extra-1.6.3: Extra functions I use.

Safe HaskellSafe
LanguageHaskell2010

Data.List.Extra

Contents

Description

This module extends Data.List with extra functions of a similar nature. The package also exports the existing Data.List functions. Some of the names and semantics were inspired by the text package.

Synopsis

Documentation

module Data.List

String operations

lower :: String -> String Source #

Convert a string to lower case.

lower "This is A TEST" == "this is a test"
lower "" == ""

upper :: String -> String Source #

Convert a string to upper case.

upper "This is A TEST" == "THIS IS A TEST"
upper "" == ""

trim :: String -> String Source #

Remove spaces from either side of a string. A combination of trimEnd and trimStart.

trim      "  hello   " == "hello"
trimStart "  hello   " == "hello   "
trimEnd   "  hello   " == "  hello"
\s -> trim s == trimEnd (trimStart s)

trimStart :: String -> String Source #

Remove spaces from the start of a string, see trim.

trimEnd :: String -> String Source #

Remove spaces from the end of a string, see trim.

word1 :: String -> (String, String) Source #

Split the first word off a string. Useful for when starting to parse the beginning of a string, but you want to accurately perserve whitespace in the rest of the string.

word1 "" == ("", "")
word1 "keyword rest of string" == ("keyword","rest of string")
word1 "  keyword\n  rest of string" == ("keyword","rest of string")
\s -> fst (word1 s) == concat (take 1 $ words s)
\s -> words (snd $ word1 s) == drop 1 (words s)

line1 :: String -> (String, String) Source #

Split the first line off a string.

line1 "" == ("", "")
line1 "test" == ("test","")
line1 "test\n" == ("test","")
line1 "test\nrest" == ("test","rest")
line1 "test\nrest\nmore" == ("test","rest\nmore")

Splitting

dropEnd :: Int -> [a] -> [a] Source #

Drop a number of elements from the end of the list.

dropEnd 3 "hello"  == "he"
dropEnd 5 "bye"    == ""
dropEnd (-1) "bye" == "bye"
\i xs -> dropEnd i xs `isPrefixOf` xs
\i xs -> length (dropEnd i xs) == max 0 (length xs - max 0 i)
\i -> take 3 (dropEnd 5 [i..]) == take 3 [i..]

takeEnd :: Int -> [a] -> [a] Source #

Take a number of elements from the end of the list.

takeEnd 3 "hello"  == "llo"
takeEnd 5 "bye"    == "bye"
takeEnd (-1) "bye" == ""
\i xs -> takeEnd i xs `isSuffixOf` xs
\i xs -> length (takeEnd i xs) == min (max 0 i) (length xs)

splitAtEnd :: Int -> [a] -> ([a], [a]) Source #

splitAtEnd n xs returns a split where the second element tries to contain n elements.

splitAtEnd 3 "hello" == ("he","llo")
splitAtEnd 3 "he"    == ("", "he")
\i xs -> uncurry (++) (splitAt i xs) == xs
\i xs -> splitAtEnd i xs == (dropEnd i xs, takeEnd i xs)

breakEnd :: (a -> Bool) -> [a] -> ([a], [a]) Source #

Break, but from the end.

breakEnd isLower "youRE" == ("you","RE")
breakEnd isLower "youre" == ("youre","")
breakEnd isLower "YOURE" == ("","YOURE")
\f xs -> breakEnd (not . f) xs == spanEnd f  xs

spanEnd :: (a -> Bool) -> [a] -> ([a], [a]) Source #

Span, but from the end.

spanEnd isUpper "youRE" == ("you","RE")
spanEnd (not . isSpace) "x y z" == ("x y ","z")
\f xs -> uncurry (++) (spanEnd f xs) == xs
\f xs -> spanEnd f xs == swap (both reverse (span f (reverse xs)))

dropWhileEnd :: (a -> Bool) -> [a] -> [a] #

The dropWhileEnd function drops the largest suffix of a list in which the given predicate holds for all elements. For example:

dropWhileEnd isSpace "foo\n" == "foo"
dropWhileEnd isSpace "foo bar" == "foo bar"
dropWhileEnd isSpace ("foo\n" ++ undefined) == "foo" ++ undefined

Since: 4.5.0.0

dropWhileEnd' :: (a -> Bool) -> [a] -> [a] Source #

A version of dropWhileEnd but with different strictness properties. The function dropWhileEnd can be used on an infinite list and tests the property on each character. In contrast, dropWhileEnd' is strict in the spine of the list but only tests the trailing suffix. This version usually outperforms dropWhileEnd if the list is short or the test is expensive. Note the tests below cover both the prime and non-prime variants.

dropWhileEnd  isSpace "ab cde  " == "ab cde"
dropWhileEnd' isSpace "ab cde  " == "ab cde"
last (dropWhileEnd  even [undefined,3]) == undefined
last (dropWhileEnd' even [undefined,3]) == 3
head (dropWhileEnd  even (3:undefined)) == 3
head (dropWhileEnd' even (3:undefined)) == undefined

takeWhileEnd :: (a -> Bool) -> [a] -> [a] Source #

A version of takeWhile operating from the end.

takeWhileEnd even [2,3,4,6] == [4,6]

stripSuffix :: Eq a => [a] -> [a] -> Maybe [a] Source #

Return the prefix of the second string if its suffix matches the entire first string.

Examples:

stripSuffix "bar" "foobar" == Just "foo"
stripSuffix ""    "baz"    == Just "baz"
stripSuffix "foo" "quux"   == Nothing

stripInfix :: Eq a => [a] -> [a] -> Maybe ([a], [a]) Source #

Return the the string before and after the search string, or Nothing if the search string is not present.

Examples:

stripInfix "::" "a::b::c" == Just ("a", "b::c")
stripInfix "/" "foobar"   == Nothing

stripInfixEnd :: Eq a => [a] -> [a] -> Maybe ([a], [a]) Source #

Similar to stripInfix, but searches from the end of the string.

stripInfixEnd "::" "a::b::c" == Just ("a::b", "c")

wordsBy :: (a -> Bool) -> [a] -> [[a]] Source #

A variant of words with a custom test. In particular, adjacent separators are discarded, as are leading or trailing separators.

wordsBy (== ':') "::xyz:abc::123::" == ["xyz","abc","123"]
\s -> wordsBy isSpace s == words s

linesBy :: (a -> Bool) -> [a] -> [[a]] Source #

A variant of lines with a custom test. In particular, if there is a trailing separator it will be discarded.

linesBy (== ':') "::xyz:abc::123::" == ["","","xyz","abc","","123",""]
\s -> linesBy (== '\n') s == lines s
linesBy (== ';') "my;list;here;" == ["my","list","here"]

breakOn :: Eq a => [a] -> [a] -> ([a], [a]) Source #

Find the first instance of needle 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. If you want the remainder without the match, use stripInfix.

breakOn "::" "a::b::c" == ("a", "::b::c")
breakOn "/" "foobar"   == ("foobar", "")
\needle haystack -> let (prefix,match) = breakOn needle haystack in prefix ++ match == haystack

breakOnEnd :: Eq a => [a] -> [a] -> ([a], [a]) Source #

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")

splitOn :: (Partial, Eq a) => [a] -> [a] -> [[a]] Source #

Break a list into pieces separated by the first list argument, consuming the delimiter. An empty delimiter is invalid, and will cause an error to be raised.

splitOn "\r\n" "a\r\nb\r\nd\r\ne" == ["a","b","d","e"]
splitOn "aaa"  "aaaXaaaXaaaXaaa"  == ["","X","X","X",""]
splitOn "x"    "x"                == ["",""]
splitOn "x"    ""                 == [""]
\s x -> s /= "" ==> intercalate s (splitOn s x) == x
\c x -> splitOn [c] x                           == split (==c) x

split :: (a -> Bool) -> [a] -> [[a]] Source #

Splits a list into components delimited by separators, where the predicate returns True for a separator element. The resulting components do not contain the separators. Two adjacent separators result in an empty component in the output.

split (== 'a') "aabbaca" == ["","","bb","c",""]
split (== 'a') ""        == [""]
split (== ':') "::xyz:abc::123::" == ["","","xyz","abc","","123","",""]
split (== ',') "my,list,here" == ["my","list","here"]

chunksOf :: Partial => Int -> [a] -> [[a]] Source #

Split a list into chunks of a given size. The last chunk may contain fewer than n elements. The chunk size must be positive.

chunksOf 3 "my test" == ["my ","tes","t"]
chunksOf 3 "mytest"  == ["myt","est"]
chunksOf 8 ""        == []
chunksOf 0 "test"    == undefined

Basics

list :: b -> (a -> [a] -> b) -> [a] -> b Source #

Non-recursive transform over a list, like maybe.

list 1 (\v _ -> v - 2) [5,6,7] == 3
list 1 (\v _ -> v - 2) []      == 1
\nil cons xs -> maybe nil (uncurry cons) (uncons xs) == list nil cons xs

uncons :: [a] -> Maybe (a, [a]) #

Decompose a list into its head and tail. If the list is empty, returns Nothing. If the list is non-empty, returns Just (x, xs), where x is the head of the list and xs its tail.

Since: 4.8.0.0

unsnoc :: [a] -> Maybe ([a], a) Source #

If the list is empty returns Nothing, otherwise returns the init and the last.

unsnoc "test" == Just ("tes",'t')
unsnoc ""     == Nothing
\xs -> unsnoc xs == if null xs then Nothing else Just (init xs, last xs)

cons :: a -> [a] -> [a] Source #

Append an element to the start of a list, an alias for '(:)'.

cons 't' "est" == "test"
\x xs -> uncons (cons x xs) == Just (x,xs)

snoc :: [a] -> a -> [a] Source #

Append an element to the end of a list, takes O(n) time.

snoc "tes" 't' == "test"
\xs x -> unsnoc (snoc xs x) == Just (xs,x)

drop1 :: [a] -> [a] Source #

Equivalent to drop 1, but likely to be faster and a single lexeme.

drop1 ""         == ""
drop1 "test"     == "est"
\xs -> drop 1 xs == drop1 xs

mconcatMap :: Monoid b => (a -> b) -> [a] -> b Source #

Version on concatMap generalised to a Monoid rather than just a list.

mconcatMap Sum [1,2,3] == Sum 6
\f xs -> mconcatMap f xs == concatMap f xs

List operations

groupSort :: Ord k => [(k, v)] -> [(k, [v])] Source #

A combination of group and sort.

groupSort [(1,'t'),(3,'t'),(2,'e'),(2,'s')] == [(1,"t"),(2,"es"),(3,"t")]
\xs -> map fst (groupSort xs) == sort (nub (map fst xs))
\xs -> concatMap snd (groupSort xs) == map snd (sortOn fst xs)

groupSortOn :: Ord b => (a -> b) -> [a] -> [[a]] Source #

A combination of group and sort, using a part of the value to compare on.

groupSortOn length ["test","of","sized","item"] == [["of"],["test","item"],["sized"]]

groupSortBy :: (a -> a -> Ordering) -> [a] -> [[a]] Source #

A combination of group and sort, using a predicate to compare on.

groupSortBy (compare `on` length) ["test","of","sized","item"] == [["of"],["test","item"],["sized"]]

nubOrd :: Ord a => [a] -> [a] Source #

O(n log n). The nubOrd function removes duplicate elements from a list. In particular, it keeps only the first occurrence of each element. Unlike the standard nub operator, this version requires an Ord instance and consequently runs asymptotically faster.

nubOrd "this is a test" == "this ae"
nubOrd (take 4 ("this" ++ undefined)) == "this"
\xs -> nubOrd xs == nub xs

nubOrdBy :: (a -> a -> Ordering) -> [a] -> [a] Source #

A version of nubOrd with a custom predicate.

nubOrdBy (compare `on` length) ["a","test","of","this"] == ["a","test","of"]

nubOrdOn :: Ord b => (a -> b) -> [a] -> [a] Source #

A version of nubOrd which operates on a portion of the value.

nubOrdOn length ["a","test","of","this"] == ["a","test","of"]

nubOn :: Eq b => (a -> b) -> [a] -> [a] Source #

A version of nub where the equality is done on some extracted value. nubOn f is equivalent to nubBy ((==) on f), but has the performance advantage of only evaluating f once for each element in the input list.

groupOn :: Eq b => (a -> b) -> [a] -> [[a]] Source #

A version of group where the equality is done on some extracted value.

sortOn :: Ord b => (a -> b) -> [a] -> [a] #

Sort a list by comparing the results of a key function applied to each element. sortOn f is equivalent to sortBy (comparing f), but has the performance advantage of only evaluating f once for each element in the input list. This is called the decorate-sort-undecorate paradigm, or Schwartzian transform.

Elements are arranged from from lowest to highest, keeping duplicates in the order they appeared in the input.

Since: 4.8.0.0

nubSort :: Ord a => [a] -> [a] Source #

O(n log n). The nubSort function sorts and removes duplicate elements from a list. In particular, it keeps only the first occurrence of each element.

nubSort "this is a test" == " aehist"
\xs -> nubSort xs == nub (sort xs)

nubSortBy :: (a -> a -> Ordering) -> [a] -> [a] Source #

A version of nubSort with a custom predicate.

nubSortBy (compare `on` length) ["a","test","of","this"] == ["a","of","test"]

nubSortOn :: Ord b => (a -> b) -> [a] -> [a] Source #

A version of nubSort which operates on a portion of the value.

nubSortOn length ["a","test","of","this"] == ["a","of","test"]

maximumOn :: Ord b => (a -> b) -> [a] -> a Source #

A version of maximum where the comparison is done on some extracted value.

minimumOn :: Ord b => (a -> b) -> [a] -> a Source #

A version of minimum where the comparison is done on some extracted value.

disjoint :: Eq a => [a] -> [a] -> Bool Source #

Are two lists disjoint, with no elements in common.

disjoint [1,2,3] [4,5] == True
disjoint [1,2,3] [4,1] == False

allSame :: Eq a => [a] -> Bool Source #

Are all elements the same.

allSame [1,1,2] == False
allSame [1,1,1] == True
allSame [1]     == True
allSame []      == True
allSame (1:1:2:undefined) == False
\xs -> allSame xs == (length (nub xs) <= 1)

anySame :: Eq a => [a] -> Bool Source #

Is there any element which occurs more than once.

anySame [1,1,2] == True
anySame [1,2,3] == False
anySame (1:2:1:undefined) == True
anySame [] == False
\xs -> anySame xs == (length (nub xs) < length xs)

repeatedly :: ([a] -> (b, [a])) -> [a] -> [b] Source #

Apply some operation repeatedly, producing an element of output and the remainder of the list.

\xs -> repeatedly (splitAt 3) xs  == chunksOf 3 xs
\xs -> repeatedly word1 (trim xs) == words xs
\xs -> repeatedly line1 xs == lines xs

for :: [a] -> (a -> b) -> [b] Source #

Flipped version of map.

for [1,2,3] (+1) == [2,3,4]

firstJust :: (a -> Maybe b) -> [a] -> Maybe b Source #

Find the first element of a list for which the operation returns Just, along with the result of the operation. Like find but useful where the function also computes some expensive information that can be reused. Particular useful when the function is monadic, see firstJustM.

firstJust id [Nothing,Just 3]  == Just 3
firstJust id [Nothing,Nothing] == Nothing

concatUnzip :: [([a], [b])] -> ([a], [b]) Source #

A merging of unzip and concat.

concatUnzip [("a","AB"),("bc","C")] == ("abc","ABC")

concatUnzip3 :: [([a], [b], [c])] -> ([a], [b], [c]) Source #

A merging of unzip3 and concat.

concatUnzip3 [("a","AB",""),("bc","C","123")] == ("abc","ABC","123")

zipFrom :: (Partial, Enum a) => a -> [b] -> [(a, b)] Source #

zip against an enumeration. Never truncates the output - raises an error if the enumeration runs out.

\i xs -> zip [i..] xs == zipFrom i xs
zipFrom False [1..3] == undefined

zipWithFrom :: (Partial, Enum a) => (a -> b -> c) -> a -> [b] -> [c] Source #

zipFrom generalised to any combining operation. Never truncates the output - raises an error if the enumeration runs out.

\i xs -> zipWithFrom (,) i xs == zipFrom i xs

replace :: (Partial, Eq a) => [a] -> [a] -> [a] -> [a] Source #

Replace a subsequence everywhere it occurs. The first argument must not be the empty list.

replace "el" "_" "Hello Bella" == "H_lo B_la"
replace "el" "e" "Hello"       == "Helo"
replace "" "e" "Hello"         == undefined
\xs ys -> not (null xs) ==> replace xs xs ys == ys

merge :: Ord a => [a] -> [a] -> [a] Source #

Merge two lists which are assumed to be ordered.

merge "ace" "bd" == "abcde"
\xs ys -> merge (sort xs) (sort ys) == sort (xs ++ ys)

mergeBy :: (a -> a -> Ordering) -> [a] -> [a] -> [a] Source #

Like merge, but with a custom ordering function.