module Web.Framework.Plzwrk.Domify
( plzwrk
, plzwrk'
, plzwrk'_
, plzwrkSSR
, plzwrkSSR'
, plzwrkSSR'_
)
where
import Control.Applicative
import Data.List.Split
import Control.Monad
import Control.Monad.Reader
import Control.Monad.Trans
import Control.Monad.Trans.Maybe
import qualified Data.HashMap.Strict as HM
import Data.IORef
import Data.Maybe ( catMaybes )
import qualified Data.Set as S
import Web.Framework.Plzwrk.Base
import Web.Framework.Plzwrk.Browserful
import Web.Framework.Plzwrk.Util
data DomifiedAttribute jsval = DomifiedTextAttribute String | DomifiedFunctionAttribute jsval
data DomifiedPwNode jsval = DomifiedPwElement
{ _dom_tag :: String
, _dom_attr :: [(String, DomifiedAttribute jsval)]
, _dom_kids :: [DomifiedPwNode jsval]
, _dom_ptr :: jsval
}
| DomifiedPwTextNode String jsval
data OldStuff state jsval = OldStuff {
_oldState :: state,
_oldDom :: Maybe (DomifiedPwNode jsval)
}
freeAttrFunction :: DomifiedAttribute jsval -> ReaderT (Browserful jsval) IO ()
freeAttrFunction (DomifiedFunctionAttribute f) = do
__freeCallback <- asks _freeCallback
liftIO (void $ __freeCallback f)
freeAttrFunction _ = return ()
freeFunctions :: DomifiedPwNode jsval -> ReaderT (Browserful jsval) IO ()
freeFunctions (DomifiedPwElement _ b c _) = do
mapM_ freeAttrFunction (fmap snd b)
mapM_ freeFunctions c
freeFunctions _ = pure ()
data AttributeHack = MkAttributeHack
{ _hackishStyle :: HM.HashMap String String
, _hackishClass :: S.Set String
, _hackishSimple :: HM.HashMap String String
} deriving (Eq)
getStyleFrom :: [(String, String)] -> HM.HashMap String String
getStyleFrom l = HM.unions
(fmap stylishAttributes $ filter (\(x, _) -> x == "style") l) where
stylishAttributes :: (String, String) -> HM.HashMap String String
stylishAttributes (_, y) = HM.fromList $ fmap
(\s -> let ss = splitOn ":" s in (ss !! 0, ss !! 1))
(filter (\x -> elem ':' x) (splitOn ";" y))
getClassFrom :: [(String, String)] -> S.Set String
getClassFrom l = S.unions
(fmap classyAttributes $ filter (\(x, _) -> x == "class") l) where
classyAttributes :: (String, String) -> S.Set String
classyAttributes (_, y) = S.fromList (words y)
getSimpleFrom :: [(String, String)] -> HM.HashMap String String
getSimpleFrom l = HM.unions (fmap simplyAttributes l) where
simplyAttributes :: (String, String) -> HM.HashMap String String
simplyAttributes (x, y) =
if (x /= "class" && x /= "style") then HM.singleton x y else HM.empty
attributeListToSplitAttrs :: [(String, String)] -> AttributeHack
attributeListToSplitAttrs fl =
MkAttributeHack (getStyleFrom fl) (getClassFrom fl) (getSimpleFrom fl)
isDText :: (String, DomifiedAttribute jsval) -> Maybe (String, String)
isDText (k, DomifiedTextAttribute v) = Just (k, v)
isDText _ = Nothing
isPwText :: (String, PwAttribute s jsval) -> Maybe (String, String)
isPwText (k, PwTextAttribute v) = Just (k, v)
isPwText _ = Nothing
daToF :: [(String, DomifiedAttribute jsval)] -> [(String, String)]
daToF l = catMaybes $ fmap isDText l
paToF :: [(String, PwAttribute s jsval)] -> [(String, String)]
paToF l = catMaybes $ fmap isPwText l
nodesEq
:: String
-> String
-> [(String, DomifiedAttribute jsval)]
-> [(String, PwAttribute s jsval)]
-> Bool
nodesEq t0 t1 a0 a1 =
(t0 == t1)
&& ( attributeListToSplitAttrs (daToF a0)
== attributeListToSplitAttrs (paToF a1)
)
padr :: Int -> a -> [a] -> [a]
padr i v l = if (length l >= i) then l else padr i v (l ++ [v])
reconcile
:: Bool
-> IORef (OldStuff state jsval)
-> (state -> PwNode state jsval)
-> jsval
-> jsval
-> Maybe (DomifiedPwNode jsval)
-> Maybe (HydratedPwNode state jsval)
-> ReaderT
(Browserful jsval)
IO
(Maybe (DomifiedPwNode jsval))
reconcile touchDOM refToOldStuff domCreationF parentNode topLevelNode (Just (DomifiedPwElement currentTag currentAttributes currentChildren currentNode)) (Just maybeNewNode@(HydratedPwElement maybeNewTag maybeNewAttributes maybeNewChildren))
= if (nodesEq currentTag maybeNewTag currentAttributes maybeNewAttributes)
then
(do
let maxlen = max (length maybeNewChildren) (length currentChildren)
newChildren <- sequence $ getZipList
( (reconcile touchDOM
refToOldStuff
domCreationF
currentNode
topLevelNode
)
<$> (ZipList (padr maxlen Nothing (fmap Just currentChildren)))
<*> (ZipList (padr maxlen Nothing (fmap Just maybeNewChildren)))
)
currentAttributes <- mapM
(hydratedAttrToDomifiedAttr refToOldStuff domCreationF parentNode)
maybeNewAttributes
if touchDOM
then
(do
mapM_ (removeEventHandler currentNode) currentAttributes
mapM_ (setEventHandler currentNode) currentAttributes
)
else (pure ())
return $ Just
(DomifiedPwElement currentTag
currentAttributes
(catMaybes newChildren)
currentNode
)
)
else
(do
res <- domify touchDOM
refToOldStuff
domCreationF
parentNode
topLevelNode
(Just currentNode)
maybeNewNode
return $ Just res
)
reconcile touchDOM refToOldStuff domCreationF parentNode topLevelNode (Just currentDomifiedString@(DomifiedPwTextNode currentString currentNode)) (Just maybeNewNode@(HydratedPwTextNode maybeNewString))
= if (currentString == maybeNewString)
then pure (Just currentDomifiedString)
else
(do
res <- domify touchDOM
refToOldStuff
domCreationF
parentNode
topLevelNode
(Just currentNode)
maybeNewNode
return $ Just res
)
reconcile touchDOM refToOldStuff domCreationF parentNode topLevelNode (Just (DomifiedPwElement _ _ _ currentNode)) (Just maybeNewNode@(HydratedPwTextNode _))
= do
res <- domify touchDOM
refToOldStuff
domCreationF
parentNode
topLevelNode
(Just currentNode)
maybeNewNode
return $ Just res
reconcile touchDOM refToOldStuff domCreationF parentNode topLevelNode (Just (DomifiedPwTextNode _ currentNode)) (Just maybeNewNode@(HydratedPwElement _ _ _))
= do
res <- domify touchDOM
refToOldStuff
domCreationF
parentNode
topLevelNode
(Just currentNode)
maybeNewNode
return $ Just res
reconcile touchDOM refToOldStuff domCreationF parentNode topLevelNode Nothing (Just maybeNewNode)
= do
res <- domify touchDOM
refToOldStuff
domCreationF
parentNode
topLevelNode
Nothing
maybeNewNode
return $ Just res
reconcile touchDOM refToOldStuff domCreationF parentNode _ (Just (DomifiedPwElement _ _ _ currentNode)) Nothing
= if (touchDOM)
then
(do
_nodeRemoveChild <- asks nodeRemoveChild
liftIO $ _nodeRemoveChild parentNode currentNode
return Nothing
)
else (pure Nothing)
reconcile touchDOM refToOldStuff domCreationF parentNode _ (Just (DomifiedPwTextNode _ currentNode)) Nothing
= if (touchDOM)
then
(do
_nodeRemoveChild <- asks nodeRemoveChild
liftIO $ _nodeRemoveChild parentNode currentNode
return Nothing
)
else (pure Nothing)
reconcile _ _ _ _ _ _ _ = error "Inconsistent state"
reconcileAndAdd = reconcile True
cbMaker
:: IORef (OldStuff state jsval)
-> (state -> PwNode state jsval)
-> jsval
-> (jsval -> state -> IO state)
-> Browserful jsval
-> jsval
-> IO ()
cbMaker refToOldStuff domCreationF topLevelNode eventToState env event = do
oldStuff <- readIORef refToOldStuff
let oldDom = _oldDom oldStuff
let oldState = _oldState oldStuff
newState <- eventToState event oldState
let newHydratedDom = hydrate newState domCreationF
newDom <- runReaderT
(reconcileAndAdd refToOldStuff
domCreationF
topLevelNode
topLevelNode
oldDom
(Just newHydratedDom)
)
env
maybe (pure ()) (\x -> runReaderT (freeFunctions x) env) oldDom
writeIORef refToOldStuff (OldStuff newState newDom)
eventable
:: IORef (OldStuff state jsval)
-> (state -> PwNode state jsval)
-> jsval
-> (jsval -> state -> IO state)
-> ReaderT (Browserful jsval) IO jsval
eventable refToOldStuff domCreationF topLevelNode eventToState = do
__makeHaskellCallback <- asks _makeHaskellCallback
env <- ask
liftIO $ __makeHaskellCallback
(cbMaker refToOldStuff domCreationF topLevelNode eventToState env)
hydratedAttrToDomifiedAttr
:: IORef (OldStuff state jsval)
-> (state -> PwNode state jsval)
-> jsval
-> (String, PwAttribute state jsval)
-> ReaderT (Browserful jsval) IO (String, DomifiedAttribute jsval)
hydratedAttrToDomifiedAttr refToOldStuff domCreationF topLevelNode (k, PwTextAttribute t)
= return $ (k, DomifiedTextAttribute t)
hydratedAttrToDomifiedAttr refToOldStuff domCreationF topLevelNode (k, PwFunctionAttribute f)
= do
func <- eventable refToOldStuff domCreationF topLevelNode f
return $ (k, DomifiedFunctionAttribute func)
setAtt
:: jsval
-> (String, DomifiedAttribute jsval)
-> ReaderT (Browserful jsval) IO ()
setAtt currentNode (k, DomifiedTextAttribute v) = do
_elementSetAttribute <- asks elementSetAttribute
liftIO $ _elementSetAttribute currentNode k v
setAtt currentNode kv = setEventHandler currentNode kv
handleOnlyEventListener
:: (jsval -> String -> jsval -> IO ())
-> jsval
-> (String, DomifiedAttribute jsval)
-> IO ()
handleOnlyEventListener eventListenerHandlerF currentNode (k, DomifiedFunctionAttribute v)
= eventListenerHandlerF currentNode k v
handleOnlyEventListener _ _ _ = pure ()
setEventHandler
:: jsval
-> (String, DomifiedAttribute jsval)
-> ReaderT (Browserful jsval) IO ()
setEventHandler currentNode domifiedAttribute = do
_eventTargetAddEventListener <- asks eventTargetAddEventListener
liftIO $ handleOnlyEventListener _eventTargetAddEventListener
currentNode
domifiedAttribute
removeEventHandler
:: jsval
-> (String, DomifiedAttribute jsval)
-> ReaderT (Browserful jsval) IO ()
removeEventHandler currentNode domifiedAttribute = do
_eventTargetRemoveEventListener <- asks eventTargetRemoveEventListener
liftIO $ handleOnlyEventListener _eventTargetRemoveEventListener
currentNode
domifiedAttribute
domify
:: Bool
-> IORef (OldStuff state jsval)
-> (state -> PwNode state jsval)
-> jsval
-> jsval
-> Maybe jsval
-> HydratedPwNode state jsval
-> ReaderT (Browserful jsval) IO (DomifiedPwNode jsval)
domify touchDOM refToOldStuff domCreationF parentNode topLevelNode replacing (HydratedPwElement tag attrs children)
= do
_documentCreateElement <- asks documentCreateElement
_nodeAppendChild <- asks nodeAppendChild
_nodeInsertBefore <- asks nodeInsertBefore
_nodeRemoveChild <- asks nodeRemoveChild
newNode <- liftIO $ _documentCreateElement tag
newAttributes <- mapM
(hydratedAttrToDomifiedAttr refToOldStuff domCreationF topLevelNode)
attrs
if touchDOM then (mapM_ (setAtt newNode) newAttributes) else (pure ())
newChildren <- mapM
(domify touchDOM refToOldStuff domCreationF newNode topLevelNode Nothing)
children
if touchDOM
then
(do
maybe
(liftIO $ _nodeAppendChild parentNode newNode)
(\x -> do
liftIO $ _nodeInsertBefore parentNode newNode x
liftIO $ _nodeRemoveChild parentNode x
)
replacing
)
else (pure ())
liftIO $ return (DomifiedPwElement tag newAttributes newChildren newNode)
domify touchDOM _ _ parentNode topLevelNode replacing (HydratedPwTextNode text)
= do
_documentCreateElement <- asks documentCreateElement
_nodeAppendChild <- asks nodeAppendChild
_nodeInsertBefore <- asks nodeInsertBefore
_nodeRemoveChild <- asks nodeRemoveChild
_documentCreateTextNode <- asks documentCreateTextNode
newTextNode <- liftIO $ _documentCreateTextNode text
if touchDOM
then
(do
maybe
(liftIO $ _nodeAppendChild parentNode newTextNode)
(\x -> do
liftIO $ _nodeInsertBefore parentNode newTextNode x
liftIO $ _nodeRemoveChild parentNode x
)
replacing
)
else (pure ())
liftIO $ return (DomifiedPwTextNode text newTextNode)
getChildren :: DomifiedPwNode jsval -> [DomifiedPwNode jsval]
getChildren (DomifiedPwElement _ _ x _) = x
getChildren _ = []
setEventHandlers_
:: jsval -> DomifiedPwNode jsval -> ReaderT (Browserful jsval) IO ()
setEventHandlers_ v (DomifiedPwElement _ a _ _) = mapM_ (setEventHandler v) a
setEventHandlers_ _ _ = liftIO $ pure ()
transformFromCurrentDom
:: jsval
-> [DomifiedPwNode jsval]
-> ReaderT (Browserful jsval) IO [DomifiedPwNode jsval]
transformFromCurrentDom parentNode children = do
_nodeChildNodes <- asks nodeChildNodes
_kids <- liftIO $ _nodeChildNodes parentNode
let kids = maybe [] id _kids
newChildren <- sequence $ getZipList
( transformFromCurrentDom
<$> (ZipList kids)
<*> (ZipList $ fmap getChildren children)
)
sequence
$ getZipList (setEventHandlers_ <$> (ZipList kids) <*> (ZipList children))
return $ getZipList
( (\cur chldrn ptr -> cur { _dom_kids = chldrn, _dom_ptr = ptr })
<$> (ZipList children)
<*> (ZipList newChildren)
<*> (ZipList kids)
)
addHandlers
:: jsval
-> DomifiedPwNode jsval
-> ReaderT (Browserful jsval) IO (DomifiedPwNode jsval)
addHandlers parentNode curDom = do
transformed <- transformFromCurrentDom parentNode [curDom]
return $ (transformed !! 0)
__plzwrk
:: Bool
-> (state -> PwNode state jsval)
-> state
-> jsval
-> Browserful jsval
-> IO (Maybe (DomifiedPwNode jsval))
__plzwrk cleanDOM domF state parentNode env = do
refToOldStuff <- newIORef (OldStuff state Nothing)
newDom <- runReaderT
(reconcile cleanDOM
refToOldStuff
domF
parentNode
parentNode
Nothing
(Just $ hydrate state domF)
)
env
writeIORef refToOldStuff (OldStuff state newDom)
if (not cleanDOM)
then
(maybe
(pure Nothing)
(\y -> do
withHandlers <- runReaderT (addHandlers parentNode y) env
writeIORef refToOldStuff (OldStuff state (Just y))
return $ Just withHandlers
)
newDom
)
else pure newDom
_plzwrk
:: Bool
-> (state -> PwNode state jsval)
-> state
-> Browserful jsval
-> String
-> IO (Maybe (DomifiedPwNode jsval))
_plzwrk cleanDOM domF state env nodeId = do
parentNode <- (documentGetElementById env) nodeId
maybe (error ("Node with id not in DOM: " <> show nodeId))
(\x -> __plzwrk cleanDOM domF state x env)
parentNode
plzwrk
:: (state -> PwNode state jsval)
-> state
-> Browserful jsval
-> String
-> IO ()
plzwrk domF state env nodeId = void $ _plzwrk True domF state env nodeId
plzwrkSSR
:: (state -> PwNode state jsval)
-> state
-> Browserful jsval
-> String
-> IO ()
plzwrkSSR domF state env nodeId = void $ _plzwrk False domF state env nodeId
_plzwrk'
:: Bool
-> (state -> PwNode state jsval)
-> state
-> Browserful jsval
-> IO (Maybe (DomifiedPwNode jsval))
_plzwrk' cleanDOM domF state env = do
parentNode <- (documentBody env)
__plzwrk cleanDOM domF state parentNode env
plzwrk' :: (state -> PwNode state jsval) -> state -> Browserful jsval -> IO ()
plzwrk' domF state env = void $ _plzwrk' True domF state env
plzwrkSSR'
:: (state -> PwNode state jsval) -> state -> Browserful jsval -> IO ()
plzwrkSSR' domF state env = void $ _plzwrk' False domF state env
plzwrk'_ :: (() -> PwNode () jsval) -> Browserful jsval -> IO ()
plzwrk'_ domF env = plzwrk' domF () env
plzwrkSSR'_ :: (() -> PwNode () jsval) -> Browserful jsval -> IO ()
plzwrkSSR'_ domF env = plzwrkSSR' domF () env