Java 8 makes this a lot easier, and Kotlin/Scala doubly so.
We can write a little utility class
class MyAssertions{
public static void assertDoesNotThrow(FailingRunnable action){
try{
action.run()
}
catch(Exception ex){
throw new Error("expected action not to throw, but it did!", ex)
}
}
}
@FunctionalInterface interface FailingRunnable { void run() throws Exception }
and then your code becomes simply:
@Test
public void foo(){
MyAssertions.assertDoesNotThrow(() -> {
//execute code that you expect not to throw Exceptions.
}
}
If you dont have access to Java-8, I would use a painfully old java facility: aribitrary code blocks and a simple comment
//setup
Component component = new Component();
//act
configure(component);
//assert
/*assert does not throw*/{
component.doSomething();
}
And finally, with kotlin, a language I've recently fallen in love with:
fun (() -> Any?).shouldNotThrow()
= try { invoke() } catch (ex : Exception){ throw Error("expected not to throw!", ex) }
@Test fun `when foo happens should not throw`(){
//...
{ /*code that shouldn't throw*/ }.shouldNotThrow()
}
Though there is a lot of room to fiddle with exactly how you want to express this, I was always a fan of fluent assertions.
Regarding
You're approaching this the wrong way. Just test your functionality: if an exception is thrown the test will automatically fail. If no exception is thrown, your tests will all turn up green.
This is correct in principle but incorrect in conclusion.
Java allows exceptions for flow of control. This is done by the JRE runtime itself in APIs like Double.parseDouble
via a NumberFormatException
and Paths.get
via a InvalidPathException
.
Given you've written a component that validates Number strings for Double.ParseDouble
, maybe using a Regex, maybe a hand-written parser, or perhaps something that embeds some other domain rules that restricts the range of a double to something specific, how best to test this component? I think an obvious test would be to assert that, when the resulting string is parsed, no exception is thrown. I would write that test using either the above assertDoesNotThrow
or /*comment*/{code}
block. Something like
@Test public void given_validator_accepts_string_result_should_be_interpretable_by_doubleParseDouble(){
//setup
String input = "12.34E+26" //a string double with domain significance
//act
boolean isValid = component.validate(input)
//assert -- using the library 'assertJ', my personal favourite
assertThat(isValid).describedAs(input + " was considered valid by component").isTrue();
assertDoesNotThrow(() -> Double.parseDouble(input));
}
I would also encourage you to parameterize this test on input
using Theories
or Parameterized
so that you can more easily re-use this test for other inputs. Alternatively, if you want to go exotic, you could go for a test-generation tool (and this). TestNG has better support for parameterized tests.
What I find particularly disagreeable is the recommendation of using @Test(expectedException=IllegalArgumentException.class)
, this exception is dangerously broad. If your code changes such that the component under test's constructor has if(constructorArgument <= 0) throw IllegalArgumentException()
, and your test was supplying 0 for that argument because it was convenient --and this is very common, because good generating test data is a surprisingly hard problem--, then your test will be green-bar even though it tests nothing. Such a test is worse than useless.