Safe Haskell | Safe |
---|---|
Language | Haskell2010 |
This module exports all the partial functions from Data.Text
Synopsis
- head :: Text -> Char
- last :: Text -> Char
- tail :: Text -> Text
- init :: Text -> Text
- replace :: Text -> Text -> Text -> Text
- foldl1 :: (Char -> Char -> Char) -> Text -> Char
- foldl1' :: (Char -> Char -> Char) -> Text -> Char
- foldr1 :: (Char -> Char -> Char) -> Text -> Char
- maximum :: Text -> Char
- minimum :: Text -> Char
- breakOn :: Text -> Text -> (Text, Text)
- breakOnEnd :: Text -> Text -> (Text, Text)
- splitOn :: Text -> Text -> [Text]
- breakOnAll :: Text -> Text -> [(Text, Text)]
- count :: Text -> Text -> Int
Basic interface
O(1) Returns the first character of a Text
, which must be
non-empty. Subject to fusion.
O(1) Returns the last character of a Text
, which must be
non-empty. Subject to fusion.
O(1) Returns all characters after the head of a Text
, which
must be non-empty. Subject to fusion.
O(1) Returns all but the last character of a Text
, which must
be non-empty. Subject to fusion.
Transformations
:: Text |
|
-> Text |
|
-> Text |
|
-> Text |
O(m+n) Replace every non-overlapping occurrence of needle
in
haystack
with replacement
.
This function behaves as though it was defined as follows:
replace needle replacement haystack =intercalate
replacement (splitOn
needle haystack)
As this suggests, each occurrence is replaced exactly once. So if
needle
occurs in replacement
, that occurrence will not itself
be replaced recursively:
>>>
replace "oo" "foo" "oo"
"foo"
In cases where several instances of needle
overlap, only the
first one will be replaced:
>>>
replace "ofo" "bar" "ofofo"
"barfo"
In (unlikely) bad cases, this function's time complexity degrades towards O(n*m).
Folds
foldl1' :: (Char -> Char -> Char) -> Text -> Char #
O(n) A strict version of foldl1
. Subject to fusion.
Special folds
Substrings
Breaking strings
breakOn :: Text -> Text -> (Text, Text) #
O(n+m) Find the first instance of needle
(which must be
non-null
) in haystack
. The first element of the returned tuple
is the prefix of haystack
before needle
is matched. The second
is the remainder of haystack
, starting with the match.
Examples:
>>>
breakOn "::" "a::b::c"
("a","::b::c")
>>>
breakOn "/" "foobar"
("foobar","")
Laws:
append prefix match == haystack where (prefix, match) = breakOn needle haystack
If you need to break a string by a substring repeatedly (e.g. you
want to break on every instance of a substring), use breakOnAll
instead, as it has lower startup overhead.
In (unlikely) bad cases, this function's time complexity degrades towards O(n*m).
breakOnEnd :: Text -> Text -> (Text, Text) #
O(n+m) Similar to breakOn
, but searches from the end of the
string.
The first element of the returned tuple is the prefix of haystack
up to and including the last match of needle
. The second is the
remainder of haystack
, following the match.
>>>
breakOnEnd "::" "a::b::c"
("a::b::","c")
Breaking into many substrings
O(m+n) Break a Text
into pieces separated by the first Text
argument (which cannot be empty), consuming the delimiter. An empty
delimiter is invalid, and will cause an error to be raised.
Examples:
>>>
splitOn "\r\n" "a\r\nb\r\nd\r\ne"
["a","b","d","e"]
>>>
splitOn "aaa" "aaaXaaaXaaaXaaa"
["","X","X","X",""]
>>>
splitOn "x" "x"
["",""]
and
intercalate s . splitOn s == id splitOn (singleton c) == split (==c)
(Note: the string s
to split on above cannot be empty.)
In (unlikely) bad cases, this function's time complexity degrades towards O(n*m).
Searching
O(n+m) Find all non-overlapping instances of needle
in
haystack
. Each element of the returned list consists of a pair:
- The entire string prior to the kth match (i.e. the prefix)
- The kth match, followed by the remainder of the string
Examples:
>>>
breakOnAll "::" ""
[]
>>>
breakOnAll "/" "a/b/c/"
[("a","/b/c/"),("a/b","/c/"),("a/b/c","/")]
In (unlikely) bad cases, this function's time complexity degrades towards O(n*m).
The needle
parameter may not be empty.