/+ new-hoon :: :> testing utilities |% :> # %models +| += tests :> a hierarchical structure of tests :> :> a recursive association list mapping a part of a path :> to either a test trap or a sublist of the same type. (list instance) :: += instance :> a mapping between a term and part of a test tree. (pair term (each $-(@uvJ (list tape)) tests)) :: :> # %generate :> utilities for generating ++tests from files and directories. +| ++ merge-base-and-recur :> combine the current file and subdirectory. :> :> this merges the file {base} with its child files {recur}. |= [base=vase recur=(map @ta tests)] ^- tests =+ a=(gen-tests base) =+ b=(test-map-to-test-list recur) :: todo: why does ++weld not work here? {a} and {b} are cast and have the :: correct faces. (welp a b) :: ++ test-map-to-test-list :> translates ford output to something we can work with. :> :> ford gives us a `(map @ta tests)`, but we actually :> want something like ++tests. |= a=(map @ta tests) :: todo: i'd like to sort this, but ++sort has -find.a problems much like :: ++weld does above!? ^- tests %+ turn (to-list:dct:new-hoon a) |= {key/@ta value/tests} [key [%| value]] :: ++ has-test-prefix |= a=term ^- ? ?| =((end 3 5 a) 'test-') =((end 3 6 a) 'check-') == :: ++ gen-tests :> creates a {tests} list out of a vase of a test suite |= v=vase ^- tests =+ arms=(sort (sloe p.v) aor) %+ turn (skim arms has-test-prefix) |= arm/term ::REVIEW fewer asserts? recouple the nock and eat the runtime compile cost? ?> (~(nest ut (~(peek ut p.v) %free 6)) & p:!>((init-test))) =/ call (~(mint ut p.v) p:!>(*wall) [%limb arm]) ?> (~(nest ut p:!>(*wall)) & p.call) :: :- arm :- %& |= eny=@uvJ ^- wall ((hard wall) .*(q.v(+6 (init-test eny)) q.call)) :: :> # %per-test :> data initialized on a per-test basis. :: ++ init-test |=({eny/@uvJ} %*(. tester eny eny, check-iterations 10)) :: ++ tester |_ $: eny=@uvJ :< entropy check-iterations=@u :< # of check trials current-iteration=@u :< current iteration == :> # :> # %check :> # :> gates for quick check style tests. +| +- check |* [generator=$-(@uvJ *) test=$-(* ?)] |- ^- wall ?: (gth current-iteration check-iterations) ~ :: todo: wrap generator in mule so it can crash. =+ sample=(generator eny) :: todo: wrap test in mule so it can crash. ?: (test sample) %= $ eny (shaf %huh eny) :: xxx: better random? current-iteration (add current-iteration 1) == =/ case +(current-iteration) =/ pl ?+(case "" %1 "s") ::XXX sample is a noun ["falsified after {} case{pl} by '{<`*`sample>}', seed {}"]~ :: :: todo: a generate function that takes an arbitrary span. :: ++ generate-range |= [min=@ max=@] |= c=@uvJ ^- @ =+ gen=(random:new-hoon c) =^ num gen (range:gen min max) num :: ++ generate-dict :> generator which will produce a dict with {count} random pairs. |= count=@u :> generate a dict with entropy {c}. |= c=@uvJ :> :> gen: stateful random number generator :> out: resulting map :> i: loop counter :> =/ gen (random:new-hoon c) =| out=(dict:new-hoon @ud @ud) =| i=@u |- ^- (dict:new-hoon @ud @ud) ?: =(i count) out =^ first gen (range:gen 0 100) =^ second gen (range:gen 0 100) $(out (put:dct:new-hoon out first second), i +(i)) :> # :> # %test :> # :> test expectation functions +| :: todo: unit testing libraries have a lot more to them than just eq. ++ expect-eq |= a=vase ^- wall ?@ q.a ["ex-expected-pair: '{(text a)}'"]~ ?: =(-.q.a +.q.a) ~ :~ "expected: '{(text (slot 3 a))}'" "actual: '{(text (slot 2 a))}'" == :> # :> # %formatting :> # :> test result presentation +| ++ category |= [a=tape b=wall] ?: =(~ b) ~ :: test OK :- "in: '{a}'" (turn b |=(c=tape " {c}")) -- --