Exception testing
https://github.com/junit-team/junit/wiki/Exception-testing
Exception testing
Expected Exceptions
How do you verify that code throws exceptions as expected? Verifying that code completes normally is important, but making sure the code behaves as expected in exceptional situations is vital too. For example:
new ArrayList<Object>().get(0);
This code should throw an IndexOutOfBoundsException. The @Test
annotation has an optional parameter "expected
" that takes as values subclasses of Throwable
. If we wanted to verify that ArrayList
throws the correct exception, we would write:
@Test(expected= IndexOutOfBoundsException.class)
public void empty() {
new ArrayList<Object>().get(0);
}
The expected
parameter should be used with care. The above test will pass if any code in the method throws IndexOutOfBoundsException
. For longer tests, it's recommended to use the ExpectedException
rule, which is described below.
Deeper Testing of the Exception
The above approach is useful for simple cases, but it has its limits. For example, you can't test the value of the message in the exception, or the state of a domain object after the exception has been thrown.
Try/Catch Idiom
To address this you can use the try/catch idiom which prevailed in JUnit 3.x:
@Test
public void testExceptionMessage() {
try {
new ArrayList<Object>().get(0);
fail("Expected an IndexOutOfBoundsException to be thrown");
} catch (IndexOutOfBoundsException anIndexOutOfBoundsException) {
assertThat(anIndexOutOfBoundsException.getMessage(), is("Index: 0, Size: 0"));
}
}
ExpectedException Rule
Alternatively, use the ExpectedException
rule. This rule lets you indicate not only what exception you are expecting, but also the exception message you are expecting:
@Rule
public ExpectedException thrown = ExpectedException.none();
@Test
public void shouldTestExceptionMessage() throws IndexOutOfBoundsException {
List<Object> list = new ArrayList<Object>();
thrown.expect(IndexOutOfBoundsException.class);
thrown.expectMessage("Index: 0, Size: 0");
list.get(0); // execution will never get past this line
}
The expectMessage also lets you use Matchers, which gives you a bit more flexibility in your tests. An example:
thrown.expectMessage(JUnitMatchers.containsString("Size: 0"));
For an expanded discussion of the ExpectedException
rule, see this blog post.