I have a bunch of similar methods called from #Before beforeTest() in a test class:
//...
private void addClientDetails() {
try {
clientDetailsService.addClientDetails(testClient);
} catch (Exception e) {
}
}
private void addUserRoles() {
try {
adminController.addUserRoles(addedRoles);
} catch (Exception e) {
}
}
private void deleteAddedRoles() {
for (String role : addedRoles) {
try {
adminController.deleteUserRole(role);
} catch (Exception e) {
}
}
}
private void deleteClients() {
try {
clientsController.deleteClient(testClient.getClientId());
} catch (Exception e) {
}
}
//...
It is really unnecessary to catch possible exceptions and inconvenient to add some ifs here. These are the auxiliary methods to prepare tests or clean up after tests.
How to get rid of those ridiculous try {...} catch (...) {} constructs?
The idea was to create a new method with Runnable argument but this leads to even more cumbersome syntax:
private void deleteClients() {
trySilently(new Runnable() {
#Override
public void run() {
}
});
}
private void trySilently(Runnable task) {
try {
task.run();
} catch (Exception e) {
//do nothing
}
}
In JDK 1.8 method reference can help. But is there any beautiful solution in terms of JDK 1.7?
It is understood ignoring exceptions is a bad practice. Nevertheless the question is exactly how to do it in a graceful way.
You can declare that those methods throw exceptions, e.g.:
private void addClientDetails() throws Exception {
clientDetailsService.addClientDetails(testClient);
}
...then use reflection to call them:
String[] methods = {"addClientDetails", "addUserDetails" /*, ...*/};
for (String method : methods) {
try {
TestClass.class.getMethod(method).invoke(testObject);
}
catch (Exception e) {
// STRONGLY RECOMMEND DOING SOMETHING HERE SO YOU'RE NOT SILENTLY
// IGNORING EXCEPTIONS
}
}
(You'll need to keep the handler in deleteAddedRoles, though, since it loops, if you really want to ignore exceptions from adminController.deleteUserRole.)
Note: It seems very strange to be completely ignoring those exceptions. It's hard to imagine how you can trust your test results if you silently ignore exceptions from the test code. But I'm assuming you know what you're doing... :-)
In TestNG there is no problem for method annotated with #BeforeClass/#BeforeMethod to throw exception.
Why wouldn't you just
#BeforeClass
private void addClientDetails() throws Exception{
clientDetailsService.addClientDetails(testClient);
}
This also works for #Test methods.
Silenty catching exception is very bad idea. How could you trust your tests then? are you sure that exceptions tha occured is no problem indeed? If yes, then exception should not be thrown in first place.
Also, you could redesing your API to use unchecked exceptions. Just wrap any checked exceptions in RuntimeException, and throw RuntimeException.
Related
Is there any difference between following two methods?
Which one is preferable and why?
Prg1:
public static boolean test() throws Exception {
try {
doSomething();
return true;
} catch (Exception e) {
throw new Exception("No!");
}
}
Prg2:
public static boolean test() throws Exception {
try {
doSomething();
} catch (Exception e) {
throw new Exception("No!");
}
return true;
}
Consider these cases where you're not returning a constant expression:
Case 1:
public static Val test() throws Exception {
try {
return doSomething();
} catch (Exception e) {
throw new Exception("No!");
}
// Unreachable code goes here
}
Case 2:
public static Val test() throws Exception {
Val toReturn = null;
try {
toReturn = doSomething();
} catch (Exception e) {
throw new Exception("No!");
}
return toReturn;
}
I would prefer the first one. The second is more verbose and might cause some confusion when debugging.
If test() incorrectly returns null, and you see toReturn being initialized to null, you might think the problem is in test() (especially when test() is not just a simple example like this).
Even though it can only return null if doSomething returns null. But that might be hard to see at a glance.
You could then argue that, for consistency's sake, it's better to always use the first form.
Nope there is no difference between both the methods.
It will return true value in both the cases effectively by resuming the flow of the program as soon an and exception is handled.
Catch will be accessed only when an exception occurs.
I'm assuming this is a general question. Otherwise I might comment on other aspects of your method(s).
I think in the case or small methods like these it doesn't really matter. The method is short enough to understand immediately what's going on, what's related to what etc.
However, in the case of longer methods the flow is much easier to follow in the first example. In my opinion. It keeps together related code and related scenarios. When you're reading the method, the normal execution flow is not broken by the catch block, making it more obvious and "fluent".
public static boolean test() throws Exception {
try {
doSomething();
return true;
} catch (Exception e) {
throw new Exception("No!");
}
}
But I won't generalize this for all methods; it's all about the context.
There is no difference, but the first Prg1 is faster than the Prg2.
I need to test a constructor which throws an exception using JUnit.
Below is the constructor:
public EISThirdPartyClient(ClientConfiguration _config, String _serviceURL)
throws EISClientException {
super(_config, _serviceURL);
try {
ObjectMapperHolder.initialize(_config);
} catch (Exception e) {
throw new EISClientException(e);
}
}
Below is the test case:
#Test
public void testEISThirdPartyClientConctructor() throws EISClientException {
#SuppressWarnings("unused")
EISThirdPartyClient client = new EISThirdPartyClient(new ClientConfiguration(), "url");
boolean caughtException = false;
try {
ObjectMapperHolder.initialize(null);
} catch (Exception ex) {
if (ex instanceof EISClientException) {
caughtException = true;
assertTrue(ex.getCause() instanceof EISClientException);
} else {
ex.printStackTrace();
fail("Uncaught exception");
}
}
assertTrue(caughtException);
}
I am getting java.lang.AssertionError, which isn't what I'm expecting. Can someone tell me what I am doing wrong?
You're testing the wrong thing - you want to ensure that the construction of your object fails, not that it bails out when ObjectMapperHolder bails out.
You can also greatly simplify the test - you can expect that EISClientException is thrown without needing to do any further validation of the exception.
The main point is to get the test to fail with the minimum required amount of work. It seems that passing null as your configuration might do it, so here's an example with that:
#Test(expected = EISClientException.class)
public void testEISThirdPartyClientConctructor() throws EISClientException {
new EISThirdPartyClient(null, "url");
}
If this doesn't quite suit your needs, you may want to look into a mocking framework like Mockito to provide behavior when you are in the critical section of your code.
method which throws at first and second call:
public void foo() throws Exception
test:
#test
public void testFooThrowsAtFirstAndSecondTime(){
boolean thrown;
try {
foo();
} catch (Exception e) {
thrown = true;
}
assertTrue(thrown);
thrown = false;
try {
foo();
} catch (Exception e) {
thrown = true;
}
assertTrue(thrown);
foo();
}
Could you help me find a better solution for this?
Use of Mockito for a better solution would be also acceptable.
With better i mean, if i could avoid try/catch or even multiple try/catch in my test. In other languages or in jAssert i think even in spring there are statements like:
assertThrows(method(..)) //PseudoCode
I thought with Mockito or JUnit 4.x there is a similar thing.
I know about
#Test(expected=Exception)
But this would only be acceptable if i expect one throw and the test ends after that.
I don't think a one-liner per method invocation is possible.
I would write the test like this:
#Test
public void testFooThrowsAtFirstAndSecondTime() throws Exception {
try {
foo();
fail("foo did not throw an exception");
} catch (Exception ex) { }
try{
foo();
fail("foo did not throw an exception");
} catch (Exception ex) { }
foo();
}
The key here is that the try block is crucial if you want to resume execution after an exception. You can factor it out into a method or library, but it has to be called within your test method.
Things that work:
The tried-and-true fail() idiom that you and nrainier cite, which I prefer:
try {
foo();
fail("foo did not throw an exception");
} catch (Exception ex) { }
catch-exception is a library that, like Mockito, wraps the passed object and puts a try block around each method. Mockito's caveats about final methods and classes apply here too, so this won't always work.
List myList = new ArrayList();
catchException(myList).get(1); // myList is wrapped here
assert caughtException() instanceof IndexOutOfBoundsException;
Note that catch-exception is in "maintenance mode" because the Java 8 solution (below) is much more solid.
Any solution like assertThrows(() -> methodThatThrows()) (Java 8) or:
assertThrows(new Runnable() {
#Override public void run() { methodThatThrows(); }
});
...in Java 6/7. Importantly, assertThrows is called before methodThatThrows, so it can invoke methodThatThrows. Thanks Stefan for pointing out Fishbowl, but you could easily write an equivalent yourself:
public void assertThrows(Runnable block) {
try {
block.run();
fail("Block didn't throw.");
} catch (Exception ex) { }
}
Things that don't work:
#Test(expected=YourException.class) will go up the stack to the try block that JUnit wraps your test method in. Control never returns to the test method after that.
JUnit4's ExpectedException #Rule looks tempting, but because it wraps the entire test method, you have to set expectations before calling the method that throws the exception.
Anything that looks like assertThrows(methodCallThatThrows()). Java will try to get the return value out of methodCallThatThrows before assertThrows is ever invoked, so any try block there can't help.
With Java 8 you can use the Fishbowl library.
#Test
public void testFooThrowsAtFirstAndSecondTime(){
Throwable firstException = exceptionThrownBy(() -> foo());
assertEquals(Exception.class, firstException.getClass());
Throwable secondException = exceptionThrownBy(() -> foo());
assertEquals(Exception.class, secondException.getClass());
foo()
}
It is possible to use this library with Java 6 and 7, too. But then you have to use anonymous classes.
#Test
public void testFooThrowsAtFirstAndSecondTime(){
Throwable firstException = exceptionThrownBy(new Statement() {
public void evaluate() throws Throwable {
foo();
}
});
assertEquals(Exception.class, firstException.getClass());
Throwable secondException = exceptionThrownBy(new Statement() {
public void evaluate() throws Throwable {
foo();
}
});
assertEquals(Exception.class, secondException.getClass());
foo()
}
If you are unlucky enough to have to code for some version of java prior to 8, then you cannot do it with one line per exception.
But if you are using java 8, then you can do it as Stefan Birkner suggested.
Now, if you are unwilling to include an entire library for just one method, then here is a method that will work for you, copied from my blog
public final <T extends Throwable> T expectException( Class<T> exceptionClass, Runnable runnable )
{
try
{
runnable.run();
}
catch( Throwable throwable )
{
if( throwable instanceof AssertionError && throwable.getCause() != null )
throwable = throwable.getCause();
assert exceptionClass.isInstance( throwable ) : throwable; //exception of the wrong kind was thrown.
assert throwable.getClass() == exceptionClass : throwable; //exception thrown was a subclass, but not the exact class, expected.
#SuppressWarnings( "unchecked" )
T result = (T)throwable;
return result;
}
assert false; //expected exception was not thrown.
return null; //to keep the compiler happy.
}
So, your test code becomes something like this:
#Test
public void testFooThrowsAtFirstAndSecondTime()
{
expectException( Exception.class, this::foo );
expectException( Exception.class, this::foo );
foo();
}
#Test(expected=Exception.class)
As refactoring my code, I realize some of code is repeated except the exception handling of them. I am wondering whether these codes are considered to be repeated to refactor, if so, how?
Specific sample:
E.g I have two methods.
void fun1() {
try {
foo();
} catch (Exception ex) {
handle1();
}
}
void fun2() {
try {
foo();
} catch (Exception ex) {
handle2();
}
}
Why not do like this:
try {
foo();
} catch (Exception1 ex) {
handle1();
} catch (Exception2 ex) {
handle2();
}
Ok, so first of all, catching all Exceptions is a bad habit, you shouldn't really do it, only catch the ones that you expect.
I woudln't consider it repeated, because in one case you may expect one exception in another you may expect a different one. That's another reason to be specific in you catch clauses. Then, you can also use a multicatch statement, like this:
void fun() {
try {
foo();
} catch (MyFirstException ex) {
handle1();
} catch (MySecondException ex) {
handle2();
}
}
There is some repetition here, but not much. You could consolidate the code somewhat better, by passing the expected error-handling function into a helper method as an argument. Note that this would be much more verbose prior to Java 8.
void fun1() {
funHelper(this::handle1);
}
void fun2() {
funHelper(this::handle2);
}
void funHelper(Runnable errorHandler) {
try {
foo();
} catch (Exception ex) {
errorHandler.run();
}
}
When writing unit tests for a Java API there may be circumstances where you want to perform more detailed validation of an exception. I.e. more than is offered by the #test annotation offered by JUnit.
For example, consider an class that should catch an exception from some other Interface, wrap that exception and throw the wrapped exception. You may want to verify:
The exact method call that throws the wrapped exception.
That the wrapper exception has the original exception as its cause.
The message of the wrapper exception.
The main point here is that you want to be perf additional validation of an exception in a unit test (not a debate about whether you should verify things like the exception message).
What's a good approach for this?
In JUnit 4 it can be easily done using ExpectedException rule.
Here is example from javadocs:
// These tests all pass.
public static class HasExpectedException {
#Rule
public ExpectedException thrown = ExpectedException.none();
#Test
public void throwsNothing() {
// no exception expected, none thrown: passes.
}
#Test
public void throwsNullPointerException() {
thrown.expect(NullPointerException.class);
throw new NullPointerException();
}
#Test
public void throwsNullPointerExceptionWithMessage() {
thrown.expect(NullPointerException.class);
thrown.expectMessage("happened?");
thrown.expectMessage(startsWith("What"));
throw new NullPointerException("What happened?");
}
}
As provided in your answer, it's a good approach. In addition to this:
You could wrap the function expectException into a new Annotation, called ExpectedException.
An annotated method would look like this:
#Test
#ExpectedException(class=WrapperException.class, message="Exception Message", causeException)
public void testAnExceptionWrappingFunction() {
//whatever you test
}
This way would be more readable, but it's exactly the same approach.
Another reason is: I like Annotations :)
Looking at the proposed answers, you can really feel the pain of not having closures in Java. IMHO, the most readable solution is ye good old try catch.
#Test
public void test() {
...
...
try {
...
fail("No exception caught :(");
}
catch (RuntimeException ex) {
assertEquals(Whatever.class, ex.getCause().getClass());
assertEquals("Message", ex.getMessage());
}
}
For JUNIT 3.x
public void test(){
boolean thrown = false;
try{
mightThrowEx();
} catch ( Surprise expected ){
thrown = true;
assertEquals( "message", expected.getMessage());
}
assertTrue(thrown );
}
Until this post I've done my exception validation by doing this:
try {
myObject.doThings();
fail("Should've thrown SomeException!");
} catch (SomeException e) {
assertEquals("something", e.getSomething());
}
I spent a few moments thinking about the issue though and came up with the following (Java5, JUnit 3.x):
// Functor interface for exception assertion.
public interface AssertionContainer<T extends Throwable> {
void invoke() throws T;
void validate(T throwable);
Class<T> getType();
}
// Actual assertion method.
public <T extends Throwable> void assertThrowsException(AssertionContainer<T> functor) {
try {
functor.invoke();
fail("Should've thrown "+functor.getType()+"!");
} catch (Throwable exc) {
assertSame("Thrown exception was of the wrong type! Expected "+functor.getClass()+", actual "+exc.getType(),
exc.getClass(), functor.getType());
functor.validate((T) exc);
}
}
// Example implementation for servlet I used to actually test this. It was an inner class, actually.
AssertionContainer<ServletException> functor = new AssertionContainer<ServletException>() {
public void invoke() throws ServletException {
servlet.getRequiredParameter(request, "some_param");
}
public void validate(ServletException e) {
assertEquals("Parameter \"some_param\" wasn't found!", e.getMessage());
}
public Class<ServletException> getType() {
return ServletException.class;
}
}
// And this is how it's used.
assertThrowsException(functor);
Looking at these two I can't decide which one I like more. I guess this is one of those issues where achieving a goal (in my case, the assertion method with functor parameter) isn't worth it in the long run since it's just a lot easier to do those 6+ of code to assert the try..catch block.
Then again, maybe my 10 minute result of problem solving at friday evening just isn't the most intelligent way to do this.
#akuhn:
Even without closures we can get a more readable solution (using catch-exception):
import static com.googlecode.catchexception.CatchException.*;
public void test() {
...
...
catchException(nastyBoy).doNastyStuff();
assertTrue(caughtException() instanceof WhateverException);
assertEquals("Message", caughtException().getMessage());
}
The following helper method (adapted from this blog post) does the trick:
/**
* Run a test body expecting an exception of the
* given class and with the given message.
*
* #param test To be executed and is expected to throw the exception.
* #param expectedException The type of the expected exception.
* #param expectedMessage If not null, should be the message of the expected exception.
* #param expectedCause If not null, should be the same as the cause of the received exception.
*/
public static void expectException(
Runnable test,
Class<? extends Throwable> expectedException,
String expectedMessage,
Throwable expectedCause) {
try {
test.run();
}
catch (Exception ex) {
assertSame(expectedException, ex.getClass());
if (expectedMessage != null) {
assertEquals(expectedMessage, ex.getMessage());
}
if (expectedCause != null) {
assertSame(expectedCause, ex.getCause());
}
return;
}
fail("Didn't find expected exception of type " + expectedException.getName());
}
The test code can then invoke this as follows:
TestHelper.expectException(
new Runnable() {
public void run() {
classInstanceBeingTested.methodThatThrows();
}
},
WrapperException.class,
"Exception Message",
causeException
);
i did something very simple
testBla(){
try {
someFailingMethod()
fail(); //method provided by junit
} catch(Exception e) {
//do nothing
}
}
For JUnit 5 it is much easier:
#Test
void testAppleIsSweetAndRed() throws Exception {
IllegalArgumentException ex = assertThrows(
IllegalArgumentException.class,
() -> testClass.appleIsSweetAndRed("orange", "red", "sweet"));
assertEquals("this is the exception message", ex.getMessage());
assertEquals(NullPointerException.class, ex.getCause().getClass());
}
By returning the exception object itself, assertThrows() allows you to test every aspect regarding your thrown exceptions.
I made a helper similar to the other posted ones:
public class ExpectExceptionsExecutor {
private ExpectExceptionsExecutor() {
}
public static void execute(ExpectExceptionsTemplate e) {
Class<? extends Throwable> aClass = e.getExpectedException();
try {
Method method = ExpectExceptionsTemplate.class.getMethod("doInttemplate");
method.invoke(e);
} catch (NoSuchMethodException e1) {
throw new RuntimeException();
} catch (InvocationTargetException e1) {
Throwable throwable = e1.getTargetException();
if (!aClass.isAssignableFrom(throwable.getClass())) {
// assert false
fail("Exception isn't the one expected");
} else {
assertTrue("Exception captured ", true);
return;
}
;
} catch (IllegalAccessException e1) {
throw new RuntimeException();
}
fail("No exception has been thrown");
}
}
And the template the client should implement
public interface ExpectExceptionsTemplate<T extends Throwable> {
/**
* Specify the type of exception that doInttemplate is expected to throw
* #return
*/
Class<T> getExpectedException();
/**
* Execute risky code inside this method
* TODO specify expected exception using an annotation
*/
public void doInttemplate();
}
And the client code would be something like this:
#Test
public void myTest() throws Exception {
ExpectExceptionsExecutor.execute(new ExpectExceptionsTemplate() {
#Override
public Class getExpectedException() {
return IllegalArgumentException.class;
}
#Override
public void doInttemplate() {
riskyMethod.doSomething(null);
}
});
}
It looks really verbose but if you use an IDE with good autocompletion you will only need to write the type of exception and the actual code under test. (the rest will be done by the IDE :D)