{-| The <http://www.cse.chalmers.se/~rjmh/QuickCheck/manual.html QuickCheck manual> gives detailed information about using QuickCheck effectively. You can also try <https://begriffs.com/posts/2017-01-14-design-use-quickcheck.html>, a tutorial written by a user of QuickCheck. To start using QuickCheck, write down your property as a function returning @Bool@. For example, to check that reversing a list twice gives back the same list you can write: @ import Test.QuickCheck prop_reverse :: [Int] -> Bool prop_reverse xs = reverse (reverse xs) == xs @ You can then use QuickCheck to test @prop_reverse@ on 100 random lists: >>> quickCheck prop_reverse +++ OK, passed 100 tests. To run more tests you can use the 'withMaxSuccess' combinator: >>> quickCheck (withMaxSuccess 10000 prop_reverse) +++ OK, passed 10000 tests. To use QuickCheck on your own data types you will need to write 'Arbitrary' instances for those types. See the <http://www.cse.chalmers.se/~rjmh/QuickCheck/manual.html QuickCheck manual> for details about how to do that. -} {-# LANGUAGE CPP #-} #ifndef NO_SAFE_HASKELL {-# LANGUAGE Safe #-} #endif #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 708 {-# LANGUAGE PatternSynonyms #-} #endif module Test.QuickCheck ( -- * Running tests quickCheck , Args(..), Result(..) , stdArgs , quickCheckWith , quickCheckWithResult , quickCheckResult -- ** Running tests verbosely , verboseCheck , verboseCheckWith , verboseCheckWithResult , verboseCheckResult #ifndef NO_TEMPLATE_HASKELL -- ** Testing all properties in a module -- | These functions test all properties in the current module, using -- Template Haskell. You need to have a @{-\# LANGUAGE TemplateHaskell \#-}@ -- pragma in your module for any of these to work. , quickCheckAll , verboseCheckAll , forAllProperties , allProperties -- ** Testing polymorphic properties , polyQuickCheck , polyVerboseCheck , monomorphic #endif -- * The 'Arbitrary' typeclass: generation of random values , Arbitrary(..) -- ** Helper functions for implementing 'shrink' #ifndef NO_GENERICS , genericShrink , subterms , recursivelyShrink #endif , shrinkNothing , shrinkList , shrinkMap , shrinkMapBy , shrinkIntegral , shrinkRealFrac -- ** Lifting of 'Arbitrary' to unary and binary type constructors , Arbitrary1(..) , arbitrary1 , shrink1 , Arbitrary2(..) , arbitrary2 , shrink2 -- * The 'Gen' monad: combinators for building random generators , Gen -- ** Generator combinators , choose , oneof , frequency , elements , growingElements , sized , getSize , resize , scale , suchThat , suchThatMap , suchThatMaybe , applyArbitrary2 , applyArbitrary3 , applyArbitrary4 -- ** Generators for lists , listOf , listOf1 , vectorOf , vector , infiniteListOf , infiniteList , shuffle , sublistOf , orderedList -- ** Generators for particular types , arbitrarySizedIntegral , arbitrarySizedNatural , arbitrarySizedFractional , arbitrarySizedBoundedIntegral , arbitraryBoundedIntegral , arbitraryBoundedRandom , arbitraryBoundedEnum , arbitraryUnicodeChar , arbitraryASCIIChar , arbitraryPrintableChar -- ** Running generators , generate -- ** Debugging generators , sample , sample' -- * The 'Function' typeclass: generation of random shrinkable, showable functions -- | Example of use: -- -- >>> :{ -- >>> let prop :: Fun String Integer -> Bool -- >>> prop (Fun _ f) = f "monkey" == f "banana" || f "banana" == f "elephant" -- >>> :} -- >>> quickCheck prop -- *** Failed! Falsifiable (after 3 tests and 134 shrinks): -- {"elephant"->1, "monkey"->1, _->0} -- -- To generate random values of type @'Fun' a b@, -- you must have an instance @'Function' a@. -- If your type has a 'Show' instance, you can use 'functionShow' to write the instance; otherwise, -- use 'functionMap' to give a bijection between your type and a type that is already an instance of 'Function'. -- See the @'Function' [a]@ instance for an example of the latter. -- -- For more information, see the paper \"Shrinking and showing functions\" by Koen Claessen. , Fun (..) , applyFun , applyFun2 , applyFun3 #if defined(__GLASGOW_HASKELL__) && __GLASGOW_HASKELL__ >= 708 , pattern Fn , pattern Fn2 , pattern Fn3 #endif , Function (..) , functionMap , functionShow , functionIntegral , functionRealFrac , functionBoundedEnum -- * The 'CoArbitrary' typeclass: generation of functions the old-fashioned way #ifndef NO_GENERICS , CoArbitrary(..) , genericCoarbitrary #endif , variant , coarbitraryIntegral , coarbitraryReal , coarbitraryShow , coarbitraryEnum , (><) -- * Type-level modifiers for changing generator behavior -- | These types do things such as restricting the kind of test data that can be generated. -- They can be pattern-matched on in properties as a stylistic -- alternative to using explicit quantification. -- -- Examples: -- -- @ -- -- Functions cannot be shown (but see 'Function') -- prop_TakeDropWhile ('Blind' p) (xs :: ['A']) = -- takeWhile p xs ++ dropWhile p xs == xs -- @ -- -- @ -- prop_TakeDrop ('NonNegative' n) (xs :: ['A']) = -- take n xs ++ drop n xs == xs -- @ -- -- @ -- -- cycle does not work for empty lists -- prop_Cycle ('NonNegative' n) ('NonEmpty' (xs :: ['A'])) = -- take n (cycle xs) == take n (xs ++ cycle xs) -- @ -- -- @ -- -- Instead of 'forAll' 'orderedList' -- prop_Sort ('Ordered' (xs :: ['OrdA'])) = -- sort xs == xs -- @ , Blind(..) , Fixed(..) , OrderedList(..) , NonEmptyList(..) , InfiniteList(..) , Positive(..) , NonZero(..) , NonNegative(..) , Large(..) , Small(..) , Smart(..) , Shrink2(..) #ifndef NO_MULTI_PARAM_TYPE_CLASSES , Shrinking(..) , ShrinkState(..) #endif , ASCIIString(..) , UnicodeString(..) , PrintableString(..) -- * Property combinators , Property, Testable(..) , forAll , forAllShrink , forAllShow , forAllShrinkShow , forAllBlind , forAllShrinkBlind , shrinking , (==>) , Discard(..) , discard , (===) , (=/=) #ifndef NO_DEEPSEQ , total #endif , ioProperty , idempotentIOProperty -- ** Controlling property execution , verbose , verboseShrinking , noShrinking , withMaxSuccess , within , once , again , mapSize -- ** Conjunction and disjunction , (.&.) , (.&&.) , conjoin , (.||.) , disjoin -- ** What to do on failure , counterexample , printTestCase , whenFail , whenFail' , expectFailure -- * Analysing test case distribution , label , collect , classify , tabulate -- ** Checking test case distribution , cover , coverTable , checkCoverage , checkCoverageWith , Confidence(..) , stdConfidence -- ** Generating example test cases , labelledExamples , labelledExamplesWith , labelledExamplesWithResult , labelledExamplesResult ) where -------------------------------------------------------------------------- -- imports import Test.QuickCheck.Gen import Test.QuickCheck.Arbitrary import Test.QuickCheck.Modifiers import Test.QuickCheck.Property hiding ( Result(..) ) import Test.QuickCheck.Test import Test.QuickCheck.Exception import Test.QuickCheck.Function import Test.QuickCheck.Features import Test.QuickCheck.State #ifndef NO_TEMPLATE_HASKELL import Test.QuickCheck.All #endif -------------------------------------------------------------------------- -- the end.