{-# LANGUAGE BangPatterns, CPP, DefaultSignatures, FlexibleContexts, FlexibleInstances, KindSignatures, MultiParamTypeClasses, OverloadedStrings, Rank2Types, ScopedTypeVariables, TypeOperators, UndecidableInstances #-} #if __GLASGOW_HASKELL__ >= 800 {-# LANGUAGE DataKinds #-} {-# LANGUAGE PolyKinds #-} #endif #if !MIN_VERSION_bytestring(0,10,4) # define MIN_VERSION_text_short(a,b,c) 0 #endif #if !defined(MIN_VERSION_text_short) # error **INVARIANT BROKEN** Detected invalid combination of `text-short` and `bytestring` versions. Please verify the `pre-bytestring-0.10-4` flag-logic in the .cabal file wasn't elided. #endif module Data.Csv.Conversion ( -- * Type conversion Only(..) , FromRecord(..) , FromNamedRecord(..) , ToNamedRecord(..) , DefaultOrdered(..) , FromField(..) , ToRecord(..) , ToField(..) -- * Parser , Parser , runParser -- * Accessors , index , (.!) , unsafeIndex , lookup , (.:) , namedField , (.=) , record , namedRecord , header ) where import Control.Applicative (Alternative, (<|>), empty) import Control.Monad (MonadPlus, mplus, mzero) import qualified Control.Monad.Fail as Fail import Data.Attoparsec.ByteString.Char8 (double) import qualified Data.Attoparsec.ByteString.Char8 as A8 import qualified Data.ByteString as B import qualified Data.ByteString.Char8 as B8 import qualified Data.ByteString.Lazy as L #if MIN_VERSION_bytestring(0,10,4) import qualified Data.ByteString.Short as SBS #endif import Data.Hashable (Hashable) import qualified Data.HashMap.Lazy as HM import Data.Int (Int8, Int16, Int32, Int64) import qualified Data.IntMap as IM import qualified Data.Map as M import Data.Semigroup (Semigroup, (<>)) import qualified Data.Text as T import qualified Data.Text.Encoding as T import qualified Data.Text.Lazy as LT import qualified Data.Text.Lazy.Encoding as LT #if MIN_VERSION_text_short(0,1,0) import qualified Data.Text.Short as T.S #endif import Data.Tuple.Only (Only(..)) import Data.Vector (Vector, (!)) import qualified Data.Vector as V import qualified Data.Vector.Unboxed as U import Data.Word (Word8, Word16, Word32, Word64) import GHC.Float (double2Float) import GHC.Generics import Prelude hiding (lookup, takeWhile) import Data.Csv.Conversion.Internal import Data.Csv.Types #if !MIN_VERSION_base(4,8,0) import Control.Applicative (Applicative, (<$>), (<*>), (<*), (*>), pure) import Data.Monoid (Monoid, mappend, mempty) import Data.Traversable (traverse) import Data.Word (Word) #endif ------------------------------------------------------------------------ -- bytestring compatibility toStrict :: L.ByteString -> B.ByteString fromStrict :: B.ByteString -> L.ByteString #if MIN_VERSION_bytestring(0,10,0) toStrict = L.toStrict fromStrict = L.fromStrict #else toStrict = B.concat . L.toChunks fromStrict = L.fromChunks . (:[]) #endif {-# INLINE toStrict #-} {-# INLINE fromStrict #-} ------------------------------------------------------------------------ -- Type conversion ------------------------------------------------------------------------ -- Index-based conversion -- | A type that can be converted from a single CSV record, with the -- possibility of failure. -- -- When writing an instance, use 'empty', 'mzero', or 'fail' to make a -- conversion fail, e.g. if a 'Record' has the wrong number of -- columns. -- -- Given this example data: -- -- > John,56 -- > Jane,55 -- -- here's an example type and instance: -- -- > data Person = Person { name :: !Text, age :: !Int } -- > -- > instance FromRecord Person where -- > parseRecord v -- > | length v == 2 = Person <$> -- > v .! 0 <*> -- > v .! 1 -- > | otherwise = mzero class FromRecord a where parseRecord :: Record -> Parser a default parseRecord :: (Generic a, GFromRecord (Rep a)) => Record -> Parser a parseRecord r = to <$> gparseRecord r -- | A type that can be converted to a single CSV record. -- -- An example type and instance: -- -- > data Person = Person { name :: !Text, age :: !Int } -- > -- > instance ToRecord Person where -- > toRecord (Person name age) = record [ -- > toField name, toField age] -- -- Outputs data on this form: -- -- > John,56 -- > Jane,55 class ToRecord a where -- | Convert a value to a record. toRecord :: a -> Record default toRecord :: (Generic a, GToRecord (Rep a) Field) => a -> Record toRecord = V.fromList . gtoRecord . from instance FromField a => FromRecord (Only a) where parseRecord v | n == 1 = Only <$> unsafeIndex v 0 | otherwise = lengthMismatch 1 v where n = V.length v -- TODO: Check if we want all toRecord conversions to be stricter. instance ToField a => ToRecord (Only a) where toRecord = V.singleton . toField . fromOnly instance (FromField a, FromField b) => FromRecord (a, b) where parseRecord v | n == 2 = (,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 | otherwise = lengthMismatch 2 v where n = V.length v instance (ToField a, ToField b) => ToRecord (a, b) where toRecord (a, b) = V.fromList [toField a, toField b] instance (FromField a, FromField b, FromField c) => FromRecord (a, b, c) where parseRecord v | n == 3 = (,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 | otherwise = lengthMismatch 3 v where n = V.length v instance (ToField a, ToField b, ToField c) => ToRecord (a, b, c) where toRecord (a, b, c) = V.fromList [toField a, toField b, toField c] instance (FromField a, FromField b, FromField c, FromField d) => FromRecord (a, b, c, d) where parseRecord v | n == 4 = (,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 | otherwise = lengthMismatch 4 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d) => ToRecord (a, b, c, d) where toRecord (a, b, c, d) = V.fromList [ toField a, toField b, toField c, toField d] instance (FromField a, FromField b, FromField c, FromField d, FromField e) => FromRecord (a, b, c, d, e) where parseRecord v | n == 5 = (,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 | otherwise = lengthMismatch 5 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e) => ToRecord (a, b, c, d, e) where toRecord (a, b, c, d, e) = V.fromList [ toField a, toField b, toField c, toField d, toField e] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f) => FromRecord (a, b, c, d, e, f) where parseRecord v | n == 6 = (,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 | otherwise = lengthMismatch 6 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f) => ToRecord (a, b, c, d, e, f) where toRecord (a, b, c, d, e, f) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g) => FromRecord (a, b, c, d, e, f, g) where parseRecord v | n == 7 = (,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 | otherwise = lengthMismatch 7 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g) => ToRecord (a, b, c, d, e, f, g) where toRecord (a, b, c, d, e, f, g) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h) => FromRecord (a, b, c, d, e, f, g, h) where parseRecord v | n == 8 = (,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 | otherwise = lengthMismatch 8 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h) => ToRecord (a, b, c, d, e, f, g, h) where toRecord (a, b, c, d, e, f, g, h) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i) => FromRecord (a, b, c, d, e, f, g, h, i) where parseRecord v | n == 9 = (,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 | otherwise = lengthMismatch 9 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i) => ToRecord (a, b, c, d, e, f, g, h, i) where toRecord (a, b, c, d, e, f, g, h, i) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j) => FromRecord (a, b, c, d, e, f, g, h, i, j) where parseRecord v | n == 10 = (,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 | otherwise = lengthMismatch 10 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j) => ToRecord (a, b, c, d, e, f, g, h, i, j) where toRecord (a, b, c, d, e, f, g, h, i, j) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j, FromField k) => FromRecord (a, b, c, d, e, f, g, h, i, j, k) where parseRecord v | n == 11 = (,,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 <*> unsafeIndex v 10 | otherwise = lengthMismatch 11 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j, ToField k) => ToRecord (a, b, c, d, e, f, g, h, i, j, k) where toRecord (a, b, c, d, e, f, g, h, i, j, k) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j, toField k] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j, FromField k, FromField l) => FromRecord (a, b, c, d, e, f, g, h, i, j, k, l) where parseRecord v | n == 12 = (,,,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 <*> unsafeIndex v 10 <*> unsafeIndex v 11 | otherwise = lengthMismatch 12 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j, ToField k, ToField l) => ToRecord (a, b, c, d, e, f, g, h, i, j, k, l) where toRecord (a, b, c, d, e, f, g, h, i, j, k, l) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j, toField k, toField l] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j, FromField k, FromField l, FromField m) => FromRecord (a, b, c, d, e, f, g, h, i, j, k, l, m) where parseRecord v | n == 13 = (,,,,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 <*> unsafeIndex v 10 <*> unsafeIndex v 11 <*> unsafeIndex v 12 | otherwise = lengthMismatch 13 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j, ToField k, ToField l, ToField m) => ToRecord (a, b, c, d, e, f, g, h, i, j, k, l, m) where toRecord (a, b, c, d, e, f, g, h, i, j, k, l, m) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j, toField k, toField l, toField m] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j, FromField k, FromField l, FromField m, FromField n) => FromRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n) where parseRecord v | n == 14 = (,,,,,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 <*> unsafeIndex v 10 <*> unsafeIndex v 11 <*> unsafeIndex v 12 <*> unsafeIndex v 13 | otherwise = lengthMismatch 14 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j, ToField k, ToField l, ToField m, ToField n) => ToRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n) where toRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j, toField k, toField l, toField m, toField n] instance (FromField a, FromField b, FromField c, FromField d, FromField e, FromField f, FromField g, FromField h, FromField i, FromField j, FromField k, FromField l, FromField m, FromField n, FromField o) => FromRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n, o) where parseRecord v | n == 15 = (,,,,,,,,,,,,,,) <$> unsafeIndex v 0 <*> unsafeIndex v 1 <*> unsafeIndex v 2 <*> unsafeIndex v 3 <*> unsafeIndex v 4 <*> unsafeIndex v 5 <*> unsafeIndex v 6 <*> unsafeIndex v 7 <*> unsafeIndex v 8 <*> unsafeIndex v 9 <*> unsafeIndex v 10 <*> unsafeIndex v 11 <*> unsafeIndex v 12 <*> unsafeIndex v 13 <*> unsafeIndex v 14 | otherwise = lengthMismatch 15 v where n = V.length v instance (ToField a, ToField b, ToField c, ToField d, ToField e, ToField f, ToField g, ToField h, ToField i, ToField j, ToField k, ToField l, ToField m, ToField n, ToField o) => ToRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n, o) where toRecord (a, b, c, d, e, f, g, h, i, j, k, l, m, n, o) = V.fromList [ toField a, toField b, toField c, toField d, toField e, toField f, toField g, toField h, toField i, toField j, toField k, toField l, toField m, toField n, toField o] lengthMismatch :: Int -> Record -> Parser a lengthMismatch expected v = fail $ "cannot unpack array of length " ++ show n ++ " into a " ++ desired ++ ". Input record: " ++ show v where n = V.length v desired | expected == 1 = "Only" | expected == 2 = "pair" | otherwise = show expected ++ "-tuple" instance FromField a => FromRecord [a] where parseRecord = traverse parseField . V.toList instance ToField a => ToRecord [a] where toRecord = V.fromList . map toField instance FromField a => FromRecord (V.Vector a) where parseRecord = traverse parseField instance ToField a => ToRecord (Vector a) where toRecord = V.map toField instance (FromField a, U.Unbox a) => FromRecord (U.Vector a) where parseRecord = fmap U.convert . traverse parseField instance (ToField a, U.Unbox a) => ToRecord (U.Vector a) where toRecord = V.map toField . U.convert ------------------------------------------------------------------------ -- Name-based conversion -- | A type that can be converted from a single CSV record, with the -- possibility of failure. -- -- When writing an instance, use 'empty', 'mzero', or 'fail' to make a -- conversion fail, e.g. if a 'Record' has the wrong number of -- columns. -- -- Given this example data: -- -- > name,age -- > John,56 -- > Jane,55 -- -- here's an example type and instance: -- -- > {-# LANGUAGE OverloadedStrings #-} -- > -- > data Person = Person { name :: !Text, age :: !Int } -- > -- > instance FromNamedRecord Person where -- > parseNamedRecord m = Person <$> -- > m .: "name" <*> -- > m .: "age" -- -- Note the use of the @OverloadedStrings@ language extension which -- enables 'B8.ByteString' values to be written as string literals. class FromNamedRecord a where parseNamedRecord :: NamedRecord -> Parser a default parseNamedRecord :: (Generic a, GFromNamedRecord (Rep a)) => NamedRecord -> Parser a parseNamedRecord r = to <$> gparseNamedRecord r -- | A type that can be converted to a single CSV record. -- -- An example type and instance: -- -- > data Person = Person { name :: !Text, age :: !Int } -- > -- > instance ToNamedRecord Person where -- > toNamedRecord (Person name age) = namedRecord [ -- > "name" .= name, "age" .= age] class ToNamedRecord a where -- | Convert a value to a named record. toNamedRecord :: a -> NamedRecord default toNamedRecord :: (Generic a, GToRecord (Rep a) (B.ByteString, B.ByteString)) => a -> NamedRecord toNamedRecord = namedRecord . gtoRecord . from -- | A type that has a default field order when converted to CSV. This -- class lets you specify how to get the headers to use for a record -- type that's an instance of 'ToNamedRecord'. -- -- To derive an instance, the type is required to only have one -- constructor and that constructor must have named fields (also known -- as selectors) for all fields. -- -- Right: @data Foo = Foo { foo :: !Int }@ -- -- Wrong: @data Bar = Bar Int@ -- -- If you try to derive an instance using GHC generics and your type -- doesn't have named fields, you will get an error along the lines -- of: -- -- > :9:10: -- > No instance for (DefaultOrdered (M1 S NoSelector (K1 R Char) ())) -- > arising from a use of ‘Data.Csv.Conversion.$gdmheader’ -- > In the expression: Data.Csv.Conversion.$gdmheader -- > In an equation for ‘header’: -- > header = Data.Csv.Conversion.$gdmheader -- > In the instance declaration for ‘DefaultOrdered Foo’ -- class DefaultOrdered a where -- | The header order for this record. Should include the names -- used in the 'NamedRecord' returned by 'toNamedRecord'. Pass -- 'undefined' as the argument, together with a type annotation -- e.g. @'headerOrder' ('undefined' :: MyRecord)@. headerOrder :: a -> Header -- TODO: Add Generic implementation default headerOrder :: (Generic a, GToNamedRecordHeader (Rep a)) => a -> Header headerOrder = V.fromList. gtoNamedRecordHeader . from instance (FromField a, FromField b, Ord a) => FromNamedRecord (M.Map a b) where parseNamedRecord m = M.fromList <$> (traverse parseBoth $ HM.toList m) instance (ToField a, ToField b, Ord a) => ToNamedRecord (M.Map a b) where toNamedRecord = HM.fromList . map (\ (k, v) -> (toField k, toField v)) . M.toList instance (Eq a, FromField a, FromField b, Hashable a) => FromNamedRecord (HM.HashMap a b) where parseNamedRecord m = HM.fromList <$> (traverse parseBoth $ HM.toList m) instance (Eq a, ToField a, ToField b, Hashable a) => ToNamedRecord (HM.HashMap a b) where toNamedRecord = HM.fromList . map (\ (k, v) -> (toField k, toField v)) . HM.toList parseBoth :: (FromField a, FromField b) => (Field, Field) -> Parser (a, b) parseBoth (k, v) = (,) <$> parseField k <*> parseField v ------------------------------------------------------------------------ -- Individual field conversion -- | A type that can be converted from a single CSV field, with the -- possibility of failure. -- -- When writing an instance, use 'empty', 'mzero', or 'fail' to make a -- conversion fail, e.g. if a 'Field' can't be converted to the given -- type. -- -- Example type and instance: -- -- > {-# LANGUAGE OverloadedStrings #-} -- > -- > data Color = Red | Green | Blue -- > -- > instance FromField Color where -- > parseField s -- > | s == "R" = pure Red -- > | s == "G" = pure Green -- > | s == "B" = pure Blue -- > | otherwise = mzero class FromField a where parseField :: Field -> Parser a -- | A type that can be converted to a single CSV field. -- -- Example type and instance: -- -- > {-# LANGUAGE OverloadedStrings #-} -- > -- > data Color = Red | Green | Blue -- > -- > instance ToField Color where -- > toField Red = "R" -- > toField Green = "G" -- > toField Blue = "B" class ToField a where toField :: a -> Field -- | 'Nothing' if the 'Field' is 'B.empty', 'Just' otherwise. instance FromField a => FromField (Maybe a) where parseField s | B.null s = pure Nothing | otherwise = Just <$> parseField s {-# INLINE parseField #-} -- | 'Nothing' is encoded as an 'B.empty' field. instance ToField a => ToField (Maybe a) where toField = maybe B.empty toField {-# INLINE toField #-} -- | @'Left' field@ if conversion failed, 'Right' otherwise. instance FromField a => FromField (Either Field a) where parseField s = case runParser (parseField s) of Left _ -> pure $ Left s Right a -> pure $ Right a {-# INLINE parseField #-} -- | Ignores the 'Field'. Always succeeds. instance FromField () where parseField _ = pure () {-# INLINE parseField #-} -- | Assumes UTF-8 encoding. instance FromField Char where parseField s = case T.decodeUtf8' s of Left e -> fail $ show e Right t | T.compareLength t 1 == EQ -> pure (T.head t) | otherwise -> typeError "Char" s Nothing {-# INLINE parseField #-} -- | Uses UTF-8 encoding. instance ToField Char where toField = toField . T.encodeUtf8 . T.singleton {-# INLINE toField #-} -- | Accepts same syntax as 'rational'. Ignores whitespace. instance FromField Double where parseField = parseDouble {-# INLINE parseField #-} -- | Uses decimal notation or scientific notation, depending on the -- number. instance ToField Double where toField = realFloat {-# INLINE toField #-} -- | Accepts same syntax as 'rational'. Ignores whitespace. instance FromField Float where parseField s = double2Float <$> parseDouble s {-# INLINE parseField #-} -- | Uses decimal notation or scientific notation, depending on the -- number. instance ToField Float where toField = realFloat {-# INLINE toField #-} parseDouble :: B.ByteString -> Parser Double parseDouble s = case parseOnly (ws *> double <* ws) s of Left err -> typeError "Double" s (Just err) Right n -> pure n {-# INLINE parseDouble #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Int where parseField = parseSigned "Int" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Int where toField = decimal {-# INLINE toField #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Integer where parseField = parseSigned "Integer" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Integer where toField = decimal {-# INLINE toField #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Int8 where parseField = parseSigned "Int8" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Int8 where toField = decimal {-# INLINE toField #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Int16 where parseField = parseSigned "Int16" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Int16 where toField = decimal {-# INLINE toField #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Int32 where parseField = parseSigned "Int32" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Int32 where toField = decimal {-# INLINE toField #-} -- | Accepts a signed decimal number. Ignores whitespace. instance FromField Int64 where parseField = parseSigned "Int64" {-# INLINE parseField #-} -- | Uses decimal encoding with optional sign. instance ToField Int64 where toField = decimal {-# INLINE toField #-} -- | Accepts an unsigned decimal number. Ignores whitespace. instance FromField Word where parseField = parseUnsigned "Word" {-# INLINE parseField #-} -- | Uses decimal encoding. instance ToField Word where toField = decimal {-# INLINE toField #-} -- | Accepts an unsigned decimal number. Ignores whitespace. instance FromField Word8 where parseField = parseUnsigned "Word8" {-# INLINE parseField #-} -- | Uses decimal encoding. instance ToField Word8 where toField = decimal {-# INLINE toField #-} -- | Accepts an unsigned decimal number. Ignores whitespace. instance FromField Word16 where parseField = parseUnsigned "Word16" {-# INLINE parseField #-} -- | Uses decimal encoding. instance ToField Word16 where toField = decimal {-# INLINE toField #-} -- | Accepts an unsigned decimal number. Ignores whitespace. instance FromField Word32 where parseField = parseUnsigned "Word32" {-# INLINE parseField #-} -- | Uses decimal encoding. instance ToField Word32 where toField = decimal {-# INLINE toField #-} -- | Accepts an unsigned decimal number. Ignores whitespace. instance FromField Word64 where parseField = parseUnsigned "Word64" {-# INLINE parseField #-} -- | Uses decimal encoding. instance ToField Word64 where toField = decimal {-# INLINE toField #-} instance FromField B.ByteString where parseField = pure {-# INLINE parseField #-} instance ToField B.ByteString where toField = id {-# INLINE toField #-} instance FromField L.ByteString where parseField = pure . fromStrict {-# INLINE parseField #-} instance ToField L.ByteString where toField = toStrict {-# INLINE toField #-} #if MIN_VERSION_bytestring(0,10,4) instance FromField SBS.ShortByteString where parseField = pure . SBS.toShort {-# INLINE parseField #-} instance ToField SBS.ShortByteString where toField = SBS.fromShort {-# INLINE toField #-} #endif #if MIN_VERSION_text_short(0,1,0) instance FromField T.S.ShortText where parseField = maybe (fail "Invalid UTF-8 stream") pure . T.S.fromByteString {-# INLINE parseField #-} instance ToField T.S.ShortText where toField = T.S.toByteString {-# INLINE toField #-} #endif -- | Assumes UTF-8 encoding. Fails on invalid byte sequences. instance FromField T.Text where parseField = either (fail . show) pure . T.decodeUtf8' {-# INLINE parseField #-} -- | Uses UTF-8 encoding. instance ToField T.Text where toField = toField . T.encodeUtf8 {-# INLINE toField #-} -- | Assumes UTF-8 encoding. Fails on invalid byte sequences. instance FromField LT.Text where parseField = either (fail . show) (pure . LT.fromStrict) . T.decodeUtf8' {-# INLINE parseField #-} -- | Uses UTF-8 encoding. instance ToField LT.Text where toField = toField . toStrict . LT.encodeUtf8 {-# INLINE toField #-} -- | Assumes UTF-8 encoding. Fails on invalid byte sequences. instance FromField [Char] where parseField = fmap T.unpack . parseField {-# INLINE parseField #-} -- | Uses UTF-8 encoding. instance ToField [Char] where toField = toField . T.pack {-# INLINE toField #-} parseSigned :: (Integral a, Num a) => String -> B.ByteString -> Parser a parseSigned typ s = case parseOnly (ws *> A8.signed A8.decimal <* ws) s of Left err -> typeError typ s (Just err) Right n -> pure n {-# INLINE parseSigned #-} parseUnsigned :: Integral a => String -> B.ByteString -> Parser a parseUnsigned typ s = case parseOnly (ws *> A8.decimal <* ws) s of Left err -> typeError typ s (Just err) Right n -> pure n {-# INLINE parseUnsigned #-} ws :: A8.Parser () ws = A8.skipWhile (\c -> c == ' ' || c == '\t') ------------------------------------------------------------------------ -- Custom version of attoparsec @parseOnly@ function which fails if -- there is leftover content after parsing a field. parseOnly :: A8.Parser a -> B.ByteString -> Either String a parseOnly parser input = go (A8.parse parser input) where go (A8.Fail _ _ err) = Left err go (A8.Partial f) = go2 (f B.empty) go (A8.Done leftover result) | B.null leftover = Right result | otherwise = Left ("incomplete field parse, leftover: " ++ show (B.unpack leftover)) go2 (A8.Fail _ _ err) = Left err go2 (A8.Partial _) = error "parseOnly: impossible error!" go2 (A8.Done leftover result) | B.null leftover = Right result | otherwise = Left ("incomplete field parse, leftover: " ++ show (B.unpack leftover)) {-# INLINE parseOnly #-} typeError :: String -> B.ByteString -> Maybe String -> Parser a typeError typ s mmsg = fail $ "expected " ++ typ ++ ", got " ++ show (B8.unpack s) ++ cause where cause = case mmsg of Just msg -> " (" ++ msg ++ ")" Nothing -> "" ------------------------------------------------------------------------ -- Constructors and accessors -- | Retrieve the /n/th field in the given record. The result is -- 'empty' if the value cannot be converted to the desired type. -- Raises an exception if the index is out of bounds. -- -- 'index' is a simple convenience function that is equivalent to -- @'parseField' (v '!' idx)@. If you're certain that the index is not -- out of bounds, using 'unsafeIndex' is somewhat faster. index :: FromField a => Record -> Int -> Parser a index v idx = parseField (v ! idx) {-# INLINE index #-} -- | Alias for 'index'. (.!) :: FromField a => Record -> Int -> Parser a (.!) = index {-# INLINE (.!) #-} infixl 9 .! -- | Like 'index' but without bounds checking. unsafeIndex :: FromField a => Record -> Int -> Parser a unsafeIndex v idx = parseField (V.unsafeIndex v idx) {-# INLINE unsafeIndex #-} -- | Retrieve a field in the given record by name. The result is -- 'empty' if the field is missing or if the value cannot be converted -- to the desired type. lookup :: FromField a => NamedRecord -> B.ByteString -> Parser a lookup m name = maybe (fail err) parseField $ HM.lookup name m where err = "no field named " ++ show (B8.unpack name) {-# INLINE lookup #-} -- | Alias for 'lookup'. (.:) :: FromField a => NamedRecord -> B.ByteString -> Parser a (.:) = lookup {-# INLINE (.:) #-} -- | Construct a pair from a name and a value. For use with -- 'namedRecord'. namedField :: ToField a => B.ByteString -> a -> (B.ByteString, B.ByteString) namedField name val = (name, toField val) {-# INLINE namedField #-} -- | Alias for 'namedField'. (.=) :: ToField a => B.ByteString -> a -> (B.ByteString, B.ByteString) (.=) = namedField {-# INLINE (.=) #-} -- | Construct a record from a list of 'B.ByteString's. Use 'toField' -- to convert values to 'B.ByteString's for use with 'record'. record :: [B.ByteString] -> Record record = V.fromList -- | Construct a named record from a list of name-value 'B.ByteString' -- pairs. Use '.=' to construct such a pair from a name and a value. namedRecord :: [(B.ByteString, B.ByteString)] -> NamedRecord namedRecord = HM.fromList -- | Construct a header from a list of 'B.ByteString's. header :: [B.ByteString] -> Header header = V.fromList ------------------------------------------------------------------------ -- Parser for converting records to data types -- | Failure continuation. type Failure f r = String -> f r -- | Success continuation. type Success a f r = a -> f r -- | Conversion of a field to a value might fail e.g. if the field is -- malformed. This possibility is captured by the 'Parser' type, which -- lets you compose several field conversions together in such a way -- that if any of them fail, the whole record conversion fails. newtype Parser a = Parser { unParser :: forall (f :: * -> *) (r :: *). Failure f r -> Success a f r -> f r } instance Monad Parser where m >>= g = Parser $ \kf ks -> let ks' a = unParser (g a) kf ks in unParser m kf ks' {-# INLINE (>>=) #-} (>>) = (*>) {-# INLINE (>>) #-} return = pure {-# INLINE return #-} fail = Fail.fail {-# INLINE fail #-} instance Fail.MonadFail Parser where fail msg = Parser $ \kf _ks -> kf msg {-# INLINE fail #-} instance Functor Parser where fmap f m = Parser $ \kf ks -> let ks' a = ks (f a) in unParser m kf ks' {-# INLINE fmap #-} instance Applicative Parser where pure a = Parser $ \_kf ks -> ks a {-# INLINE pure #-} (<*>) = apP {-# INLINE (<*>) #-} instance Alternative Parser where empty = fail "empty" {-# INLINE empty #-} (<|>) = mplus {-# INLINE (<|>) #-} instance MonadPlus Parser where mzero = fail "mzero" {-# INLINE mzero #-} mplus a b = Parser $ \kf ks -> let kf' _ = unParser b kf ks in unParser a kf' ks {-# INLINE mplus #-} instance Semigroup (Parser a) where (<>) = mplus {-# INLINE (<>) #-} instance Monoid (Parser a) where mempty = fail "mempty" {-# INLINE mempty #-} mappend = (<>) {-# INLINE mappend #-} apP :: Parser (a -> b) -> Parser a -> Parser b apP d e = do b <- d a <- e pure (b a) {-# INLINE apP #-} -- | Run a 'Parser', returning either @'Left' errMsg@ or @'Right' -- result@. Forces the value in the 'Left' or 'Right' constructors to -- weak head normal form. -- -- You most likely won't need to use this function directly, but it's -- included for completeness. runParser :: Parser a -> Either String a runParser p = unParser p left right where left !errMsg = Left errMsg right !x = Right x {-# INLINE runParser #-} ------------------------------------------------------------------------ -- Generics class GFromRecord f where gparseRecord :: Record -> Parser (f p) instance GFromRecordSum f Record => GFromRecord (M1 i n f) where gparseRecord v = case (IM.lookup n gparseRecordSum) of Nothing -> lengthMismatch n v Just p -> M1 <$> p v where n = V.length v class GFromNamedRecord f where gparseNamedRecord :: NamedRecord -> Parser (f p) instance GFromRecordSum f NamedRecord => GFromNamedRecord (M1 i n f) where gparseNamedRecord v = foldr (\f p -> p <|> M1 <$> f v) empty (IM.elems gparseRecordSum) class GFromRecordSum f r where gparseRecordSum :: IM.IntMap (r -> Parser (f p)) instance (GFromRecordSum a r, GFromRecordSum b r) => GFromRecordSum (a :+: b) r where gparseRecordSum = IM.unionWith (\a b r -> a r <|> b r) (fmap (L1 <$>) <$> gparseRecordSum) (fmap (R1 <$>) <$> gparseRecordSum) instance GFromRecordProd f r => GFromRecordSum (M1 i n f) r where gparseRecordSum = IM.singleton n (fmap (M1 <$>) f) where (n, f) = gparseRecordProd 0 class GFromRecordProd f r where gparseRecordProd :: Int -> (Int, r -> Parser (f p)) instance GFromRecordProd U1 r where gparseRecordProd n = (n, const (pure U1)) instance (GFromRecordProd a r, GFromRecordProd b r) => GFromRecordProd (a :*: b) r where gparseRecordProd n0 = (n2, f) where f r = (:*:) <$> fa r <*> fb r (n1, fa) = gparseRecordProd n0 (n2, fb) = gparseRecordProd n1 instance GFromRecordProd f Record => GFromRecordProd (M1 i n f) Record where gparseRecordProd n = fmap (M1 <$>) <$> gparseRecordProd n instance FromField a => GFromRecordProd (K1 i a) Record where gparseRecordProd n = (n + 1, \v -> K1 <$> parseField (V.unsafeIndex v n)) data Proxy s (f :: * -> *) a = Proxy instance (FromField a, Selector s) => GFromRecordProd (M1 S s (K1 i a)) NamedRecord where gparseRecordProd n = (n + 1, \v -> (M1 . K1) <$> v .: name) where name = T.encodeUtf8 (T.pack (selName (Proxy :: Proxy s f a))) class GToRecord a f where gtoRecord :: a p -> [f] instance GToRecord U1 f where gtoRecord U1 = [] instance (GToRecord a f, GToRecord b f) => GToRecord (a :*: b) f where gtoRecord (a :*: b) = gtoRecord a ++ gtoRecord b instance (GToRecord a f, GToRecord b f) => GToRecord (a :+: b) f where gtoRecord (L1 a) = gtoRecord a gtoRecord (R1 b) = gtoRecord b instance GToRecord a f => GToRecord (M1 D c a) f where gtoRecord (M1 a) = gtoRecord a instance GToRecord a f => GToRecord (M1 C c a) f where gtoRecord (M1 a) = gtoRecord a instance GToRecord a Field => GToRecord (M1 S c a) Field where gtoRecord (M1 a) = gtoRecord a instance ToField a => GToRecord (K1 i a) Field where gtoRecord (K1 a) = [toField a] instance (ToField a, Selector s) => GToRecord (M1 S s (K1 i a)) (B.ByteString, B.ByteString) where gtoRecord m@(M1 (K1 a)) = [T.encodeUtf8 (T.pack (selName m)) .= toField a] -- We statically fail on sum types and product types without selectors -- (field names). class GToNamedRecordHeader a where gtoNamedRecordHeader :: a p -> [Name] instance GToNamedRecordHeader U1 where gtoNamedRecordHeader _ = [] instance (GToNamedRecordHeader a, GToNamedRecordHeader b) => GToNamedRecordHeader (a :*: b) where gtoNamedRecordHeader _ = gtoNamedRecordHeader (undefined :: a p) ++ gtoNamedRecordHeader (undefined :: b p) instance GToNamedRecordHeader a => GToNamedRecordHeader (M1 D c a) where gtoNamedRecordHeader _ = gtoNamedRecordHeader (undefined :: a p) instance GToNamedRecordHeader a => GToNamedRecordHeader (M1 C c a) where gtoNamedRecordHeader _ = gtoNamedRecordHeader (undefined :: a p) -- | Instance to ensure that you cannot derive DefaultOrdered for -- constructors without selectors. #if MIN_VERSION_base(4,9,0) instance DefaultOrdered (M1 S ('MetaSel 'Nothing srcpk srcstr decstr) a ()) => GToNamedRecordHeader (M1 S ('MetaSel 'Nothing srcpk srcstr decstr) a) #else instance DefaultOrdered (M1 S NoSelector a ()) => GToNamedRecordHeader (M1 S NoSelector a) #endif where gtoNamedRecordHeader _ = error "You cannot derive DefaultOrdered for constructors without selectors." instance Selector s => GToNamedRecordHeader (M1 S s a) where gtoNamedRecordHeader m | null name = error "Cannot derive DefaultOrdered for constructors without selectors" | otherwise = [B8.pack (selName m)] where name = selName m