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Within LTS Haskell 24.28 (ghc-9.10.3)

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  1. mapConfig :: (PropertyConfig -> PropertyConfig) -> Property -> Property

    hedgehog Hedgehog.Internal.Property

    Map a config modification function over a property.

  2. mapMaybe :: (a -> Maybe b) -> Tree a -> Maybe (Tree b)

    hedgehog Hedgehog.Internal.Tree

    No documentation available.

  3. mapMaybeMaybeT :: (a -> Maybe b) -> TreeT (MaybeT Identity) a -> TreeT (MaybeT Identity) b

    hedgehog Hedgehog.Internal.Tree

    No documentation available.

  4. mapMaybeT :: forall (m :: Type -> Type) a b . (Monad m, Alternative m) => (a -> Maybe b) -> TreeT m a -> TreeT m b

    hedgehog Hedgehog.Internal.Tree

    No documentation available.

  5. mapTreeT :: (m (NodeT m a) -> m (NodeT m a)) -> TreeT m a -> TreeT m a

    hedgehog Hedgehog.Internal.Tree

    Map between TreeT computations.

  6. mapSplitter :: (b -> a) -> Splitter a -> Splitter b

    split Data.List.Split

    Split over a different type of element by performing a preprocessing step. 

    >>> split (mapSplitter snd $ oneOf "-_") $ zip [0..] "a-bc_d"
[[(0,'a')],[(1,'-')],[(2,'b'),(3,'c')],[(4,'_')],[(5,'d')]]

    >>> import Data.Char (toLower)

>>> split (mapSplitter toLower $ dropDelims $ whenElt (== 'x')) "abXcxd"
["ab","c","d"]

  7. mapSplitter :: (b -> a) -> Splitter a -> Splitter b

    split Data.List.Split.Internals

    Split over a different type of element by performing a preprocessing step. 

    >>> split (mapSplitter snd $ oneOf "-_") $ zip [0..] "a-bc_d"
[[(0,'a')],[(1,'-')],[(2,'b'),(3,'c')],[(4,'_')],[(5,'d')]]

    >>> import Data.Char (toLower)

>>> split (mapSplitter toLower $ dropDelims $ whenElt (== 'x')) "abXcxd"
["ab","c","d"]

  8. mapLeafBenchmarks :: ([String] -> Benchmark -> Benchmark) -> Benchmark -> Benchmark

    tasty-bench Test.Tasty.Bench

    Map leaf benchmarks (bench, not bgroup) with a provided function, which has an access to leaf's reversed path. This helper is useful for bulk application of bcompare. See also locateBenchmark. Real world examples:

  9. mapAccumLOf :: LensLike (State acc) s t a b -> (acc -> a -> (acc, b)) -> acc -> s -> (acc, t)

    microlens Lens.Micro

    This generalizes mapAccumL to an arbitrary Traversal. (Note that it doesn't work on folds, only traversals.) 

    mapAccumLmapAccumLOf traverse

  10. mapMOf :: LensLike (WrappedMonad m) s t a b -> (a -> m b) -> s -> m t

    microlens Lens.Micro

    Map each element of a structure targeted by a Lens to a monadic action, evaluate these actions from left to right, and collect the results. 

    >>> mapMOf both (\x -> [x, x + 1]) (1,3)
[(1,3),(1,4),(2,3),(2,4)]

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