{-# LANGUAGE TemplateHaskell, CPP #-}
module Yesod.Routes.TH.RenderRoute
(
mkRenderRouteInstance
, mkRouteCons
, mkRenderRouteClauses
) where
import Yesod.Routes.TH.Types
import Language.Haskell.TH (conT)
import Language.Haskell.TH.Syntax
import Data.Bits (xor)
import Data.Maybe (maybeToList)
import Control.Monad (replicateM)
import Data.Text (pack)
import Web.PathPieces (PathPiece (..), PathMultiPiece (..))
import Yesod.Routes.Class
mkRouteCons :: [ResourceTree Type] -> Q ([Con], [Dec])
mkRouteCons rttypes =
mconcat <$> mapM mkRouteCon rttypes
where
mkRouteCon (ResourceLeaf res) =
return ([con], [])
where
con = NormalC (mkName $ resourceName res)
$ map (\x -> (notStrict, x))
$ concat [singles, multi, sub]
singles = concatMap toSingle $ resourcePieces res
toSingle Static{} = []
toSingle (Dynamic typ) = [typ]
multi = maybeToList $ resourceMulti res
sub =
case resourceDispatch res of
Subsite { subsiteType = typ } -> [ConT ''Route `AppT` typ]
_ -> []
mkRouteCon (ResourceParent name _check pieces children) = do
(cons, decs) <- mkRouteCons children
#if MIN_VERSION_template_haskell(2,12,0)
dec <- DataD [] (mkName name) [] Nothing cons <$> fmap (pure . DerivClause Nothing) (mapM conT [''Show, ''Read, ''Eq])
#else
dec <- DataD [] (mkName name) [] Nothing cons <$> mapM conT [''Show, ''Read, ''Eq]
#endif
return ([con], dec : decs)
where
con = NormalC (mkName name)
$ map (\x -> (notStrict, x))
$ singles ++ [ConT $ mkName name]
singles = concatMap toSingle pieces
toSingle Static{} = []
toSingle (Dynamic typ) = [typ]
mkRenderRouteClauses :: [ResourceTree Type] -> Q [Clause]
mkRenderRouteClauses =
mapM go
where
isDynamic Dynamic{} = True
isDynamic _ = False
go (ResourceParent name _check pieces children) = do
let cnt = length $ filter isDynamic pieces
dyns <- replicateM cnt $ newName "dyn"
child <- newName "child"
let pat = ConP (mkName name) $ map VarP $ dyns ++ [child]
pack' <- [|pack|]
tsp <- [|toPathPiece|]
let piecesSingle = mkPieces (AppE pack' . LitE . StringL) tsp pieces dyns
childRender <- newName "childRender"
let rr = VarE childRender
childClauses <- mkRenderRouteClauses children
a <- newName "a"
b <- newName "b"
colon <- [|(:)|]
let cons y ys = InfixE (Just y) colon (Just ys)
let pieces' = foldr cons (VarE a) piecesSingle
let body = LamE [TupP [VarP a, VarP b]] (TupE [pieces', VarE b]) `AppE` (rr `AppE` VarE child)
return $ Clause [pat] (NormalB body) [FunD childRender childClauses]
go (ResourceLeaf res) = do
let cnt = length (filter isDynamic $ resourcePieces res) + maybe 0 (const 1) (resourceMulti res)
dyns <- replicateM cnt $ newName "dyn"
sub <-
case resourceDispatch res of
Subsite{} -> return <$> newName "sub"
_ -> return []
let pat = ConP (mkName $ resourceName res) $ map VarP $ dyns ++ sub
pack' <- [|pack|]
tsp <- [|toPathPiece|]
let piecesSingle = mkPieces (AppE pack' . LitE . StringL) tsp (resourcePieces res) dyns
piecesMulti <-
case resourceMulti res of
Nothing -> return $ ListE []
Just{} -> do
tmp <- [|toPathMultiPiece|]
return $ tmp `AppE` VarE (last dyns)
body <-
case sub of
[x] -> do
rr <- [|renderRoute|]
a <- newName "a"
b <- newName "b"
colon <- [|(:)|]
let cons y ys = InfixE (Just y) colon (Just ys)
let pieces = foldr cons (VarE a) piecesSingle
return $ LamE [TupP [VarP a, VarP b]] (TupE [pieces, VarE b]) `AppE` (rr `AppE` VarE x)
_ -> do
colon <- [|(:)|]
let cons a b = InfixE (Just a) colon (Just b)
return $ TupE [foldr cons piecesMulti piecesSingle, ListE []]
return $ Clause [pat] (NormalB body) []
mkPieces _ _ [] _ = []
mkPieces toText tsp (Static s:ps) dyns = toText s : mkPieces toText tsp ps dyns
mkPieces toText tsp (Dynamic{}:ps) (d:dyns) = tsp `AppE` VarE d : mkPieces toText tsp ps dyns
mkPieces _ _ (Dynamic _ : _) [] = error "mkPieces 120"
mkRenderRouteInstance :: Cxt -> Type -> [ResourceTree Type] -> Q [Dec]
mkRenderRouteInstance cxt typ ress = do
cls <- mkRenderRouteClauses ress
(cons, decs) <- mkRouteCons ress
#if MIN_VERSION_template_haskell(2,12,0)
did <- DataInstD [] ''Route [typ] Nothing cons <$> fmap (pure . DerivClause Nothing) (mapM conT (clazzes False))
let sds = fmap (\t -> StandaloneDerivD Nothing cxt $ ConT t `AppT` ( ConT ''Route `AppT` typ)) (clazzes True)
#else
did <- DataInstD [] ''Route [typ] Nothing cons <$> mapM conT (clazzes False)
let sds = fmap (\t -> StandaloneDerivD cxt $ ConT t `AppT` ( ConT ''Route `AppT` typ)) (clazzes True)
#endif
return $ instanceD cxt (ConT ''RenderRoute `AppT` typ)
[ did
, FunD (mkName "renderRoute") cls
]
: sds ++ decs
where
clazzes standalone = if standalone `xor` null cxt then
clazzes'
else
[]
clazzes' = [''Show, ''Eq, ''Read]
notStrict :: Bang
notStrict = Bang NoSourceUnpackedness NoSourceStrictness
instanceD :: Cxt -> Type -> [Dec] -> Dec
instanceD = InstanceD Nothing