module Idris.Elab.Utils where
import Idris.AbsSyntax
import Idris.Error
import Idris.DeepSeq
import Idris.Delaborate
import Idris.Docstrings
import Idris.Output
import Idris.Core.TT
import Idris.Core.Elaborate hiding (Tactic(..))
import Idris.Core.Evaluate
import Idris.Core.Typecheck
import Util.Pretty
import Control.Applicative hiding (Const)
import Control.Monad.State
import Control.Monad
import Data.List
import Data.Maybe
import qualified Data.Traversable as Traversable
import Debug.Trace
import qualified Data.Map as Map
recheckC = recheckC_borrowing False True []
recheckC_borrowing uniq_check addConstrs bs fc mkerr env t
= do
ctxt <- getContext
t' <- case safeForget t of
Just ft -> return ft
Nothing -> tclift $ tfail $ mkerr (At fc (IncompleteTerm t))
(tm, ty, cs) <- tclift $ case recheck_borrowing uniq_check bs ctxt env t' t of
Error e -> tfail (At fc (mkerr e))
OK x -> return x
logElab 6 $ "CONSTRAINTS ADDED: " ++ show (tm, ty, cs)
when addConstrs $ addConstraints fc cs
mapM_ (checkDeprecated fc) (allTTNames tm)
mapM_ (checkDeprecated fc) (allTTNames ty)
return (tm, ty)
checkDeprecated :: FC -> Name -> Idris ()
checkDeprecated fc n
= do r <- getDeprecated n
case r of
Nothing -> return ()
Just r -> do iWarn fc $ text "Use of deprecated name " <> annName n
<> case r of
"" -> Util.Pretty.empty
_ -> line <> text r
iderr :: Name -> Err -> Err
iderr _ e = e
checkDef :: FC -> (Name -> Err -> Err) -> Bool ->
[(Name, (Int, Maybe Name, Type, [Name]))] ->
Idris [(Name, (Int, Maybe Name, Type, [Name]))]
checkDef fc mkerr definable ns
= checkAddDef False True fc mkerr definable ns
checkAddDef :: Bool -> Bool -> FC -> (Name -> Err -> Err) -> Bool
-> [(Name, (Int, Maybe Name, Type, [Name]))]
-> Idris [(Name, (Int, Maybe Name, Type, [Name]))]
checkAddDef add toplvl fc mkerr def [] = return []
checkAddDef add toplvl fc mkerr definable ((n, (i, top, t, psns)) : ns)
= do ctxt <- getContext
logElab 5 $ "Rechecking deferred name " ++ show (n, t, definable)
(t', _) <- recheckC fc (mkerr n) [] t
when add $ do addDeferred [(n, (i, top, t, psns, toplvl, definable))]
addIBC (IBCDef n)
ns' <- checkAddDef add toplvl fc mkerr definable ns
return ((n, (i, top, t', psns)) : ns')
inaccessibleImps :: Int -> Type -> [Bool] -> [(Int, Name)]
inaccessibleImps i (Bind n (Pi _ t _) sc) (inacc : ins)
| inacc = (i, n) : inaccessibleImps (i + 1) sc ins
| otherwise = inaccessibleImps (i + 1) sc ins
inaccessibleImps _ _ _ = []
inaccessibleArgs :: Int -> PTerm -> [(Int, Name)]
inaccessibleArgs i (PPi plicity n _ ty t)
| InaccessibleArg `elem` pargopts plicity
= (i,n) : inaccessibleArgs (i+1) t
| otherwise
= inaccessibleArgs (i+1) t
inaccessibleArgs _ _ = []
elabCaseBlock :: ElabInfo -> FnOpts -> PDecl -> Idris ()
elabCaseBlock info opts d@(PClauses f o n ps)
= do addIBC (IBCDef n)
logElab 5 $ "CASE BLOCK: " ++ show (n, d)
let opts' = nub (o ++ opts)
when (AssertTotal `elem` opts) $ setFlags n [AssertTotal]
rec_elabDecl info EAll info (PClauses f opts' n ps )
checkInferred :: FC -> PTerm -> PTerm -> Idris ()
checkInferred fc inf user =
do logElab 6 $ "Checked to\n" ++ showTmImpls inf ++ "\n\nFROM\n\n" ++
showTmImpls user
logElab 10 $ "Checking match"
i <- getIState
tclift $ case matchClause' True i user inf of
_ -> return ()
logElab 10 $ "Checked match"
inferredDiff :: FC -> PTerm -> PTerm -> Idris Bool
inferredDiff fc inf user =
do i <- getIState
logElab 6 $ "Checked to\n" ++ showTmImpls inf ++ "\n" ++
showTmImpls user
tclift $ case matchClause' True i user inf of
Right vs -> return False
Left (x, y) -> return True
checkDocs :: FC -> [(Name, Docstring a)] -> PTerm -> Idris ()
checkDocs fc args tm = cd (Map.fromList args) tm
where cd as (PPi _ n _ _ sc) = cd (Map.delete n as) sc
cd as _ | Map.null as = return ()
| otherwise = ierror . At fc . Msg $
"There is documentation for argument(s) "
++ (concat . intersperse ", " . map show . Map.keys) as
++ " but they were not found."
decorateid decorate (PTy doc argdocs s f o n nfc t) = PTy doc argdocs s f o (decorate n) nfc t
decorateid decorate (PClauses f o n cs)
= PClauses f o (decorate n) (map dc cs)
where dc (PClause fc n t as w ds) = PClause fc (decorate n) (dappname t) as w ds
dc (PWith fc n t as w pn ds)
= PWith fc (decorate n) (dappname t) as w pn
(map (decorateid decorate) ds)
dappname (PApp fc (PRef fc' hl n) as) = PApp fc (PRef fc' hl (decorate n)) as
dappname t = t
pbinds :: IState -> Term -> ElabD ()
pbinds i (Bind n (PVar t) sc)
= do attack; patbind n
env <- get_env
case unApply (normalise (tt_ctxt i) env t) of
(P _ c _, args) -> case lookupCtxt c (idris_classes i) of
[] -> return ()
_ ->
mapM_ setinjArg args
_ -> return ()
pbinds i sc
where setinjArg (P _ n _) = setinj n
setinjArg _ = return ()
pbinds i tm = return ()
pbty (Bind n (PVar t) sc) tm = Bind n (PVTy t) (pbty sc tm)
pbty _ tm = tm
getPBtys (Bind n (PVar t) sc) = (n, t) : getPBtys sc
getPBtys (Bind n (PVTy t) sc) = (n, t) : getPBtys sc
getPBtys _ = []
psolve (Bind n (PVar t) sc) = do solve; psolve sc
psolve tm = return ()
pvars ist (Bind n (PVar t) sc) = (n, delab ist t) : pvars ist sc
pvars ist _ = []
getFixedInType i env (PExp _ _ _ _ : is) (Bind n (Pi _ t _) sc)
= nub $ getFixedInType i env [] t ++
getFixedInType i (n : env) is (instantiate (P Bound n t) sc)
++ case unApply t of
(P _ n _, _) -> if n `elem` env then [n] else []
_ -> []
getFixedInType i env (_ : is) (Bind n (Pi _ t _) sc)
= getFixedInType i (n : env) is (instantiate (P Bound n t) sc)
getFixedInType i env is tm@(App _ f a)
| (P _ tn _, args) <- unApply tm
= case lookupCtxtExact tn (idris_datatypes i) of
Just t -> nub $ paramNames args env (param_pos t) ++
getFixedInType i env is f ++
getFixedInType i env is a
Nothing -> nub $ getFixedInType i env is f ++
getFixedInType i env is a
| otherwise = nub $ getFixedInType i env is f ++
getFixedInType i env is a
getFixedInType i _ _ _ = []
getFlexInType i env ps (Bind n (Pi _ t _) sc)
= nub $ (if (not (n `elem` ps)) then getFlexInType i env ps t else []) ++
getFlexInType i (n : env) ps (instantiate (P Bound n t) sc)
getFlexInType i env ps tm@(App _ f a)
| (P nt tn _, args) <- unApply tm, nt /= Bound
= case lookupCtxtExact tn (idris_datatypes i) of
Just t -> nub $ paramNames args env [x | x <- [0..length args],
not (x `elem` param_pos t)]
++ getFlexInType i env ps f ++
getFlexInType i env ps a
Nothing -> let ppos = case lookupCtxtExact tn (idris_fninfo i) of
Just fi -> fn_params fi
Nothing -> []
in nub $ paramNames args env [x | x <- [0..length args],
not (x `elem` ppos)]
++ getFlexInType i env ps f ++
getFlexInType i env ps a
| otherwise = nub $ getFlexInType i env ps f ++
getFlexInType i env ps a
getFlexInType i _ _ _ = []
getParamsInType :: IState -> [Name] -> [PArg] -> Type -> [Name]
getParamsInType i env ps t = let fix = getFixedInType i env ps t
flex = getFlexInType i env fix t in
[x | x <- fix, not (x `elem` flex)]
getTCinj i (Bind n (Pi _ t _) sc)
= getTCinj i t ++ getTCinj i (instantiate (P Bound n t) sc)
getTCinj i ap@(App _ f a)
| (P _ n _, args) <- unApply ap,
isTCName n = mapMaybe getInjName args
| otherwise = []
where
isTCName n = case lookupCtxtExact n (idris_classes i) of
Just _ -> True
_ -> False
getInjName t | (P _ x _, _) <- unApply t = Just x
| otherwise = Nothing
getTCinj _ _ = []
getTCParamsInType :: IState -> [Name] -> [PArg] -> Type -> [Name]
getTCParamsInType i env ps t = let params = getParamsInType i env ps t
tcs = nub $ getTCinj i t in
filter (flip elem tcs) params
paramNames args env [] = []
paramNames args env (p : ps)
| length args > p = case args!!p of
P _ n _ -> if n `elem` env
then n : paramNames args env ps
else paramNames args env ps
_ -> paramNames args env ps
| otherwise = paramNames args env ps
getUniqueUsed :: Context -> Term -> [Name]
getUniqueUsed ctxt tm = execState (getUniq [] [] tm) []
where
getUniq :: Env -> [(Name, Bool)] -> Term -> State [Name] ()
getUniq env us (Bind n b sc)
= let uniq = case check ctxt env (forgetEnv (map fst env) (binderTy b)) of
OK (_, UType UniqueType) -> True
OK (_, UType NullType) -> True
OK (_, UType AllTypes) -> True
_ -> False in
do getUniqB env us b
getUniq ((n,b):env) ((n, uniq):us) sc
getUniq env us (App _ f a) = do getUniq env us f; getUniq env us a
getUniq env us (V i)
| i < length us = if snd (us!!i) then use (fst (us!!i)) else return ()
getUniq env us (P _ n _)
| Just u <- lookup n us = if u then use n else return ()
getUniq env us _ = return ()
use n = do ns <- get; put (n : ns)
getUniqB env us (Let t v) = getUniq env us v
getUniqB env us (Guess t v) = getUniq env us v
getUniqB env us (NLet t v) = getUniq env us v
getUniqB env us b = return ()
getStaticNames :: IState -> Term -> [Name]
getStaticNames ist (Bind n (PVar _) sc)
= getStaticNames ist (instantiate (P Bound n Erased) sc)
getStaticNames ist tm
| (P _ fn _, args) <- unApply tm
= case lookupCtxtExact fn (idris_statics ist) of
Just stpos -> getStatics args stpos
_ -> []
where
getStatics (P _ n _ : as) (True : ss) = n : getStatics as ss
getStatics (_ : as) (_ : ss) = getStatics as ss
getStatics _ _ = []
getStaticNames _ _ = []
getStatics :: [Name] -> Term -> [Bool]
getStatics ns (Bind n (Pi _ _ _) t)
| n `elem` ns = True : getStatics ns t
| otherwise = False : getStatics ns t
getStatics _ _ = []
mkStatic :: [Name] -> PDecl -> PDecl
mkStatic ns (PTy doc argdocs syn fc o n nfc ty)
= PTy doc argdocs syn fc o n nfc (mkStaticTy ns ty)
mkStatic ns t = t
mkStaticTy :: [Name] -> PTerm -> PTerm
mkStaticTy ns (PPi p n fc ty sc)
| n `elem` ns = PPi (p { pstatic = Static }) n fc ty (mkStaticTy ns sc)
| otherwise = PPi p n fc ty (mkStaticTy ns sc)
mkStaticTy ns t = t
checkVisibility :: FC -> Name -> Accessibility -> Accessibility -> Name -> Idris ()
checkVisibility fc n minAcc acc ref
= do nvis <- getFromHideList ref
case nvis of
Nothing -> return ()
Just acc' -> if acc' > minAcc
then tclift $ tfail (At fc
(Msg $ show acc ++ " " ++ show n ++
" can't refer to " ++
show acc' ++ " " ++ show ref))
else return ()
findParams :: Name
-> [Type]
-> [Int]
findParams tyn ts =
let allapps = map getDataApp ts
conParams = map paramPos allapps
in inAll conParams
where
inAll :: [[Int]] -> [Int]
inAll [] = []
inAll (x : xs) = filter (\p -> all (\ps -> p `elem` ps) xs) x
paramPos [] = []
paramPos (args : rest)
= dropNothing $ keepSame (zip [0..] args) rest
dropNothing [] = []
dropNothing ((x, Nothing) : ts) = dropNothing ts
dropNothing ((x, _) : ts) = x : dropNothing ts
keepSame :: [(Int, Maybe Name)] -> [[Maybe Name]] ->
[(Int, Maybe Name)]
keepSame as [] = as
keepSame as (args : rest) = keepSame (update as args) rest
where
update [] _ = []
update _ [] = []
update ((n, Just x) : as) (Just x' : args)
| x == x' = (n, Just x) : update as args
update ((n, _) : as) (_ : args) = (n, Nothing) : update as args
getDataApp :: Type -> [[Maybe Name]]
getDataApp f@(App _ _ _)
| (P _ d _, args) <- unApply f
= if (d == tyn) then [mParam args args] else []
getDataApp (Bind n (Pi _ t _) sc)
= getDataApp t ++ getDataApp (instantiate (P Bound n t) sc)
getDataApp _ = []
mParam args [] = []
mParam args (P Bound n _ : rest)
| count n args == 1
= Just n : mParam args rest
where count n [] = 0
count n (t : ts)
| n `elem` freeNames t = 1 + count n ts
| otherwise = count n ts
mParam args (_ : rest) = Nothing : mParam args rest
setDetaggable :: Name -> Idris ()
setDetaggable n = do
ist <- getIState
let opt = idris_optimisation ist
case lookupCtxt n opt of
[oi] -> putIState ist { idris_optimisation = addDef n oi { detaggable = True } opt }
_ -> putIState ist { idris_optimisation = addDef n (Optimise [] True) opt }