-------------------------------------------------------------------------------- {-# LANGUAGE CPP #-} {-# LANGUAGE ExistentialQuantification #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Rank2Types #-} -- | End-user interface - provides the main functionality for -- form creation and validation. For an interface for front-end -- implementation, see "View". module Text.Digestive.Form ( Formlet , Form , SomeForm (..) , (.:) -- * Basic forms , text , string , stringRead , choice , choice' , choiceWith , choiceWith' , choiceMultiple , choiceMultiple' , choiceWithMultiple , choiceWithMultiple' , groupedChoice , groupedChoice' , groupedChoiceWith , groupedChoiceWith' , groupedChoiceMultiple , groupedChoiceMultiple' , groupedChoiceWithMultiple , groupedChoiceWithMultiple' , bool , file , fileMultiple -- * Optional forms , optionalText , optionalString , optionalStringRead -- * Date/time forms , utcTimeFormlet , localTimeFormlet , dateFormlet , timeFormlet , optionalUtcTimeFormlet , optionalLocalTimeFormlet , optionalDateFormlet , optionalTimeFormlet -- * Validation and transformation , check , checkM , validate , validateOptional , validateM , conditions , disable -- * Lifting forms , monadic -- * Dynamic list forms , listOf ) where -------------------------------------------------------------------------------- import Control.Applicative import Control.Monad (liftM, liftM2) import Data.List (findIndex) import Data.Maybe (fromMaybe, listToMaybe, catMaybes) import Data.Monoid (Monoid) import Data.Text (Text) import qualified Data.Text as T import Data.Time #if !MIN_VERSION_time(1,5,0) import System.Locale #endif -------------------------------------------------------------------------------- import Text.Digestive.Form.Internal import Text.Digestive.Form.Internal.Field import Text.Digestive.Form.List import Text.Digestive.Ref import Text.Digestive.Types import Text.Digestive.Util -------------------------------------------------------------------------------- -- | A 'Form' with a set, optional default value type Formlet v m a = Maybe a -> Form v m a -------------------------------------------------------------------------------- -- | Returns a 'Formlet' which may optionally take a default text text :: (Monad m, Monoid v) => Formlet v m Text text def = Pure $ Text $ fromMaybe "" def -------------------------------------------------------------------------------- -- | Identical to "text" but takes a String string :: (Monad m, Monoid v) => Formlet v m String string = fmap T.unpack . text . fmap T.pack -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for a parseable and serializable value type stringRead :: (Monad m, Monoid v, Read a, Show a) => v -> Formlet v m a stringRead err = transform (readTransform err) . string . fmap show -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for a value restricted to a single value from -- the provided list of value-message tuples choice :: (Eq a, Monad m, Monoid v) => [(a, v)] -> Formlet v m a choice items def = choiceWith (zip makeRefs items) def -------------------------------------------------------------------------------- -- | Sometimes there is no good 'Eq' instance for 'choice'. In this case, you -- can use this function, which takes an index in the list as default. choice' :: (Monad m, Monoid v) => [(a, v)] -> Maybe Int -> Form v m a choice' items def = choiceWith' (zip makeRefs items) def -------------------------------------------------------------------------------- -- | Allows you to assign your own values: these values will be used in the -- resulting HTML instead of the default @[0 ..]@. This fixes some race -- conditions that might otherwise appear, e.g. if new choice items are added to -- some database while a user views and submits the form... choiceWith :: (Eq a, Monad m, Monoid v) => [(Text, (a, v))] -> Formlet v m a choiceWith items def = choiceWith' items def' where def' = def >>= (\d -> findIndex ((== d) . fst . snd) items) -------------------------------------------------------------------------------- -- | A version of 'choiceWith' for when there is no good 'Eq' instance. choiceWith' :: (Monad m, Monoid v) => [(Text, (a, v))] -> Maybe Int -> Form v m a choiceWith' [] _ = error "choice expects a list with at least one item in it" choiceWith' items def = fromMaybe defaultItem . listToMaybe . map fst <$> (Pure $ Choice [("", items)] def') where defaultItem = fst $ snd $ head items def' = case def of Just x -> [x] Nothing -> [0] -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for a value restricted to multiple values from -- the provided list of value-message tuples. Intended for use with the -- @multiple@ attribute for select elements. Allows for an empty result. choiceMultiple :: (Eq a, Monad m, Monoid v) => [(a, v)] -> Formlet v m [a] choiceMultiple items def = choiceWithMultiple (zip makeRefs items) def -------------------------------------------------------------------------------- -- | Sometimes there is no good 'Eq' instance for 'choice'. In this case, you -- can use this function, which takes an index in the list as default. choiceMultiple' :: (Monad m, Monoid v) => [(a, v)] -> Maybe [Int] -> Form v m [a] choiceMultiple' items def = choiceWithMultiple' (zip makeRefs items) def -------------------------------------------------------------------------------- -- | Allows you to assign your own values: these values will be used in the -- resulting HTML instead of the default @[0 ..]@. This fixes some race -- conditions that might otherwise appear, e.g. if new choice items are added to -- some database while a user views and submits the form... choiceWithMultiple :: (Eq a, Monad m, Monoid v) => [(Text, (a, v))] -> Formlet v m [a] choiceWithMultiple items def = choiceWithMultiple' items def' where def' = def >>= Just . catMaybes . map (\d -> findIndex ((== d) . fst . snd) items) -------------------------------------------------------------------------------- -- | A version of 'choiceWithMultiple' for when there is no good 'Eq' instance. choiceWithMultiple' :: (Monad m, Monoid v) => [(Text, (a, v))] -> Maybe [Int] -> Form v m [a] choiceWithMultiple' items def = map fst <$> (Pure $ Choice [("", items)] def') where def' = case def of Just x -> x Nothing -> [] -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for a single value from named groups of choices. groupedChoice :: (Eq a, Monad m, Monoid v) => [(Text, [(a, v)])] -> Formlet v m a groupedChoice items def = groupedChoiceWith (mkGroupedRefs items makeRefs) def -------------------------------------------------------------------------------- -- | Sometimes there is no good 'Eq' instance for 'choice'. In this case, you -- can use this function, which takes an index in the list as default. groupedChoice' :: (Monad m, Monoid v) => [(Text, [(a, v)])] -> Maybe Int -> Form v m a groupedChoice' items def = groupedChoiceWith' (mkGroupedRefs items makeRefs) def -------------------------------------------------------------------------------- mkGroupedRefs :: [(Text, [a])] -> [Text] -> [(Text, [(Text, a)])] mkGroupedRefs [] _ = [] mkGroupedRefs (g:gs) is = cur : mkGroupedRefs gs b where (a,b) = splitAt (length $ snd g) is cur = (fst g, zip a (snd g)) -------------------------------------------------------------------------------- -- | Allows you to assign your own values: these values will be used in the -- resulting HTML instead of the default @[0 ..]@. This fixes some race -- conditions that might otherwise appear, e.g. if new choice items are added to -- some database while a user views and submits the form... groupedChoiceWith :: (Eq a, Monad m, Monoid v) => [(Text, [(Text, (a, v))])] -> Formlet v m a groupedChoiceWith items def = groupedChoiceWith' items def' where def' = def >>= (\d -> findIndex ((== d) . fst . snd) $ concat $ map snd items) -------------------------------------------------------------------------------- -- | Low-level support for grouped choice. groupedChoiceWith' :: (Monad m, Monoid v) => [(Text, [(Text, (a, v))])] -> Maybe Int -> Form v m a groupedChoiceWith' items def = case concatMap snd items of [] -> error "groupedChoice expects a list with at least one item in it" _ -> head . map fst <$> (Pure $ Choice items def') where def' = case def of Just x -> [x] Nothing -> [0] -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for multiple values from named groups of choices. -- Intended for use with the @multiple@ attribute for select elements that -- have optgroups. Allows for an empty result. groupedChoiceMultiple :: (Eq a, Monad m, Monoid v) => [(Text, [(a, v)])] -> Formlet v m [a] groupedChoiceMultiple items def = groupedChoiceWithMultiple (mkGroupedRefs items makeRefs) def -------------------------------------------------------------------------------- -- | Sometimes there is no good 'Eq' instance for 'choice'. In this case, you -- can use this function, which takes an index in the list as default. groupedChoiceMultiple' :: (Monad m, Monoid v) => [(Text, [(a, v)])] -> Maybe [Int] -> Form v m [a] groupedChoiceMultiple' items def = groupedChoiceWithMultiple' (mkGroupedRefs items makeRefs) def -------------------------------------------------------------------------------- -- | Allows you to assign your own values: these values will be used in the -- resulting HTML instead of the default @[0 ..]@. This fixes some race -- conditions that might otherwise appear, e.g. if new choice items are added to -- some database while a user views and submits the form... groupedChoiceWithMultiple :: (Eq a, Monad m, Monoid v) => [(Text, [(Text, (a, v))])] -> Formlet v m [a] groupedChoiceWithMultiple items def = groupedChoiceWithMultiple' items def' where def' = def >>= Just . catMaybes . map (\d -> findIndex ((== d) . fst . snd) $ concat $ map snd items) -------------------------------------------------------------------------------- -- | Low-level support for grouped choice. groupedChoiceWithMultiple' :: (Monad m, Monoid v) => [(Text, [(Text, (a, v))])] -> Maybe [Int] -> Form v m [a] groupedChoiceWithMultiple' items def = map fst <$> (Pure $ Choice items def') where def' = case def of Just x -> x Nothing -> [] -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for binary choices bool :: (Monad m, Monoid v) => Formlet v m Bool bool = Pure . Bool . fromMaybe False -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for file selection file :: (Monad m, Monoid v) => Form v m (Maybe FilePath) file = listToMaybe <$> Pure File -------------------------------------------------------------------------------- -- | Returns a 'Formlet' for multiple file selection. Intended for use with -- the @multiple@ attribute, which allows for multiple files to be uploaded -- with a single input element. fileMultiple :: (Monad m, Monoid v) => Form v m [FilePath] fileMultiple = Pure File -------------------------------------------------------------------------------- -- | Validate the results of a form with a simple predicate -- -- Example: -- -- > check "Can't be empty" (not . null) (string Nothing) check :: (Monad m, Monoid v) => v -- ^ Error message (if fail) -> (a -> Bool) -- ^ Validating predicate -> Form v m a -- ^ Form to validate -> Form v m a -- ^ Resulting form check err = checkM err . (return .) -------------------------------------------------------------------------------- -- | Version of 'check' which allows monadic validations checkM :: (Monad m, Monoid v) => v -> (a -> m Bool) -> Form v m a -> Form v m a checkM err predicate form = validateM f form where f x = do r <- predicate x return $ if r then return x else Error err -------------------------------------------------------------------------------- -- | This is an extension of 'check' that can be used to apply transformations -- that optionally fail -- -- Example: taking the first character of an input string -- -- > head' :: String -> Result String Char -- > head' [] = Error "Is empty" -- > head' (x : _) = Success x -- > -- > char :: Monad m => Form m String Char -- > char = validate head' (string Nothing) validate :: (Monad m, Monoid v) => (a -> Result v b) -> Form v m a -> Form v m b validate = validateM . (return .) -------------------------------------------------------------------------------- -- | Same as 'validate', but works with forms of the form: -- -- > Form v m (Maybe a) -- -- . -- -- Example: taking the first character of an optional input string -- -- > head' :: String -> Result String Char -- > head' [] = Error "Is empty" -- > head' (x : _) = Success x -- > -- > char :: Monad m => Form m String (Maybe Char) -- > char = validateOptional head' (optionalString Nothing) validateOptional :: (Monad m, Monoid v) => (a -> Result v b) -> Form v m (Maybe a) -> Form v m (Maybe b) validateOptional f = validate (forOptional f) -------------------------------------------------------------------------------- -- | Version of 'validate' which allows monadic validations validateM :: (Monad m, Monoid v) => (a -> m (Result v b)) -> Form v m a -> Form v m b validateM = transform -------------------------------------------------------------------------------- -- | Allows for the composition of independent validation functions. -- -- For example, let's validate an even integer between 0 and 100: -- -- > form :: Monad m => Form Text m FormData -- > ... -- some fields -- > <*> "smallEvenInteger" .: validate (notEmpty >=> integer >=> even >=> greaterThan 0 >=> lessThanOrEq 100) (text Nothing) -- > ... -- more fields -- -- where -- -- > notEmpty :: IsString v => Text -> Result v Text -- > integer :: (Integral a, IsString v) => Text -> Result v a -- > greaterThan 0 :: (Num a, Ord a, Show a) => a -> Result Text a -- > lessThanOrEq 0 :: (Num a, Ord a, Show a) => a -> Result Text a -- > even :: Integer -> Result Text Integer -- -- . -- -- This will validate our smallEvenInteger correctly, but there is a problem. -- If a user enters an odd number greater than 100, only -- -- > "number must be even" -- -- -- will be returned. It would make for a better user experience if -- -- > ["number must be even", "number must be less than 100"] -- -- was returned instead. This can be accomplished by rewriting our form to be: -- -- > form :: Monad m => Form [Text] m FormData -- > ... -- some fields -- > <*> "smallEvenInteger" .: validate (notEmpty >=> integer >=> conditions [even, greaterThan 0, lessThanOrEq 100]) (text Nothing) -- > ... -- more fields -- -- . -- -- If we want to collapse our list of errors into a single 'Text', we can do something like: -- -- > form :: Monad m => Form Text m FormData -- > ... -- some fields -- > <*> "smallEvenInteger" .: validate (notEmpty >=> integer >=> commaSeperated . conditions [even, greaterThan 0, lessThanOrEq 100]) (text Nothing) -- > ... -- more fields -- -- where -- -- > commaSeperated :: (Result [Text] a) -> (Result Text a) -- -- . conditions :: [(a -> Result e b)] -- ^ Any 'Success' result of a validation function is provably guaranteed to be discarded. Only 'Error' results are used. -> a -- ^ If all validation functions pass, parameter will be re-wrapped with a 'Success'. -> (Result [e] a) -- ^ List of errors is guaranteed to be in the same order as inputed validations functions. So, -- -- > conditions [even, greaterThan 0] -1 -- -- is specified to return -- -- > Error ["must be even", "must be greater than 0"] -- -- and not -- -- > Error ["must be greater than 0", "must be even"] -- -- . conditions fs x = result where result = case (foldr errorCond [] fs) of [] -> Success x es -> Error es errorCond f es = case (f x) of Success _ -> es Error e -> e:es -------------------------------------------------------------------------------- -- | Disables a form disable :: Form v m a -> Form v m a disable f = Metadata [Disabled] f -------------------------------------------------------------------------------- -- | Create a text form with an optional default text which -- returns nothing if no optional text was set, and no input -- was retrieved. optionalText :: (Monad m, Monoid v) => Maybe Text -> Form v m (Maybe Text) optionalText def = validate opt (text def) where opt t | T.null t = return Nothing | otherwise = return $ Just t -------------------------------------------------------------------------------- -- | Identical to 'optionalText', but uses Strings optionalString :: (Monad m, Monoid v) => Maybe String -> Form v m (Maybe String) optionalString = fmap (fmap T.unpack) . optionalText . fmap T.pack -------------------------------------------------------------------------------- -- | Identical to 'optionalText' for parseable and serializable values. optionalStringRead :: (Monad m, Monoid v, Read a, Show a) => v -> Maybe a -> Form v m (Maybe a) optionalStringRead err = transform readTransform' . optionalString . fmap show where readTransform' (Just s) = liftM (fmap Just) $ readTransform err s readTransform' Nothing = return (return Nothing) -------------------------------------------------------------------------------- -- Helper function for attempted parsing, with custom error messages readTransform :: (Monad m, Monoid v, Read a) => v -> String -> m (Result v a) readTransform err = return . maybe (Error err) return . readMaybe -------------------------------------------------------------------------------- -- | Dynamic lists. -- -- The type is a less restrictive version of: -- -- > Formlet a -> Formlet [a] listOf :: (Monad m, Monoid v) => (Maybe a -> Form v m b) -> (Maybe [a] -> Form v m [b]) listOf single def = List (fmap single defList) (indicesRef .: listIndices ixs) where ixs = case def of Nothing -> [0] Just xs -> [0 .. length xs - 1] defList = DefaultList Nothing $ maybe [] (map Just) def -------------------------------------------------------------------------------- -- Manipulatable indices listIndices :: (Monad m, Monoid v) => [Int] -> Form v m [Int] listIndices = fmap parseIndices . text . Just . unparseIndices ------------------------------------------------------------------------------ -- Date/time formlets ------------------------------------------------------------------------------ utcTimeFormlet :: Monad m => String -- ^ Date format string -> String -- ^ Time format string -> TimeZone -> Formlet Text m UTCTime utcTimeFormlet dFmt tFmt tz d = localTimeToUTC tz <$> localTimeFormlet dFmt tFmt (utcToLocalTime tz <$> d) localTimeFormlet :: Monad m => String -- ^ Date format string -> String -- ^ Time format string -> Formlet Text m LocalTime localTimeFormlet dFmt tFmt d = LocalTime <$> "date" .: dateFormlet dFmt (localDay <$> d) <*> "time" .: timeFormlet tFmt (localTimeOfDay <$> d) dateFormlet :: Monad m => String -- ^ Format string -> Formlet Text m Day dateFormlet fmt d = validate (vFunc fmt "invalid date") (string $ formatTime defaultTimeLocale fmt <$> d) timeFormlet :: Monad m => String -- ^ Format string -> Formlet Text m TimeOfDay timeFormlet fmt d = validate (vFunc fmt "invalid time") (string $ formatTime defaultTimeLocale fmt <$> d) optionalUtcTimeFormlet :: Monad m => String -- ^ Date format string -> String -- ^ Time format string -> TimeZone -> Maybe UTCTime -> Form Text m (Maybe UTCTime) optionalUtcTimeFormlet dFmt tFmt tz d = liftM (localTimeToUTC tz) <$> optionalLocalTimeFormlet dFmt tFmt (utcToLocalTime tz <$> d) optionalLocalTimeFormlet :: Monad m => String -- ^ Date format string -> String -- ^ Time format string -> Maybe LocalTime -> Form Text m (Maybe LocalTime) optionalLocalTimeFormlet dFmt tFmt d = liftM2 LocalTime <$> "date" .: optionalDateFormlet dFmt (localDay <$> d) <*> "time" .: optionalTimeFormlet tFmt (localTimeOfDay <$> d) optionalDateFormlet :: Monad m => String -- ^ Format string -> Maybe Day -> Form Text m (Maybe Day) optionalDateFormlet fmt d = validate (vOpt $ vFunc fmt "invalid date") (string $ formatTime defaultTimeLocale fmt <$> d) optionalTimeFormlet :: Monad m => String -- ^ Format string -> Maybe TimeOfDay -> Form Text m (Maybe TimeOfDay) optionalTimeFormlet fmt d = validate (vOpt $ vFunc fmt "invalid time") (string $ formatTime defaultTimeLocale fmt <$> d) vFunc :: ParseTime a => String -> Text -> String -> Result Text a vFunc fmt err x #if MIN_VERSION_time(1,5,0) | length x < 40 = maybe (Error err) Success $ parseTimeM True defaultTimeLocale fmt x #else | length x < 40 = maybe (Error err) Success $ parseTime defaultTimeLocale fmt x #endif | otherwise = Error "Not a valid date/time string" vOpt :: (String -> Result v a) -> String -> Result v (Maybe a) vOpt _ "" = Success Nothing vOpt f x = Just <$> f x