Copyright	(c) The University of Glasgow 2001
License	BSD-style (see the file libraries/base/LICENSE)
Maintainer	libraries@haskell.org
Stability	experimental
Portability	portable
Safe Haskell	Trustworthy
Language	Haskell2010

Data.Either

Description

The Either type, and associated operations.

Synopsis

Documentation

data Either a b Source

The Either type represents values with two possibilities: a value of type Either a b is either Left a or Right b.

The Either type is sometimes used to represent a value which is either correct or an error; by convention, the Left constructor is used to hold an error value and the Right constructor is used to hold a correct value (mnemonic: "right" also means "correct").

Examples

The type Either String Int is the type of values which can be either a String or an Int. The Left constructor can be used only on Strings, and the Right constructor can be used only on Ints:

>>> let s = Left "foo" :: Either String Int >>> s Left "foo" >>> let n = Right 3 :: Either String Int >>> n Right 3 >>> :type s s :: Either String Int >>> :type n n :: Either String Int

The fmap from our Functor instance will ignore Left values, but will apply the supplied function to values contained in a Right:

>>> let s = Left "foo" :: Either String Int >>> let n = Right 3 :: Either String Int >>> fmap (*2) s Left "foo" >>> fmap (*2) n Right 6

The Monad instance for Either allows us to chain together multiple actions which may fail, and fail overall if any of the individual steps failed. First we'll write a function that can either parse an Int from a Char, or fail.

>>> import Data.Char ( digitToInt, isDigit ) >>> :{  let parseEither :: Char -> Either String Int parseEither c | isDigit c = Right (digitToInt c) | otherwise = Left "parse error" >>> :}

The following should work, since both '1' and '2' can be parsed as Ints.

>>> :{  let parseMultiple :: Either String Int parseMultiple = do x <- parseEither '1' y <- parseEither '2' return (x + y) >>> :}

>>> parseMultiple Right 3

But the following should fail overall, since the first operation where we attempt to parse 'm' as an Int will fail:

>>> :{  let parseMultiple :: Either String Int parseMultiple = do x <- parseEither 'm' y <- parseEither '2' return (x + y) >>> :}

>>> parseMultiple Left "parse error"

Constructors

Left a
Right b

Instances

Bifunctor Either Source
Monad (Either e) Source
Functor (Either a) Source
MonadFix (Either e) Source
Applicative (Either e) Source
Foldable (Either a) Source
Traversable (Either a) Source
Generic1 (Either a) Source
(Eq a, Eq b) => Eq (Either a b) Source
(Data a, Data b) => Data (Either a b) Source
(Ord a, Ord b) => Ord (Either a b) Source
(Read a, Read b) => Read (Either a b) Source
(Show a, Show b) => Show (Either a b) Source
Generic (Either a b) Source
type Rep1 (Either a) Source
type Rep (Either a b) Source
type (==) (Either k k1) a b Source

either :: (a -> c) -> (b -> c) -> Either a b -> c Source

Case analysis for the Either type. If the value is Left a, apply the first function to a; if it is Right b, apply the second function to b.

Examples

We create two values of type Either String Int, one using the Left constructor and another using the Right constructor. Then we apply "either" the length function (if we have a String) or the "times-two" function (if we have an Int):

>>> let s = Left "foo" :: Either String Int >>> let n = Right 3 :: Either String Int >>> either length (*2) s 3 >>> either length (*2) n 6

lefts :: [Either a b] -> [a] Source

Extracts from a list of Either all the Left elements. All the Left elements are extracted in order.

Examples

Basic usage:

>>> let list = [ Left "foo", Right 3, Left "bar", Right 7, Left "baz" ] >>> lefts list ["foo","bar","baz"]

rights :: [Either a b] -> [b] Source

Extracts from a list of Either all the Right elements. All the Right elements are extracted in order.

Examples

Basic usage:

>>> let list = [ Left "foo", Right 3, Left "bar", Right 7, Left "baz" ] >>> rights list [3,7]

isLeft :: Either a b -> Bool Source

Return True if the given value is a Left-value, False otherwise.

Examples

Basic usage:

>>> isLeft (Left "foo") True >>> isLeft (Right 3) False

Assuming a Left value signifies some sort of error, we can use isLeft to write a very simple error-reporting function that does absolutely nothing in the case of success, and outputs "ERROR" if any error occurred.

This example shows how isLeft might be used to avoid pattern matching when one does not care about the value contained in the constructor:

>>> import Control.Monad ( when ) >>> let report e = when (isLeft e) $ putStrLn "ERROR" >>> report (Right 1) >>> report (Left "parse error") ERROR

Since: 4.7.0.0

isRight :: Either a b -> Bool Source

Return True if the given value is a Right-value, False otherwise.

Examples

Basic usage:

>>> isRight (Left "foo") False >>> isRight (Right 3) True

Assuming a Left value signifies some sort of error, we can use isRight to write a very simple reporting function that only outputs "SUCCESS" when a computation has succeeded.

This example shows how isRight might be used to avoid pattern matching when one does not care about the value contained in the constructor:

>>> import Control.Monad ( when ) >>> let report e = when (isRight e) $ putStrLn "SUCCESS" >>> report (Left "parse error") >>> report (Right 1) SUCCESS

Since: 4.7.0.0

partitionEithers :: [Either a b] -> ([a], [b]) Source

Partitions a list of Either into two lists. All the Left elements are extracted, in order, to the first component of the output. Similarly the Right elements are extracted to the second component of the output.

Examples

Basic usage:

>>> let list = [ Left "foo", Right 3, Left "bar", Right 7, Left "baz" ] >>> partitionEithers list (["foo","bar","baz"],[3,7])

The pair returned by partitionEithers x should be the same pair as (lefts x, rights x):

>>> let list = [ Left "foo", Right 3, Left "bar", Right 7, Left "baz" ] >>> partitionEithers list == (lefts list, rights list) True