Sometimes the code we are testing calls out to other functions to cause side effects. When we are testing, we don't always want side effects to happen but we often want to make sure the code being tested still calls those functions.
Expectations provides a side-effects
macro that lets you run the code under
test with those side-effecting functions mocked out, and returns a vector of
all of the argument lists passed in calls to those functions.
(defn my-fn [x] (cond x (println "x" x)
(nil? x) (println "no value")))
(defexpect my-fn-test
(expect [["x" 42]]
(side-effects [println] (my-fn 42)))
(expect [["no value"]]
(side-effects [println] (my-fn nil)))
(expect empty?
(side-effects [println] (my-fn false))))
Our function under test calls println
conditionally. We want to verify the logic
so we expect println
to be called with "x"
and the (truthy) value passed to my-fn
,
"no value"
when nil
is passed to my-fn
, and for there to be no calls to
println
if other values are passed (i.e., if false
is passed).
By default, mocked out calls return nil
, but sometimes your code under test
will expect other values back, in order for you to correctly test paths through
that code. You can specify the mocked function as a pair of its name and its
return value in that case.
(defn my-pred [x] (= 42 x))
(defn my-code [x] (if (my-pred x) (println "good") (println "bad")))
(defexpect my-code-test-1
(expect [[99] ["bad"]]
(side-effects [my-pred println] (my-code 99)))
;; this will fail because the mocked my-pred returns nil
(expect [[42] ["good"]]
(side-effects [my-pred println] (my-code 42))))
(defexpect my-code-test-2
(expect [[99] ["bad"]]
(side-effects [my-pred println] (my-code 99)))
(expect [[42] ["good"]]
(side-effects [[my-pred true] println] (my-code 42))))
Here's the output of running those two tests:
user=> (my-code-test-1)
FAIL in (my-code-test-1) (...:...)
(side-effects [my-pred println] (my-code 42))
expected: (= [[42] ["good"]] (side-effects [my-pred println] (my-code 42)))
actual: (not= [[42] ["good"]] [(42) ("bad")])
nil
user=> (my-code-test-2)
nil
As we can see, the second expectation in my-code-test-1
fails because my-code
calls println
with "bad"
-- because the mocked my-pred
returns nil
and
so my-code
executes the non-truthy path.
In my-code-test-2
, we mock my-pred
to return true
and so my-code
executes
the truthy path and we can verify that calls println
as expected.
Because side-effects
can return multiple results, and each result is a sequence
of values, it often helps to combine side-effects
with more-of
:
(defn my-pred [x] (= 42 x))
(defn my-code [x] (if (my-pred x) (println "good") (println "bad")))
(defexpect my-code-test
(expect (more-of [[x] [msg] :as all]
2 (count all) ; check there were just two calls
99 x
"bad" msg)
(side-effects [my-pred println] (my-code 99)))
(expect (more-of [[x] [msg] :as all]
2 (count all) ; check there were just two calls
42 x
"good" msg)
(side-effects [[my-pred true] println] (my-code 42))))
The examples here have fairly simple argument lists: a single value in each
call that is just a literal. In real world code, calls will often have multiple
arguments and those might be data structures. more-of
lets you destructure
arbitrary expressions (because, under the hood, it works just like let
or fn
)
so combine the vector destructuring for multiple arguments with key
destructuring etc:
(defn my-compute [x y z] (assoc x y (inc z)))
(defn processor [a b c] (my-compute {:a a :b b} :c c))
(defexpect my-compute-test
(expect (more-of [[{:keys [a b]} k v] ; first call
[{a2 :a b2 :b} k2 v2] ; second call, renaming keys
:as all]
2 (count all) ; check there were just two calls
1 a
2 b
:c k
3 v
4 a2
5 b2
:c k2
6 v2)
(side-effects [my-compute]
(processor 1 2 3)
(processor 4 5 6))))
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