{-# LANGUAGE BangPatterns #-} {-# LANGUAGE CPP #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE TypeOperators #-} {- | Build HTML tables using @lucid@ and @colonnade@. It is recommended that users read the documentation for @colonnade@ first, since this library builds on the abstractions introduced there. Also, look at the docs for @blaze-colonnade@. These two libraries are similar, but blaze offers an HTML pretty printer which makes it possible to doctest examples. Since lucid does not offer such facilities, examples are omitted here. -} module Lucid.Colonnade ( -- * Apply encodeHtmlTable , encodeCellTable , encodeCellTableSized , encodeTable -- * Cell -- $build , Cell (..) , charCell , htmlCell , stringCell , textCell , lazyTextCell , builderCell , htmlFromCell , encodeBodySized , sectioned -- * Discussion -- $discussion ) where #if MIN_VERSION_base(4,18,0) #else import Control.Applicative (liftA2) #endif import Colonnade (Colonnade) import Control.Monad import Data.Foldable import Data.String (IsString (..)) import Data.Text (Text) import Lucid hiding (for_) import qualified Colonnade.Encode as E import qualified Data.Text as T import qualified Data.Text as Text import qualified Data.Text.Lazy as LText import qualified Data.Text.Lazy.Builder as TBuilder import qualified Data.Vector as V {- $build The 'Cell' type is used to build a 'Colonnade' that has 'Html' content inside table cells and may optionally have attributes added to the @\@ or @\@ elements that wrap this HTML content. -} {- | The attributes that will be applied to a @\@ and the HTML content that will go inside it. When using this type, remember that 'Attribute', defined in @blaze-markup@, is actually a collection of attributes, not a single attribute. -} data Cell d = Cell { cellAttribute :: ![Attribute] , cellHtml :: !(Html d) } instance (d ~ ()) => IsString (Cell d) where fromString = stringCell instance (Semigroup d) => Semigroup (Cell d) where Cell a1 c1 <> Cell a2 c2 = Cell (mappend a1 a2) (liftA2 (<>) c1 c2) instance (Monoid d) => Monoid (Cell d) where mempty = Cell mempty (return mempty) mappend = (<>) -- | Create a 'Cell' from a 'Widget' htmlCell :: Html d -> Cell d htmlCell = Cell mempty -- | Create a 'Cell' from a 'String' stringCell :: String -> Cell () stringCell = htmlCell . fromString -- | Create a 'Cell' from a 'Char' charCell :: Char -> Cell () charCell = stringCell . pure -- | Create a 'Cell' from a 'Text' textCell :: Text -> Cell () textCell = htmlCell . toHtml -- | Create a 'Cell' from a lazy text lazyTextCell :: LText.Text -> Cell () lazyTextCell = textCell . LText.toStrict -- | Create a 'Cell' from a text builder builderCell :: TBuilder.Builder -> Cell () builderCell = lazyTextCell . TBuilder.toLazyText {- | Encode a table. Table cell element do not have any attributes applied to them. -} encodeHtmlTable :: (E.Headedness h, Foldable f, Monoid d) => -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as columns Colonnade h a (Html d) -> -- | Collection of data f a -> Html d encodeHtmlTable = encodeTable (E.headednessPure ([], [])) mempty (const mempty) (\el -> el []) {- | Encode a table. Table cells may have attributes applied to them -} encodeCellTable :: (E.Headedness h, Foldable f, Monoid d) => -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as columns Colonnade h a (Cell d) -> -- | Collection of data f a -> Html d encodeCellTable = encodeTable (E.headednessPure ([], [])) mempty (const mempty) htmlFromCell encodeCellTableSized :: (E.Headedness h, Foldable f, Monoid d) => -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as columns Colonnade (E.Sized Int h) a (Cell d) -> -- | Collection of data f a -> Html () encodeCellTableSized = encodeTableSized (E.headednessPure ([], [])) mempty (const mempty) htmlFromCell {- | Encode a table. This handles a very general case and is seldom needed by users. One of the arguments provided is used to add attributes to the generated @\@ elements. The elements of type @d@ produced by generating html are strictly combined with their monoidal append function. However, this type is nearly always @()@. -} encodeTable :: forall f h a d c. (Foldable f, E.Headedness h, Monoid d) => -- | Attributes of @\@ and its @\@ h ([Attribute], [Attribute]) -> -- | Attributes of @\@ element [Attribute] -> -- | Attributes of each @\@ element (a -> [Attribute]) -> -- | Wrap content and convert to 'Html' (([Attribute] -> Html d -> Html d) -> c -> Html d) -> -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as a row Colonnade h a c -> -- | Collection of data f a -> Html d encodeTable mtheadAttrs tbodyAttrs trAttrs wrapContent tableAttrs colonnade xs = table_ tableAttrs $ do d1 <- case E.headednessExtractForall of Nothing -> return mempty Just extractForall -> do let (theadAttrs, theadTrAttrs) = extract mtheadAttrs thead_ theadAttrs $ tr_ theadTrAttrs $ do foldlMapM' (wrapContent th_ . extract . E.oneColonnadeHead) (E.getColonnade colonnade) where extract :: forall y. h y -> y extract = E.runExtractForall extractForall d2 <- encodeBody trAttrs wrapContent tbodyAttrs colonnade xs return (mappend d1 d2) encodeBody :: (Foldable f, Monoid d) => -- | Attributes of each @\@ element (a -> [Attribute]) -> -- | Wrap content and convert to 'Html' (([Attribute] -> Html d -> Html d) -> c -> Html d) -> -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as a row Colonnade h a c -> -- | Collection of data f a -> Html d encodeBody trAttrs wrapContent tbodyAttrs colonnade xs = do tbody_ tbodyAttrs $ do flip foldlMapM' xs $ \x -> do tr_ (trAttrs x) $ E.rowMonadic colonnade (wrapContent td_) x encodeBodySized :: (Foldable f, Monoid d) => (a -> [Attribute]) -> [Attribute] -> Colonnade (E.Sized Int h) a (Cell d) -> f a -> Html () encodeBodySized trAttrs tbodyAttrs colonnade collection = tbody_ tbodyAttrs $ do for_ collection $ \a -> tr_ (trAttrs a) $ do E.rowMonoidalHeader colonnade ( \(E.Sized sz _) (Cell cattr content) -> void $ td_ (setColspanOrHide sz cattr) content ) a encodeTableSized :: forall f h a d. (Foldable f, E.Headedness h, Monoid d) => -- | Attributes of @\@ and its @\@ h ([Attribute], [Attribute]) -> -- | Attributes of @\@ element [Attribute] -> -- | Attributes of each @\@ element (a -> [Attribute]) -> -- | Wrap content and convert to 'Html' (([Attribute] -> Html d -> Html d) -> (Cell d) -> Html d) -> -- | Attributes of @\@ element [Attribute] -> -- | How to encode data as a row Colonnade (E.Sized Int h) a (Cell d) -> -- | Collection of data f a -> Html () encodeTableSized mtheadAttrs tbodyAttrs trAttrs wrapContent tableAttrs colonnade xs = table_ tableAttrs $ do _ <- case E.headednessExtractForall of Nothing -> pure mempty Just extractForall -> do let (theadAttrs, theadTrAttrs) = extract mtheadAttrs thead_ theadAttrs $ tr_ theadTrAttrs $ do traverse_ ( wrapContent th_ . extract . ( \(E.Sized i h) -> case E.headednessExtract of Just f -> let (Cell attrs content) = f h in E.headednessPure $ Cell (setColspanOrHide i attrs) content Nothing -> E.headednessPure mempty -- (E.Headed (Cell attrs content)) -> E.Headed $ Cell (setColspanOrHide i attrs) content -- E.Headless -> E.Headless ) . E.oneColonnadeHead ) (E.getColonnade colonnade) where extract :: forall y. h y -> y extract = E.runExtractForall extractForall encodeBodySized trAttrs tbodyAttrs colonnade xs setColspanOrHide :: Int -> [Attribute] -> [Attribute] setColspanOrHide i attrs | i < 1 = style_ "display:none;" : attrs | otherwise = colspan_ (Text.pack (show i)) : attrs foldlMapM' :: forall g b a m. (Foldable g, Monoid b, Monad m) => (a -> m b) -> g a -> m b foldlMapM' f xs = foldr f' pure xs mempty where f' :: a -> (b -> m b) -> b -> m b f' x k bl = do br <- f x let !b = mappend bl br k b {- | Convert a 'Cell' to 'Html' by wrapping the content with a tag and applying the 'Cell' attributes to that tag. -} htmlFromCell :: ([Attribute] -> Html d -> Html d) -> Cell d -> Html d htmlFromCell f (Cell attr content) = f attr content {- $discussion In this module, some of the functions for applying a 'Colonnade' to some values to build a table have roughly this type signature: > Foldable a => Colonnade Headedness a (Cell d) -> f a -> Html d The 'Colonnade' content type is 'Cell', but the content type of the result is 'Html'. It may not be immidiately clear why this is done. Another strategy, which this library also uses, is to write these functions to take a 'Colonnade' whose content is 'Html': > Foldable a => Colonnade Headedness a (Html d) -> f a -> Html d When the 'Colonnade' content type is 'Html', then the header content is rendered as the child of a @\@ and the row content the child of a @\@. However, it is not possible to add attributes to these parent elements. To accomodate this situation, it is necessary to introduce 'Cell', which includes the possibility of attributes on the parent node. -} sectioned :: (Foldable f, E.Headedness h, Foldable g, Monoid c) => -- | @\@ tag attributes [Attribute] -> -- | Attributes of @\@ and its @\@, pass 'Nothing' to omit @\@ Maybe ([Attribute], [Attribute]) -> -- | @\@ tag attributes [Attribute] -> -- | @\@ tag attributes for data rows (a -> [Attribute]) -> -- | Section divider encoding strategy (b -> Cell c) -> -- | Data encoding strategy Colonnade h a (Cell c) -> -- | Collection of data f (b, g a) -> Html () sectioned tableAttrs mheadAttrs bodyAttrs trAttrs dividerContent colonnade@(E.Colonnade v) collection = do let vlen = V.length v table_ tableAttrs $ do for_ mheadAttrs $ \(headAttrs, headTrAttrs) -> thead_ headAttrs . tr_ headTrAttrs $ E.headerMonadicGeneral_ colonnade (htmlFromCell th_) tbody_ bodyAttrs $ for_ collection $ \(b, as) -> do let Cell attrs contents = dividerContent b _ <- tr_ [] $ do td_ ((colspan_ $ T.pack (show vlen)) : attrs) contents flip traverse_ as $ \a -> do tr_ (trAttrs a) $ E.rowMonadic colonnade (htmlFromCell td_) a