I want to write a test to establish that an Exception is not raised in a given circumstance.

It's straightforward to test if an Exception is raised ...

sInvalidPath=AlwaysSuppliesAnInvalidPath()
self.assertRaises(PathIsNotAValidOne, MyObject, sInvalidPath) 

... but how can you do the opposite.

Something like this i what I'm after ...

sValidPath=AlwaysSuppliesAValidPath()
self.assertNotRaises(PathIsNotAValidOne, MyObject, sValidPath) 
  • 6
    You could always simply do whatever ought to work in the test. If it raises an error, that will show up (counted as an error, rather than a failure). Of course, that assumes that it doesn't raise any error, rather than just a defined type of error. Other than that, I guess you'd have to write your own. – Thomas K Nov 30 '10 at 23:40
  • +1 @Thomas K@glaucon Please see my answer below for the correct way to solve your problem. – hiwaylon Aug 25 '11 at 20:40
  • possible duplicate of Python - test that succeeds when exception is not raised – brandizzi Jul 14 '15 at 1:22
  • It turns out that you can in fact implement an assertNotRaises method that shares 90% of its code/behavior with assertRaises in about ~30-ish lines of code. See my answer below for details. – tel Mar 2 at 4:47
up vote 271 down vote accepted
def run_test(self):
    try:
        myFunc()
    except ExceptionType:
        self.fail("myFunc() raised ExceptionType unexpectedly!")
  • 21
    @hiwaylon - No, this is the correct solution in fact. The solution proposed by user9876 is conceptually flawed: if you test for the non-raising of say ValueError, but ValueError is instead raised, your test must exit with a failure condition, not an error one. On the other hand, if in running the same code you would raise a KeyError, that would be an error, not a failure. In python - differently than some other languages - Exceptions are routinely used for control flow, this is why we have the except <ExceptionName> syntax indeed. To that regard, user9876's solution is simply wrong. – mac Apr 18 '13 at 11:52
  • @mac - Is this also a correct solution ? stackoverflow.com/a/4711722/6648326 – testerjoe2 Oct 5 '16 at 22:43
  • @testerjoe2 - Without giving too much thought about it, I'd say, yes, it is. :) – mac Oct 6 '16 at 12:20

Just call the function. If it raises an exception, the unit test framework will flag this as an error. You might like to add a comment, e.g.:

sValidPath=AlwaysSuppliesAValidPath()
# Check PathIsNotAValidOne not thrown
MyObject(sValidPath)
  • Thanks for this. As you say it works perfectly well and I hadn't thought of it before you mentioned it. I ended up preferring the approach of DGH however but thanks anyway. – glaucon Dec 6 '10 at 1:39
  • 30
    Failures and Errors are conceptually different. Furthermore, since in python Exceptions are routinely used for control flow, this will make very very difficult to understand at a glance (=without exploring the test code) if you have broken your logic or your code... – mac Nov 29 '12 at 15:52
  • Either your test passes or it doesn't. If it doesn't pass, you're going to have to go fix it. Whether it's reported as a "failure" or an "error" is mostly irrelevant. There is one difference: with my answer you'll see the stack trace so you can see where PathIsNotAValidOne was thrown; with the accepted answer you won't have that information so debugging will be harder. (Assuming Py2; not sure if Py3 is better at this). – user9876 Jul 30 '14 at 11:08
  • 13
    @user9876 - Nope. The test exit conditions are 3 (pass/nopass/error), not 2 as you seem to erroneously believe. The difference between errors and failures is substantial and treating them as if they were the same is just poor programming. If you don't believe me, just look around to how test runners work and what decision trees they implement fro failures and errors. A good starting point for python is the xfail decorator in pytest. – mac Oct 21 '14 at 12:29
  • 1
    I guess it depends on how you use unit tests. The way my team uses unit tests, they have to all pass. (Agile programming, with a continuous integration machine that runs all the unit tests). I know that the test case can report "pass", "fail" or "error". But at a high level what actually matters to my team is "do all the unit tests pass?" (i.e. "is Jenkins green?"). So for my team, there's no practical difference between "fail" and "error". You may have different requirements if you use your unit tests in a different way. – user9876 Apr 1 '16 at 0:18

Hi - I want to write a test to establish that an Exception is not raised in a given circumstance.

That's the default assumption -- exceptions are not raised.

If you say nothing else, that's assumed in every single test.

You don't have to actually write an any assertion for that.

  • 3
    @IndradhanushGupta Well the accepted answer makes the test more pythonic than this one. Explicit is better than implicit. – 0xc0de Oct 29 '15 at 7:14
  • 9
    No other commenter has pointed out why this answer is wrong, though it's the same reason that user9876's answer is wrong: failures and errors are different things in test code. If your function were to throw an exception during a test that doesn't assert, the test framework would treat that as an error, rather than a failure to not assert. – CoreDumpError Mar 18 '16 at 22:02
  • @CoreDumpError I understand the difference between a failure and an error, but wouldn't this force you to surround every test with a try/exception construction? Or would you recommend to do that only for tests that explicitly raise an exception under some condition (which basically means that the exception is expected). – federicojasson Jan 9 at 13:23
  • 2
    @federicojasson You answered your own question quite well in that second sentence. Errors vs failures in tests can be succinctly described as "unexpected crashes" vs "unintended behavior", respectively. You want your tests to show an error when your function crashes, but not when an exception that you know it will throw given certain inputs gets thrown when given different inputs. – CoreDumpError Jan 9 at 18:41

I am the original poster and I accepted the above answer by DGH without having first used it in the code.

Once I did use I realised that it needed a little tweaking to actually do what I needed it to do (to be fair to DGH he/she did say "or something similar" !).

I thought it was worth posting the tweak here for the benefit of others:

    try:
        a = Application("abcdef", "")
    except pySourceAidExceptions.PathIsNotAValidOne:
        pass
    except:
        self.assertTrue(False)

What I was attempting to do here was to ensure that if an attempt was made to instantiate an Application object with a second argument of spaces the pySourceAidExceptions.PathIsNotAValidOne would be raised.

I believe that using the above code (based heavily on DGH's answer) will do that.

  • 2
    Since you are clarifying your question and not answering it you should have edited it (not answered it).Please see my answer below. – hiwaylon Aug 25 '11 at 20:33
  • 10
    It seems to be quite the opposite to the original problem. self.assertRaises(PathIsNotAValidOne, MyObject, sInvalidPath) should do the job in this case. – Antony Hatchkins Dec 2 '13 at 13:54

If you pass an Exception class to assertRaises(), a context manager is provided. This can improve the readability of your tests:

# raise exception if Application created with bad data
with self.assertRaises(pySourceAidExceptions.PathIsNotAValidOne):
    application = Application("abcdef", "")

This allows you to test error cases in your code.

In this case, you are testing the PathIsNotAValidOne is raised when you pass invalid parameters to the Application constructor.

  • 1
    No, this will only fail if the exception isn't raised within the context manager block. Can be readily tested by 'with self.assertRaises(TypeError): raise TypeError', which passes. – Matthew Trevor Feb 22 '12 at 5:33
  • @MatthewTrevor Good call. As I recall, rather than testing code executes correctly, i.e. doesn't raise, I was suggesting testing error cases. I've edited answer accordingly. Hopefully I can earn a +1 to get out of the red. :) – hiwaylon Feb 25 '12 at 15:17
  • Note, this also is Python 2.7 and later: docs.python.org/2/library/… – qneill Jul 29 '15 at 21:07

I've found it useful to monkey-patch unittest as follows:

def assertMayRaise(self, exception, expr):
  if exception is None:
    try:
      expr()
    except:
      info = sys.exc_info()
      self.fail('%s raised' % repr(info[0]))
  else:
    self.assertRaises(exception, expr)

unittest.TestCase.assertMayRaise = assertMayRaise

This clarifies intent when testing for the absence of an exception:

self.assertMayRaise(None, does_not_raise)

This also simplifies testing in a loop, which I often find myself doing:

# ValueError is raised only for op(x,x), op(y,y) and op(z,z).
for i,(a,b) in enumerate(itertools.product([x,y,z], [x,y,z])):
  self.assertMayRaise(None if i%4 else ValueError, lambda: op(a, b))

You can define assertNotRaises by reusing about 90% of the original implementation of assertRaises in the unittest module. With this approach, you end up with an assertNotRaises method that, aside from its reversed failure condition, behaves identically to assertRaises.

TLDR and live demo

It turns out to be surprisingly easy to add an assertNotRaises method to unittest.TestCase (it took me about 4 times as long to write this answer as it did the code). Here's a live demo of the assertNotRaises method in action. Just like assertRaises, you can either pass a callable and args to assertNotRaises, or you can use it in a with statement. The live demo includes a test cases that demonstrates that assertNotRaises works as intended.

Details

The implementation of assertRaises in unittest is fairly complicated, but with a little bit of clever subclassing you can override and reverse its failure condition.

assertRaises is a short method that basically just creates an instance of the unittest.case._AssertRaisesContext class and returns it (see its definition in the unittest.case module). You can define your own _AssertNotRaisesContext class by subclassing _AssertRaisesContext and overriding its __exit__ method:

from unittest.case import _AssertRaisesContext

class _AssertNotRaisesContext(_AssertRaisesContext):
    def __exit__(self, exc_type, exc_value, tb):
        if exc_type is not None:
            self.exception = exc_value.with_traceback(None)

            try:
                exc_name = self.expected.__name__
            except AttributeError:
                exc_name = str(self.expected)

            if self.obj_name:
                self._raiseFailure("{} raised by {}".format(exc_name,
                    self.obj_name))
            else:
                self._raiseFailure("{} raised".format(exc_name))

        else:
            traceback.clear_frames(tb)

        return True

Normally you define test case classes by having them inherit from TestCase. If you instead inherit from a subclass MyTestCase:

class MyTestCase(unittest.TestCase):
    def assertNotRaises(self, expected_exception, *args, **kwargs):
        context = _AssertNotRaisesContext(expected_exception, self)
        try:
            return context.handle('assertNotRaises', args, kwargs)
        finally:
            context = None

all of your test cases will now have the assertNotRaises method available to them.

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.