module Idris.Elab.Class(elabClass) where
import Idris.AbsSyntax
import Idris.ASTUtils
import Idris.DSL
import Idris.Error
import Idris.Delaborate
import Idris.Imports
import Idris.Elab.Term
import Idris.Coverage
import Idris.DataOpts
import Idris.Providers
import Idris.Primitives
import Idris.Inliner
import Idris.PartialEval
import Idris.DeepSeq
import Idris.Output (iputStrLn, pshow, iWarn, sendHighlighting)
import IRTS.Lang
import Idris.Elab.Type
import Idris.Elab.Data
import Idris.Elab.Utils
import Idris.Core.TT
import Idris.Core.Elaborate hiding (Tactic(..))
import Idris.Core.Evaluate
import Idris.Core.Execute
import Idris.Core.Typecheck
import Idris.Core.CaseTree
import Idris.Docstrings
import Prelude hiding (id, (.))
import Control.Category
import Control.Applicative hiding (Const)
import Control.DeepSeq
import Control.Monad
import Control.Monad.State.Strict as State
import Data.List
import Data.Maybe
import Debug.Trace
import qualified Data.Map as Map
import qualified Data.Set as S
import qualified Data.Text as T
import Data.Char(isLetter, toLower)
import Data.List.Split (splitOn)
import Data.Generics.Uniplate.Data (transform)
import Util.Pretty(pretty, text)
data MArgTy = IA Name | EA Name | CA deriving Show
elabClass :: ElabInfo -> SyntaxInfo -> Docstring (Either Err PTerm) ->
FC -> [(Name, PTerm)] ->
Name -> FC -> [(Name, FC, PTerm)] -> [(Name, Docstring (Either Err PTerm))] ->
[(Name, FC)] ->
[PDecl] ->
Maybe (Name, FC) ->
Docstring (Either Err PTerm) ->
Idris ()
elabClass info syn_in doc fc constraints tn tnfc ps pDocs fds ds mcn cd
= do let cn = fromMaybe (SN (InstanceCtorN tn)) (fst <$> mcn)
let tty = pibind (map (\(n, _, ty) -> (n, ty)) ps) (PType fc)
let constraint = PApp fc (PRef fc tn)
(map (pexp . PRef fc) (map (\(n, _, _) -> n) ps))
let syn =
syn_in { using = addToUsing (using syn_in)
[(pn, pt) | (pn, _, pt) <- ps]
}
let mdecls = filter tydecl ds
let idecls = filter instdecl ds
mapM_ checkDefaultSuperclassInstance idecls
let mnames = map getMName mdecls
logLvl 1 $ "Building methods " ++ show mnames
ims <- mapM (tdecl mnames) mdecls
defs <- mapM (defdecl (map (\ (x,y,z) -> z) ims) constraint)
(filter clause ds)
let (methods, imethods)
= unzip (map (\ (x, y, z) -> (x, y)) ims)
let defaults = map (\ (x, (y, z)) -> (x,y)) defs
let cty = impbind [(pn, pt) | (pn, _, pt) <- ps] $ conbind constraints
$ pibind (map (\ (n, ty) -> (nsroot n, ty)) methods)
constraint
let cons = [(cd, pDocs ++ mapMaybe memberDocs ds, cn, NoFC, cty, fc, [])]
let ddecl = PDatadecl tn NoFC tty cons
logLvl 5 $ "Class data " ++ show (showDImp verbosePPOption ddecl)
elabData info (syn { no_imp = no_imp syn ++ mnames,
imp_methods = mnames }) doc pDocs fc [] ddecl
dets <- findDets cn (map fst fds)
addClass tn (CI cn (map nodoc imethods) defaults idecls (map (\(n, _, _) -> n) ps) [] dets)
cfns <- mapM (cfun cn constraint syn (map fst imethods)) constraints
mapM_ (rec_elabDecl info EAll info) (concat cfns)
fns <- mapM (tfun cn constraint (syn { imp_methods = mnames })
(map fst imethods)) imethods
logLvl 5 $ "Functions " ++ show fns
mapM_ (rec_elabDecl info EAll info) (concat fns)
mapM_ (rec_elabDecl info EAll info) (concat (map (snd.snd) defs))
addIBC (IBCClass tn)
sendHighlighting $
[(tnfc, AnnName tn Nothing Nothing Nothing)] ++
[(pnfc, AnnBoundName pn False) | (pn, pnfc, _) <- ps] ++
[(fdfc, AnnBoundName fc False) | (fc, fdfc) <- fds] ++
maybe [] (\(conN, conNFC) -> [(conNFC, AnnName conN Nothing Nothing Nothing)]) mcn
where
nodoc (n, (_, _, o, t)) = (n, (o, t))
pibind [] x = x
pibind ((n, ty): ns) x = PPi expl n NoFC ty (pibind ns (chkUniq ty x))
chkUniq u@(PUniverse _) (PType _) = u
chkUniq (PUniverse l) (PUniverse r) = PUniverse (min l r)
chkUniq (PPi _ _ _ _ sc) t = chkUniq sc t
chkUniq _ t = t
checkDefaultSuperclassInstance :: PDecl -> Idris ()
checkDefaultSuperclassInstance (PInstance _ _ _ fc cs n _ ps _ _ _)
= do when (not $ null cs) . tclift
$ tfail (At fc (Msg $ "Default superclass instances can't have constraints."))
i <- getIState
let t = PApp fc (PRef fc n) (map pexp ps)
let isConstrained = any (== t) (map snd constraints)
when (not isConstrained) . tclift
$ tfail (At fc (Msg $ "Default instances must be for a superclass constraint on the containing class."))
return ()
impbind :: [(Name, PTerm)] -> PTerm -> PTerm
impbind [] x = x
impbind ((n, ty): ns) x = PPi impl n NoFC ty (impbind ns x)
conbind :: [(Name, PTerm)] -> PTerm -> PTerm
conbind ((c, ty) : ns) x = PPi constraint c NoFC ty (conbind ns x)
conbind [] x = x
getMName (PTy _ _ _ _ _ n nfc _) = nsroot n
tdecl allmeths (PTy doc _ syn _ o n nfc t)
= do t' <- implicit' info syn (map (\(n, _, _) -> n) ps ++ allmeths) n t
logLvl 2 $ "Method " ++ show n ++ " : " ++ showTmImpls t'
return ( (n, (toExp (map (\(pn, _, _) -> pn) ps) Exp t')),
(n, (nfc, doc, o, (toExp (map (\(pn, _, _) -> pn) ps)
(\ l s p -> Imp l s p Nothing) t'))),
(n, (nfc, syn, o, t) ) )
tdecl _ _ = ifail "Not allowed in a class declaration"
defdecl mtys c d@(PClauses fc opts n cs) =
case lookup n mtys of
Just (nfc, syn, o, ty) ->
do let ty' = insertConstraint c (map fst mtys) ty
let ds = map (decorateid defaultdec)
[PTy emptyDocstring [] syn fc [] n nfc ty',
PClauses fc (o ++ opts) n cs]
iLOG (show ds)
return (n, ((defaultdec n, ds!!1), ds))
_ -> ifail $ show n ++ " is not a method"
defdecl _ _ _ = ifail "Can't happen (defdecl)"
defaultdec (UN n) = sUN ("default#" ++ str n)
defaultdec (NS n ns) = NS (defaultdec n) ns
tydecl (PTy _ _ _ _ _ _ _ _) = True
tydecl _ = False
instdecl (PInstance _ _ _ _ _ _ _ _ _ _ _) = True
instdecl _ = False
clause (PClauses _ _ _ _) = True
clause _ = False
cfun :: Name -> PTerm -> SyntaxInfo -> [a] -> (Name, PTerm) -> Idris [PDecl' PTerm]
cfun cn c syn all (cnm, con)
= do let cfn = sUN ('@':'@':show cn ++ "#" ++ show con)
let mnames = take (length all) $ map (\x -> sMN x "meth") [0..]
let capp = PApp fc (PRef fc cn) (map (pexp . PRef fc) mnames)
let lhs = PApp fc (PRef fc cfn) [pconst capp]
let rhs = PResolveTC (fileFC "HACK")
let ty = PPi constraint cnm NoFC c con
logLvl 2 ("Dictionary constraint: " ++ showTmImpls ty)
logLvl 2 (showTmImpls lhs ++ " = " ++ showTmImpls rhs)
i <- getIState
let conn = case con of
PRef _ n -> n
PApp _ (PRef _ n) _ -> n
let conn' = case lookupCtxtName conn (idris_classes i) of
[(n, _)] -> n
_ -> conn
addInstance False True conn' cfn
addIBC (IBCInstance False True conn' cfn)
return [PTy emptyDocstring [] syn fc [] cfn NoFC ty,
PClauses fc [Dictionary] cfn [PClause fc cfn lhs [] rhs []]]
tfun :: Name
-> PTerm
-> SyntaxInfo -> [Name]
-> (Name, (FC, Docstring (Either Err PTerm), FnOpts, PTerm))
-> Idris [PDecl]
tfun cn c syn all (m, (mfc, doc, o, ty))
= do let ty' = expandMethNS syn (insertConstraint c all ty)
let mnames = take (length all) $ map (\x -> sMN x "meth") [0..]
let capp = PApp fc (PRef fc cn) (map (pexp . PRef fc) mnames)
let margs = getMArgs ty
let anames = map (\x -> sMN x "arg") [0..]
let lhs = PApp fc (PRef fc m) (pconst capp : lhsArgs margs anames)
let rhs = PApp fc (getMeth mnames all m) (rhsArgs margs anames)
logLvl 2 ("Top level type: " ++ showTmImpls ty')
iLOG (show (m, ty', capp, margs))
logLvl 2 ("Definition: " ++ showTmImpls lhs ++ " = " ++ showTmImpls rhs)
return [PTy doc [] syn fc o m mfc ty',
PClauses fc [Inlinable] m [PClause fc m lhs [] rhs []]]
getMArgs (PPi (Imp _ _ _ _) n _ ty sc) = IA n : getMArgs sc
getMArgs (PPi (Exp _ _ _) n _ ty sc) = EA n : getMArgs sc
getMArgs (PPi (Constraint _ _) n _ ty sc) = CA : getMArgs sc
getMArgs _ = []
getMeth :: [Name] -> [Name] -> Name -> PTerm
getMeth (m:ms) (a:as) x | x == a = PRef fc m
| otherwise = getMeth ms as x
lhsArgs (EA _ : xs) (n : ns) = []
lhsArgs (IA n : xs) ns = pimp n (PRef fc n) False : lhsArgs xs ns
lhsArgs (CA : xs) ns = lhsArgs xs ns
lhsArgs [] _ = []
rhsArgs (EA _ : xs) (n : ns) = []
rhsArgs (IA n : xs) ns = pexp (PRef fc n) : rhsArgs xs ns
rhsArgs (CA : xs) ns = pconst (PResolveTC fc) : rhsArgs xs ns
rhsArgs [] _ = []
insertConstraint :: PTerm -> [Name] -> PTerm -> PTerm
insertConstraint c all (PPi p@(Imp _ _ _ _) n fc ty sc)
= PPi p n fc ty (insertConstraint c all sc)
insertConstraint c all sc = let dictN = sMN 0 "class"
in PPi (constraint { pstatic = Static })
dictN NoFC c
(constrainMeths (map basename all)
dictN sc)
where
constrainMeths :: [Name] -> Name -> PTerm -> PTerm
constrainMeths allM dictN tm = transform (addC allM dictN) tm
addC allM dictN m@(PRef fc n)
| n `elem` allM = PApp NoFC m [pconst (PRef NoFC dictN)]
| otherwise = m
addC _ _ tm = tm
toExp ns e (PPi (Imp l s p _) n fc ty sc)
| n `elem` ns = toExp ns e sc
| otherwise = PPi (e l s p) n fc ty (toExp ns e sc)
toExp ns e (PPi p n fc ty sc) = PPi p n fc ty (toExp ns e sc)
toExp ns e sc = sc
mdec :: Name -> Name
mdec (UN n) = SN (MethodN (UN n))
mdec (NS x n) = NS (mdec x) n
mdec x = x
memberDocs :: PDecl -> Maybe (Name, Docstring (Either Err PTerm))
memberDocs (PTy d _ _ _ _ n _ _) = Just (basename n, d)
memberDocs (PPostulate _ d _ _ _ n _) = Just (basename n, d)
memberDocs (PData d _ _ _ _ pdata) = Just (basename $ d_name pdata, d)
memberDocs (PRecord d _ _ _ n _ _ _ _ _ _ _ ) = Just (basename n, d)
memberDocs (PClass d _ _ _ n _ _ _ _ _ _ _) = Just (basename n, d)
memberDocs _ = Nothing
expandMethNS :: SyntaxInfo
-> PTerm -> PTerm
expandMethNS syn = mapPT expand
where
expand (PRef fc n) | n `elem` imp_methods syn = PRef fc $ expandNS syn n
expand t = t
findDets :: Name -> [Name] -> Idris [Int]
findDets n ns =
do i <- getIState
return $ case lookupTyExact n (tt_ctxt i) of
Just ty -> getDetPos 0 ns ty
Nothing -> []
where
getDetPos i ns (Bind n (Pi _ _ _) sc)
| n `elem` ns = i : getDetPos (i + 1) ns sc
| otherwise = getDetPos (i + 1) ns sc
getDetPos _ _ _ = []