Safe Haskell | Safe-Infered |
---|
- class Arbitrary a where
- class CoArbitrary a where
- coarbitrary :: a -> Gen c -> Gen c
- arbitrarySizedIntegral :: Num a => Gen a
- arbitraryBoundedIntegral :: (Bounded a, Integral a) => Gen a
- arbitrarySizedBoundedIntegral :: (Bounded a, Integral a) => Gen a
- arbitrarySizedFractional :: Fractional a => Gen a
- arbitraryBoundedRandom :: (Bounded a, Random a) => Gen a
- shrinkNothing :: a -> [a]
- shrinkList :: (a -> [a]) -> [a] -> [[a]]
- shrinkIntegral :: Integral a => a -> [a]
- shrinkRealFrac :: RealFrac a => a -> [a]
- (><) :: (Gen a -> Gen a) -> (Gen a -> Gen a) -> Gen a -> Gen a
- coarbitraryIntegral :: Integral a => a -> Gen b -> Gen b
- coarbitraryReal :: Real a => a -> Gen b -> Gen b
- coarbitraryShow :: Show a => a -> Gen b -> Gen b
- vector :: Arbitrary a => Int -> Gen [a]
- orderedList :: (Ord a, Arbitrary a) => Gen [a]
Arbitrary and CoArbitrary classes
Random generation and shrinking of values.
A generator for values of the given type.
Produces a (possibly) empty list of all the possible immediate shrinks of the given value.
class CoArbitrary a whereSource
Used for random generation of functions.
coarbitrary :: a -> Gen c -> Gen cSource
Used to generate a function of type a -> c
. The implementation
should use the first argument to perturb the random generator
given as the second argument. the returned generator
is then used to generate the function result.
You can often use variant
and ><
to implement
coarbitrary
.
CoArbitrary Bool | |
CoArbitrary Char | |
CoArbitrary Double | |
CoArbitrary Float | |
CoArbitrary Int | |
CoArbitrary Int8 | |
CoArbitrary Int16 | |
CoArbitrary Int32 | |
CoArbitrary Int64 | |
CoArbitrary Integer | |
CoArbitrary Word | |
CoArbitrary Word8 | |
CoArbitrary Word16 | |
CoArbitrary Word32 | |
CoArbitrary Word64 | |
CoArbitrary () | |
CoArbitrary OrdC | |
CoArbitrary OrdB | |
CoArbitrary OrdA | |
CoArbitrary C | |
CoArbitrary B | |
CoArbitrary A | |
CoArbitrary a => CoArbitrary [a] | |
(Integral a, CoArbitrary a) => CoArbitrary (Ratio a) | |
(RealFloat a, CoArbitrary a) => CoArbitrary (Complex a) | |
CoArbitrary a => CoArbitrary (Maybe a) | |
(Arbitrary a, CoArbitrary b) => CoArbitrary (a -> b) | |
(CoArbitrary a, CoArbitrary b) => CoArbitrary (Either a b) | |
(CoArbitrary a, CoArbitrary b) => CoArbitrary (a, b) | |
(CoArbitrary a, CoArbitrary b, CoArbitrary c) => CoArbitrary (a, b, c) | |
(CoArbitrary a, CoArbitrary b, CoArbitrary c, CoArbitrary d) => CoArbitrary (a, b, c, d) | |
(CoArbitrary a, CoArbitrary b, CoArbitrary c, CoArbitrary d, CoArbitrary e) => CoArbitrary (a, b, c, d, e) |
Helper functions for implementing arbitrary
arbitrarySizedIntegral :: Num a => Gen aSource
Generates an integral number. The number can be positive or negative and its maximum absolute value depends on the size parameter.
arbitraryBoundedIntegral :: (Bounded a, Integral a) => Gen aSource
Generates an integral number. The number is chosen uniformly from
the entire range of the type. You may want to use
arbitrarySizedBoundedIntegral
instead.
arbitrarySizedBoundedIntegral :: (Bounded a, Integral a) => Gen aSource
Generates an integral number from a bounded domain. The number is chosen from the entire range of the type, but small numbers are generated more often than big numbers. Inspired by demands from Phil Wadler.
arbitrarySizedFractional :: Fractional a => Gen aSource
Generates a fractional number. The number can be positive or negative and its maximum absolute value depends on the size parameter.
arbitraryBoundedRandom :: (Bounded a, Random a) => Gen aSource
Generates an element of a bounded type. The element is chosen from the entire range of the type.
Helper functions for implementing shrink
shrinkNothing :: a -> [a]Source
Returns no shrinking alternatives.
shrinkList :: (a -> [a]) -> [a] -> [[a]]Source
shrinkIntegral :: Integral a => a -> [a]Source
Shrink an integral number.
shrinkRealFrac :: RealFrac a => a -> [a]Source
Shrink a fraction.
Helper functions for implementing coarbitrary
(><) :: (Gen a -> Gen a) -> (Gen a -> Gen a) -> Gen a -> Gen aSource
Combine two generator perturbing functions, for example the
results of calls to variant
or coarbitrary
.
coarbitraryIntegral :: Integral a => a -> Gen b -> Gen bSource
A coarbitrary
implementation for integral numbers.
coarbitraryReal :: Real a => a -> Gen b -> Gen bSource
A coarbitrary
implementation for real numbers.
coarbitraryShow :: Show a => a -> Gen b -> Gen bSource
coarbitrary
helper for lazy people :-).
Generators which use arbitrary
orderedList :: (Ord a, Arbitrary a) => Gen [a]Source
Generates an ordered list of a given length.