mirror of
https://github.com/unisonweb/unison.git
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265 lines
7.6 KiB
Plaintext
265 lines
7.6 KiB
Plaintext
use Test Success Status Report Test Scope
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use Test.Status Failed Expected Unexpected Pending
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use Test.Success Passed Proved
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use Test.Report Report
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use Test.Test Test
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use Test passed proved failed expected unexpected pending finished label
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use Test.Scope Scope
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use List flatMap
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type Test.Success = Passed Nat | Proved
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type Test.Status = Failed
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| Expected Test.Success
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| Unexpected Test.Success
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| Pending
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-- Current scope together with accumulated test report.
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type Test.Report = Report (Trie Text Test.Status)
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type Test.Test = Test (Test.Scope -> Test.Report)
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unique type Test.Scope = Scope [Text]
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foldSuccess : (Nat -> r) -> r -> Success -> r
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foldSuccess passed proved s = case s of
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Passed n -> passed n
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Proved -> proved
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foldStatus : r -> (Success -> r) -> (Success -> r) -> r -> Status -> r
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foldStatus failed expected unexpected pending status = case status of
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Failed -> failed
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Expected s -> expected s
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Unexpected s -> unexpected s
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Pending -> pending
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foldReport : (Trie Text Test.Status -> r) -> Report -> r
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foldReport k r = case r of Report t -> k t
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foldScope : ([Text] -> r) -> Scope -> r
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foldScope k s = case s of Scope ss -> k ss
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Scope.cons : Text -> Scope -> Scope
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Scope.cons n = foldScope (Scope . List.cons n)
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-- Basic building blocks of tests
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Test.finished : Status -> Test
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Test.finished st =
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Test (Report . foldScope (sc -> Trie.singleton sc st))
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Test.failed : Test
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Test.failed = finished Failed
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Test.proved : Test
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Test.proved = finished <| Expected Proved
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Test.passed : Test
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Test.passed = finished . Expected <| Passed 1
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Test.passedUnexpectedly : Test
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Test.passedUnexpectedly = finished . Unexpected <| Passed 1
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Test.provedUnexpectedly : Test
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Test.provedUnexpectedly = finished <| Unexpected Proved
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-- Basic test combinators
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Test.modifyStatus : (Status -> Status) -> Test -> Test
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Test.modifyStatus f t =
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case t of Test k -> Test (foldReport (Report . map f) . k)
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Test.label : Text -> Test -> Test
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Test.label n t = case t of
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Test.Test.Test k -> Test (scope -> k <| Scope.cons n scope)
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use Test.Report combine
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(Test.&&) : Test -> Test -> Test
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(Test.&&) a b = case (a,b) of
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(Test k1, Test k2) ->
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Test (
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scope ->
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let r1 = k1 scope
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r2 = k2 scope
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combine r1 r2)
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Test.passedWith : Text -> Test
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Test.passedWith m = label m passed
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Test.provedWith : Text -> Test
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Test.provedWith m = label m proved
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Test.failedWith : Text -> Test
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Test.failedWith m = Test.label m Test.failed
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-- Report combinators
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Test.Report.combine : Report -> Report -> Report
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Test.Report.combine r1 r2 = case (r1, r2) of
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(Test.Report.Report t1, Test.Report.Report t2) ->
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Report <| Trie.unionWith Status.combine t1 t2
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Test.Report.empty : Report
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Test.Report.empty = Report empty
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Test.Report.toCLIResult : Report -> [Test.Result]
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Test.Report.toCLIResult r =
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descend scope p = case p of (k, t) ->
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go ((if scope != "" then (scope ++ ".") else "") ++ k) t
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convert : Text -> Test.Status -> Test.Result
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convert scope s = case s of
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Test.Status.Failed -> Test.Result.Fail scope
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Test.Status.Expected (Test.Success.Passed n) ->
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Test.Result.Ok (scope ++ " : Passed " ++ Nat.toText n ++ " tests.")
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Test.Status.Expected (Test.Success.Proved) ->
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Test.Result.Ok (scope ++ " : Proved.")
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go : Text -> Trie Text Test.Status -> [Test.Result]
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go scope t =
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rest = flatMap (descend scope) (Map.toList (tail t))
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case head t of
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Optional.Some status ->
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cons (convert scope status) rest
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Optional.None -> rest
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case r of Test.Report.Report t -> go "" t
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Test.report : Test -> Report
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Test.report t = case t of Test k -> k (Scope [])
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-- Running tests
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Test.run : Test -> [Test.Result]
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Test.run = Test.Report.toCLIResult . Test.report
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Test.runAll : [Test] -> [Test.Result]
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Test.runAll = flatMap Test.run
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-- Status combinators
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Status.combine : Test.Status -> Test.Status -> Test.Status
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Status.combine s1 s2 = case (s1, s2) of
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(_, Pending) -> Pending
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(Pending, _) -> Pending
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(Failed, _) -> Failed
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(_, Failed) -> Failed
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(Unexpected a, Unexpected b) -> Unexpected (Success.combine a b)
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(Unexpected a, _) -> Unexpected a
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(_, Unexpected b) -> Unexpected b
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(Expected a, Expected b) -> Expected (Success.combine a b)
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Status.pending : Test.Status -> Test.Status
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Status.pending s = case s of
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Failed -> Pending
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Expected s -> Unexpected s
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Unexpected s -> Pending
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Pending -> Pending
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-- Make a test pending
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Test.pending : Test -> Test
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Test.pending = modifyStatus Status.pending
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Test.modifyScope : (Scope -> Scope) -> Test -> Test
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Test.modifyScope f t = case t of Test k -> Test (k . f)
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Success.combine s1 s2 = case (s1, s2) of
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(Passed n, Passed m) -> Passed (n + m)
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(Passed n, Proved) -> Passed n
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(Proved, Passed n) -> Passed n
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(Proved, Proved) -> Proved
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-- Test case generation
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-- A domain is either small, in which case we can exhaustively list all the
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-- values in the domain, or it's large, in which case we can ask for a value
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-- of a particular size.
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type Domain a = Small [a] | Large (Weighted a)
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-- The domain of natural numbers is large.
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Domain.nats : Domain Nat
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Domain.nats = Large Weighted.nats
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-- The domain of all integers
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Domain.ints : Domain Int
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Domain.ints = let
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go n = yield n <|> weight 1
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'(go (if n > +0 then negate n else increment (negate n)))
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Large (List.foldl (a n -> a <|> yield n)
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Weighted.Fail
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[+0, +1, -1, maxInt, minInt] <|> go +2)
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use Universal == < >
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namespace Domain where
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-- The threshold of "small" domains.
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smallSize = 10000
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-- The Boolean domain is small
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boolean : Domain Boolean
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boolean = Small [false, true]
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-- The domain of lists of arbitrary data is large
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listsOf : Domain a -> Domain [a]
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listsOf d =
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Large (Weighted.lists case d of
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Domain.Small as -> Weighted.fromList as
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Domain.Large w -> w)
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lists : Domain [()]
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lists = Domain.listsOf (Small [()])
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sample : Nat -> Domain a -> [a]
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sample n d =
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case d of
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Domain.Large w -> Weighted.sample n w
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Domain.Small xs -> take n xs
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map : (a -> b) -> Domain a -> Domain b
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map f d = case d of
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Domain.Large w -> Domain.Large (Weighted.map f w)
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Domain.Small as -> Domain.Small (List.map f as)
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pairs : Domain a -> Domain (a,a)
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pairs d = lift2 (a b -> (a,b)) d d
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tuples : Domain a -> Domain b -> Domain (Pair a b)
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tuples = lift2 (a b -> Pair a b)
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lift2 : (a -> b -> c) -> Domain a -> Domain b -> Domain c
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lift2 f da db = let
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wa = weighted da
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wb = weighted db
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wc = mergeWith (a1 a2 -> f a1 a2) wa wb
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case (da, db) of
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(Domain.Small as, Domain.Small bs) | size as + size bs < smallSize ->
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Small (Weighted.sample smallSize wc)
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_ -> Large wc
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weighted : Domain a -> Weighted a
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weighted d = case d of
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Domain.Small as -> Weighted.fromList as
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Domain.Large w -> w
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-- Test a property for a given domain up to a maximum size
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Test.forAll' : Nat -> Domain a -> (a -> Boolean) -> Test
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Test.forAll' maxSize domain property =
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check xs s =
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List.map (
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a -> case a of (c, i) ->
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if property c then finished (Expected s)
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else label ("test case " ++ Nat.toText i) (finished Failed)
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) (indexed xs)
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List.foldb id (Test.&&) proved <|
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case domain of
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Domain.Small xs -> check (take maxSize xs) Proved
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Domain.Large _ -> check (sample maxSize domain) (Passed 1)
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Test.check' : Boolean -> Test
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Test.check' b = if b then Test.proved else Test.failed
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Test.forAll : Nat -> Domain a -> (a -> Boolean) -> [Test.Result]
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Test.forAll n d p = Test.run (Test.forAll' n d p)
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Test.check : Boolean -> [Test.Result]
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Test.check = Test.run . Test.check'
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