map -package:base-compat -package:charset -package:amazonka-core -package:aeson -package:dlist -package:base-prelude -package:Cabal-syntax -package:base -package:imports -package:dense-linear-algebra -package:insert-ordered-containers -package:incipit-base -package:integration -is:exact -package:filepath -package:case-insensitive -package:base-compat-batteries is:exact -package:ghc
Map all element a from a block to a new block of b
Map all elements in a list
Combinator for the
<map> element.
Example:
map $ span $ toHtml "foo"
Result:
<map><span>foo</span></map>
O(n) map f xs is the ByteString obtained by
applying
f to each element of
xs.
O(n) map f xs is the ByteString obtained by
applying
f to each element of
xs
O(n) map f xs is the ShortByteString obtained
by applying
f to each element of
xs.
Apply a transformation to all values in a stream.
Subject to fusion
Apply a transformation to all values in a stream.
Subject to fusion
Since 0.3.0
Map a function over all values in the map.
map (++ "x") (fromList [(5,"a"), (3,"b")]) == fromList [(3, "bx"), (5, "ax")]
map f s is the set obtained by applying
f to each element of
s.
It's worth noting that the size of the result may be smaller if, for
some
(x,y),
x /= y && f x == f y
Map a function over all values in the map.
map (++ "x") (fromList [(5,"a"), (3,"b")]) == fromList [(3, "bx"), (5, "ax")]
map f s is the set obtained by applying
f to each element of
s.
It's worth noting that the size of the result may be smaller if, for
some
(x,y),
x /= y && f x == f y
Generates a map using a
Range to determine the length.
This may fail to generate anything if the keys produced by the
generator do not account for a large enough number of unique
items to satify the required map size.
Apply a bijection over a list using
map.
O(n) Transform this map by applying a function to every value.
O(n) map f xs is the OsString obtained by
applying
f to each element of
xs.
O(n) map f xs is the ShortByteString obtained
by applying
f to each element of
xs.
O(n) map f xs is the OsString obtained by
applying
f to each element of
xs.