dependencies.
I was assuming that includes not actually starting the application. Moreover, it exposes a
setApplication helper that one can presumably use to inject a mock application.
ActivityUnitTestCase I start launches the (actual) application and calls its
onCreate method. More precisely, the
InstrumentationTestRunner seems to be doing that, and doing so even before I get a chance to
setApplication in my test's
setUp method! I didn't even notice that for quite a while, since it seems to happen at a point during test suite launch where not even Eclipse breakpoints are reached, but writing to the logs in
onCreate reveals that it's actually called.
This is completely beyond me. Why would I want to use a mock app object when Android's test runner instantiates and executes the actual application anyway? This is even more problematic considering that the instrumentation runner runs in its own thread, and spawns the main application thread when doing so. This means there is a race condition between the test being executed and
Application.onCreate being called. If you do anything in there that could affect your tests, e.g. writing to a shared preference file, then you're completely screwed, since your tests will randomly fail.
Am I missing something or is this simply a gross oversight in the test framework?
This seems to affect
ApplicationTestCase as well. Before my test case is even started, I can reach a breakpoint in my application class'
onCreate. We start a fire-and-forget AsyncTask in there, which will randomly fail because I get no chance to mock it out (remember, that's before
setUp is called on my test case). Here is the stack trace I see during this obscure invocation of onCreate:
Thread [<1> main] (Suspended (breakpoint at line 86 in QypeRadar)) QypeRadar.onCreate() line: 86 InstrumentationTestRunner(Instrumentation).callApplicationOnCreate(Application) line: 969 ActivityThread.handleBindApplication(ActivityThread$AppBindData) line: 4244 ActivityThread.access$3000(ActivityThread, ActivityThread$AppBindData) line: 125 ActivityThread$H.handleMessage(Message) line: 2071 ActivityThread$H(Handler).dispatchMessage(Message) line: 99 Looper.loop() line: 123 ActivityThread.main(String) line: 4627 Method.invokeNative(Object, Object, Class, Class, Class, int, boolean) line: not available [native method] Method.invoke(Object, Object...) line: 521 ZygoteInit$MethodAndArgsCaller.run() line: 868 ZygoteInit.main(String) line: 626 NativeStart.main(String) line: not available [native method]
Why does the test runner
callApplicationOnCreate even though the docs clearly state:
The test case will not call onCreate() until your test calls createApplication(). This gives you a chance to set up or adjust any additional framework or test logic before onCreate().
That's a flat out lie--it doesn't give me the chance!
callApplicationOnCreateand leave it to the test case to decide whether that's wanted or not. Not sure what effect that will have on other tests though. 2) Rewrite our onCreate method to be side effect free and idempotent (recall that it will be called twice, since for the test case to work you also have to call
callApplicationOnCreate, now everything works as expected for unit tests. For functional tests, I would still need the default test runner that performs a full launch, so I now have two test runners, which is a bit of a pain.
callApplicationOnCreateonly for the appropriate test case types, allowing you to create a patch for the test runner that you could send upstream?
adb shell am instrument, pair the package under test with the appropriate test runner. Of course this means there will be two separate tests runs, but that's fair enough I guess. Things get more complicated in Eclipse/ADT. Here you have to define for every single test case which test runner to use in the Eclipse run configuration.