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map :: forall a b f. Functor f => (a -> b) -> f a -> f b

Map k v represents maps from keys of type k to values of type v.

map :: forall a b. Ord b => (a -> b) -> Set a -> Set b

Maps over the values in a set.

This operation is not structure-preserving for sets, so is not a valid Functor. An example case: mapping const x over a set with n > 0 elements will result in a set with one element.

map :: forall a b. Ord b => (a -> b) -> NonEmptySet a -> NonEmptySet b

Maps over the values in a set.

This operation is not structure-preserving for sets, so is not a valid Functor. An example case: mapping const x over a set with n > 0 elements will result in a set with one element.

Map k v represents maps from keys of type k to values of type v.

map :: forall a b m r. Monad m => (a -> b) -> Pipe a b m r

Apply a function to all values flowing downstream

map :: forall a b. Ord b => (a -> b) -> Set a -> Set b

Maps over the values in a set.

This operation is not structure-preserving for sets, so is not a valid Functor. An example case: mapping const x over a set with n > 0 elements will result in a set with one element.

map :: Array Props -> Array ReactElement -> ReactElement

map :: Array Props -> Array ReactElement -> ReactElement

map :: forall e. Markup e -> Markup e

map :: forall w i. Node HTMLmap w i

map :: forall a t. TypedArray a t => (t -> t) -> ArrayView a -> ArrayView a

Maps a new value over the typed array, creating a new buffer and typed array as well.

map :: Selector

map :: forall a b. Hashable b => (a -> b) -> HashSet a -> HashSet b

Construct a new set by applying a function to each element of an input set.

If distinct inputs map to the same output, this changes the cardinality of the set, therefore hash set is not a Functor. Also, the order in which elements appear in the new set is entirely dependent on the hash function for type b.

map :: forall f a b x y. IxFunctor f => (a -> b) -> f x y a -> f x y b

map :: (Octet -> Octet) -> ByteString -> ByteString

Θ(n) Transform the bytes in the byte string.

map :: forall a e. (ReactElement -> a) -> ReactWrapper -> Eff (enzyme :: ENZYME | e) (Array a)

map :: forall a e. (ReactElement -> a) -> ShallowWrapper -> Eff (enzyme :: ENZYME | e) (Array a)

map :: forall a b. (a -> b) -> Seq a -> Seq b

O(n). Apply a function to every element within a sequence. Note that this function is performed lazily — the actual call is almost instantaneous, regardless of the length of the sequence, because the function is not applied to all elements immediately. The eventual running time (assuming all elements are later requested) is O(n), though.

map :: forall a b f. ((a -> b) -> f a -> f b) -> (a -> b) -> NonEmpty f a -> NonEmpty f b

map :: forall a b p. Ord b => Semiring p => (a -> b) -> Dist p a -> Dist p b

map :: forall v0 v1 f c. HasMap c f => ObjectOf c v0 => ObjectOf c v1 => ObjectOf c (f v0) => ObjectOf c (f v1) => c v0 v1 -> c (f v0) (f v1)

map :: forall v0 v1 f c. HasMap c f => ObjectOf c v0 => ObjectOf c v1 => c v0 v1 -> f v0 -> f v1

map :: forall a b. NotJSPromise b => (a -> b) -> PromiseSpec a -> PromiseSpec b

map the value in a promise spec

map :: forall a b. Ord a => JsonCodec a -> JsonCodec b -> JsonCodec (Map a b)

A codec for Map values.

Encodes as an array of two-element key/value arrays in JSON.

map :: forall t. Corecursive t EJsonF => Map t t -> t

Map :: forall a. (EJsonMap a) -> EJsonF a

Map :: EJsonType

map :: forall a b da db. Patch a da => Patch b db => (Jet a -> Jet b) -> Jet (IArray a) -> Jet (IArray b)

Modify each array element by applying the specified function.

map :: forall a b. (a -> b) -> Jet (Atomic a) -> Jet (Atomic b)

Change an Atomic value using a regular function.

map :: forall k a da b db. Ord k => Patch a da => Patch b db => (Jet a -> Jet b) -> Jet (IMap k a) -> Jet (IMap k b)

Update every key by applying a function.

A map object (http://leafletjs.com/reference-1.0.3.html#map-example)

map :: forall e. String -> LatLng -> Zoom -> Eff (leaflet :: LEAFLET | e) Map

map domID latLng zoom creates a new map object centered at latLng, at zoom level zoom, and attaches it to the DOM element with ID domID.

map :: forall a b. Hashable b => (a -> b) -> MultiSet a -> MultiSet b

map :: forall a b f. IsoFunctor f => Iso a b -> f a -> f b

map :: forall f g l0 l1 p r0 r1 r2. RMap p f g l0 r0 l1 r1 r2 => RowToList r0 l0 => RowToList r1 l1 => g r0 -> p (f r1) (f r2)

map :: ImportedReactComponentConstructorWithContent EmptyProps OptProps_map

map :: forall a b h. ToHtml a b h

map :: forall a b. (a -> b) -> GunChainCtx -> GunChainCtx

Map iterates over each property and item on a node, passing it down the chain, transforming the data with the given function. It also subscribes to every item as well and listens for newly inserted items.

map :: forall e c a. Attrs -> DOM e c a -> DOM e c (ImpulseEl a)

map :: forall a b. (a -> b) -> List a -> List b

map :: Icons

map :: forall r t. Lens' { map :: t | r } t

map :: forall b c a. HasMap a => (b -> c) -> a b -> a c

Map :: forall b a. (Map a b) -> Map a b

map :: forall a b. Ord b => (a -> b) -> OSet a -> OSet b

Maps over the values in a set.

This operation is not structure-preserving for sets, so is not a valid Functor. An example case: mapping const x over a set with n > 0 elements will result in a set with one element.

map :: P5 -> Number -> Number -> Number -> Number -> Number -> (Maybe Boolean) -> Number

p5js.org documentation

map :: StaticElement