Why do so many assertEquals() or similar function take the expected value as first parameter and the actual one as second ?
This seems counter-intuitive to me, so is there a particular reason for this unusual order ?

  • 8
    This is why I usually end up using matchers, such as assertThat(actual, is(expected)) I find it so much easier to read – JonathanC Jul 10 '15 at 20:04
  • 3
    Are you sure that really is the order? The docs don't indicate a standard for assertEqual itself docs.python.org/2/library/… and browsing that page shows the order is inconsistent within the unittest module itself. But this Python issue implies (actual, expected) is, in fact, the standard: bugs.python.org/issue10573 – Michael Scheper Nov 16 '15 at 6:59
  • 3
    @MichaelScheper bugs.python.org/file20580/expected-actual.diff – warvariuc Feb 3 '16 at 10:11
  • 3
    @warvariuc: Looks like they've gone from 'expected' and 'actual' to 'first' and 'second'. I think this makes unit tests more ambiguous and test output more difficult to understand. Any idea why they changed it this way? – Michael Scheper Feb 4 '16 at 3:32
  • 5
    @warvariuc: I don't have any strong feelings about the order of 'actual' and 'expected', as long as it's consistent, and above all, the parameters are clearly named. But in the diff you linked to, it appears the parameters have been renamed to 'first' and 'second'. These aren't just unclear, but practically meaningless! With those names, I can't tell whether the failure message forself.assertEqual(ltuae, 42) will say 42 was expected, or 54. If a test fails, I want the message to be helpful and accurate, so the bug can be fixed as quickly as possible; the new parameter names make that harder. – Michael Scheper Feb 25 '16 at 20:13

Because the authors had a 50% chance of matching your intuition.

Because of the other overload

assertWhatever(explanation, expected, actual)

And the explanation, which is part of what you know, goes with the expected, which is what you know, as opposed to the actual, which you don't know at the time you write the code.

  • 16
    However in that case, it becomes slightly inconsistent because in most languages, the required parameters appear first, and the mandatory ones last. This is why I would more naturally go for assertWhatever(actual, expected [,explanation]) – jor Mar 8 '10 at 22:39
  • 3
    Exactly, jor! Moreover, it is more common in conditionals to write if(s == "a") rather than if("a"==s) (although it debateable whether it would be better the other way round - in terms of commonness the first one wins though). – benroth Jun 23 '15 at 14:07
  • 3
    I don't think it is intuitive for 50% of the population... You won't say that assertGreater(a, b) asserting b > a is intuitive... (and I think that's why they removed the non commutative methods) – boumbh Aug 19 '16 at 12:33
  • 2
    Placing the constant first was something put forth as a way to get an error if you accidentally did an assignment = instead of equivalence check == as it would throw an error when you tried to re-assign the constant. (I think I first saw it promoted in 'writing solid code') It creates (IMHO) less readable code (I prefer 'result should be as expected' style grammar) but gets the compiler to bust your chops if you leave out an = sign – Chuck van der Linden May 31 '18 at 22:56

The answer from Kent Beck, creator of SUnit and JUnit (where possibly this convention originates), is:

Line a bunch of assertEquals in a row. Having expected first makes them read better.

However, this is so opposite to my own experience that I have to wonder if I'm misunderstanding it. Here's what I often see in tests:

assertEquals(12345, user.getId());
assertEquals("kent", user.getUsername());
assertEquals("Kent Beck", user.getName());

I would think this would read better with the actual value first. That puts more of the repetitive boilerplate together, aligning the method calls whose values we're testing:

assertEquals(user.getId(), 12345);
assertEquals(user.getUsername(), "kent");
assertEquals(user.getName(), "Kent Beck");

(And there are other reasons that I prefer this order, but for the purpose of this question about why it's the other way, Kent's reasoning appears to be the answer, even if I haven't understood it.)


I agree with the consensus that consistency is #1, but the behavior of comparing dictionaries may be a helpful datapoint if you're evaluating this question.

When I see a "+" on a diff, I read this as "the procedure being tested added this." Again, personal preferences apply.

Note: I used alphabetized keys and made the dictionary longer so that only a middle key would change for clarity of the example. Other scenarios display more obfuscated diffs. Also noteworthy, assertEqual uses assertDictEqual in >=2.7 and >=3.1


from unittest import TestCase

class DictionaryTest(TestCase):

    def test_assert_order(self):
                'a_first_key': 'value',
                'key_number_2': 'value',
                'z_last_key': 'value',
                'first_not_second': 'value',
                'a_first_key': 'value',
                'key_number_2': 'value',
                'z_last_key': 'value',
                'second_not_first': 'value',


$ python -m unittest exl
FAIL: test_assert_order (exl.DictionaryTest)
Traceback (most recent call last):
  File "exl.py", line 18, in test_assert_order
    'second_not_first': 'value',
AssertionError: {'a_first_key': 'value', 'z_last_key': 'value', 'key_number_2': 'value', 'first_ [truncated]... != {'a_first_key': 'value', 'z_last_key': 'value', 'key_number_2': 'value', 'second [truncated]...
  {'a_first_key': 'value',
-  'first_not_second': 'value',
   'key_number_2': 'value',
+  'second_not_first': 'value',
   'z_last_key': 'value'}

Ran 1 test in 0.001s

FAILED (failures=1)

This is a very intesting topic, and lots of very educational answers here too! Here is what I learn from them:

  1. Intuitive/counter-intuitive can be considered as subjective, so no matter which order it was originally defined, perhaps 50% of us would not be happy.

  2. Personally I would have preferred it were designed as assertEqual(actual, expected), because, given the conceptual similarity between assert and if, I would wish it follows the norm of if actual == expect, for example, if a == 1.

    (PS: It is true that there are different opinions which prompts to write if statement in the "reverse order", i.e. if(1==a) {...}, in order to guard you from accidentally missing one =. But that style was far from the norm, even in the C/C++ world. And if you happen to be writing Python code, you are not vulnerable to that nasty typo in the first place, because if a = 1 is not valid in Python.)

  3. The practical convincing reason to do assertEqual(expect, actual), is that the unittest library in your language likely already follows that order to generate readable error message. For example, in Python, when you do assertEqual(expected_dictionary, actual_dictionary), unittest will display missing keys in actual with prefix -, and extra keys with prefix +, just like when you do a git diff old_branch new_branch.

    Intuitive or not, this is the single most convincing reason to stick with the assertEqual(expected, actual) order. If you happen to not like it, you better still accept it, because "practicality beats purity".

  4. Lastly, if you need a way to help you remember the order, this answer compares assertEqual(expected_result, actual_calculation) to the assignment statement order result = calculate(...). It can be a good way to MEMORIZE the de-facto behavior, but IMHO it is not the undebatable reasoning of that order is more intuitive.

So here you go. Happy assertEqual(expect, actual) !

  • 1
    For the point 4) it's fun enough that the parameter order for assignment was actually much debated in the early ages of computing. Some CS-ists agued that using the order order it could be read "value is stored in value", whjich raised much less confusion with the mathematical equality (and of couse use something different from '=' for assignment like some kind of arrow like '->'). – kriss Dec 5 '20 at 10:46

An ulterior purpose of assertEqual() is to demo code for human readers. Because the simplest function call is result = function(parameters), one gets used to thinking of the return value on the left and the call on the right.

So a test that documents a function would show a literal on the left and a call on the right.

assertEqual(15, sum((1,2,3,4,5)))

That is, (expected, actual). Similarly with an expression.

assertEqual(4, 2 + 2)

If you like lining things up (PEP8 notwithstanding), the expected parameter helps being shorter on the left:

assertEqual(42, 2 * 3 * 7)
assertEqual(42, (1 << 1) + (1 << 3) + (1 << 5))
assertEqual(42, int('110', int('110', 2)))

Thanks Andrew Weimholt and Ganesh Parameswaran for these formulae.


The xUnit testing convention is expected/actual. So, for many that is the natural order since that's what they learnt.

Interestingly in a break from convention for an xUnit framework qunit goes for actual/expected. At least with javascript you can just create a new function that encapsulates the old one and assign it the original variable:

var qunitEquals = equals;
equals = function(expected, actual, message) {
    qunitEquals(actual, expected, message);

The documentation for assertEqual names the first parameter first, and the second parameter second:

assertEqual(first, second, msg=None)

Test that first and second are equal. If the values do not compare equal, the test will fail.

However, if you look at most of the examples in the documentation, they place the received value first, and the expected value second (the opposite of what your question post claims):

self.assertEqual(self.widget.size(), (50,50), 'incorrect default size')

So I would say the convention is assertEqual(got, expected), and not the other way round!

Either way, your tests will still work.


The explanation I heard is that it comes from TDD.

In Test Driven Development, you start with the test, and then write the code.

Starting assertions by writing the expectation, and then call the code that should produce it, is a mini version of that mindset.

Of course, this may just be a story people tell. Don't know that it was a conscious reason.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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