module Data.Singletons.CustomStar (
singletonStar,
module Data.Singletons.Prelude.Eq,
module Data.Singletons.Prelude.Bool
) where
import Language.Haskell.TH
import Data.Singletons.Util
import Data.Singletons.Deriving.Ord
import Data.Singletons.Promote
import Data.Singletons.Promote.Monad
import Data.Singletons.Single.Monad
import Data.Singletons.Single.Data
import Data.Singletons.Single
import Data.Singletons.Syntax
import Data.Singletons.Names
import Control.Monad
import Data.Maybe
import Language.Haskell.TH.Desugar
import Data.Singletons.Prelude.Eq
import Data.Singletons.Prelude.Bool
singletonStar :: DsMonad q
=> [Name]
-> q [Dec]
singletonStar names = do
kinds <- mapM getKind names
ctors <- zipWithM (mkCtor True) names kinds
let repDecl = DDataD Data [] repName [] ctors
[DDerivClause Nothing [DConPr ''Eq, DConPr ''Show, DConPr ''Read]]
fakeCtors <- zipWithM (mkCtor False) names kinds
let dataDecl = DataDecl Data repName [] fakeCtors
[DConPr ''Show, DConPr ''Read , DConPr ''Eq]
ordInst <- mkOrdInstance (DConT repName) fakeCtors
(pOrdInst, promDecls) <- promoteM [] $ do promoteDataDec dataDecl
promoteInstanceDec mempty ordInst
singletonDecls <- singDecsM [] $ do decs1 <- singDataD dataDecl
dec2 <- singInstD pOrdInst
return (dec2 : decs1)
return $ decsToTH $ repDecl :
promDecls ++
singletonDecls
where
getKind :: DsMonad q => Name -> q [DKind]
getKind name = do
info <- reifyWithWarning name
dinfo <- dsInfo info
case dinfo of
DTyConI (DDataD _ (_:_) _ _ _ _) _ ->
fail "Cannot make a representation of a constrainted data type"
DTyConI (DDataD _ [] _ tvbs _ _) _ ->
return $ map (fromMaybe DStarT . extractTvbKind) tvbs
DTyConI (DTySynD _ tvbs _) _ ->
return $ map (fromMaybe DStarT . extractTvbKind) tvbs
DPrimTyConI _ n _ ->
return $ replicate n DStarT
_ -> fail $ "Invalid thing for representation: " ++ (show name)
mkCtor :: DsMonad q => Bool -> Name -> [DKind] -> q DCon
mkCtor real name args = do
(types, vars) <- evalForPair $ mapM (kindToType []) args
dataName <- if real then mkDataName (nameBase name) else return name
return $ DCon (map DPlainTV vars) [] dataName
(DNormalC (map (\ty -> (noBang, ty)) types))
Nothing
where
noBang = Bang NoSourceUnpackedness NoSourceStrictness
kindToType :: DsMonad q => [DType] -> DKind -> QWithAux [Name] q DType
kindToType _ (DForallT _ _ _) = fail "Explicit forall encountered in kind"
kindToType args (DAppT f a) = do
a' <- kindToType [] a
kindToType (a' : args) f
kindToType args (DSigT t k) = do
t' <- kindToType [] t
k' <- kindToType [] k
return $ DSigT t' k' `foldType` args
kindToType args (DVarT n) = do
addElement n
return $ DVarT n `foldType` args
kindToType args (DConT n) = return $ DConT n `foldType` args
kindToType args DArrowT = return $ DArrowT `foldType` args
kindToType args k@(DLitT {}) = return $ k `foldType` args
kindToType args DWildCardT = return $ DWildCardT `foldType` args
kindToType args DStarT = return $ DConT repName `foldType` args