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TypeChecker.hs
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TypeChecker.hs
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{-# LANGUAGE TupleSections #-}
module TypeChecker where
import Control.Applicative hiding (empty)
import Control.Monad
import Control.Monad.Except
import Control.Monad.Reader
import Data.Map (Map,(!),mapWithKey,assocs,filterWithKey,elems,keys
,intersection,intersectionWith,intersectionWithKey
,toList,fromList)
import qualified Data.Map as Map
import qualified Data.Traversable as T
import Connections
import CTT
import Eval
-- Type checking monad
type Typing a = ReaderT TEnv (ExceptT String IO) a
-- Environment for type checker
data TEnv =
TEnv { names :: [String] -- generated names
, indent :: Int
, env :: Env
, verbose :: Bool -- Should it be verbose and print what it typechecks?
} deriving (Eq)
verboseEnv, silentEnv :: TEnv
verboseEnv = TEnv [] 0 emptyEnv True
silentEnv = TEnv [] 0 emptyEnv False
-- Trace function that depends on the verbosity flag
trace :: String -> Typing ()
trace s = do
b <- asks verbose
when b $ liftIO (putStrLn s)
-------------------------------------------------------------------------------
-- | Functions for running computations in the type checker monad
runTyping :: TEnv -> Typing a -> IO (Either String a)
runTyping env t = runExceptT $ runReaderT t env
runDecls :: TEnv -> Decls -> IO (Either String TEnv)
runDecls tenv d = runTyping tenv $ do
checkDecls d
return $ addDecls d tenv
runDeclss :: TEnv -> [Decls] -> IO (Maybe String,TEnv)
runDeclss tenv [] = return (Nothing, tenv)
runDeclss tenv (d:ds) = do
x <- runDecls tenv d
case x of
Right tenv' -> runDeclss tenv' ds
Left s -> return (Just s, tenv)
runInfer :: TEnv -> Ter -> IO (Either String Val)
runInfer lenv e = runTyping lenv (infer e)
-------------------------------------------------------------------------------
-- | Modifiers for the environment
addTypeVal :: (Ident,Val) -> TEnv -> TEnv
addTypeVal (x,a) (TEnv ns ind rho v) =
let w@(VVar n _) = mkVarNice ns x a
in TEnv (n:ns) ind (upd (x,w) rho) v
addSub :: (Name,Formula) -> TEnv -> TEnv
addSub iphi (TEnv ns ind rho v) = TEnv ns ind (sub iphi rho) v
addSubs :: [(Name,Formula)] -> TEnv -> TEnv
addSubs = flip $ foldr addSub
addType :: (Ident,Ter) -> TEnv -> TEnv
addType (x,a) tenv@(TEnv _ _ rho _) = addTypeVal (x,eval rho a) tenv
addBranch :: [(Ident,Val)] -> Env -> TEnv -> TEnv
addBranch nvs env (TEnv ns ind rho v) =
TEnv ([n | (_,VVar n _) <- nvs] ++ ns) ind (upds nvs rho) v
addDecls :: Decls -> TEnv -> TEnv
addDecls d (TEnv ns ind rho v) = TEnv ns ind (def d rho) v
addTele :: Tele -> TEnv -> TEnv
addTele xas lenv = foldl (flip addType) lenv xas
faceEnv :: Face -> TEnv -> TEnv
faceEnv alpha tenv = tenv{env=env tenv `face` alpha}
-------------------------------------------------------------------------------
-- | Various useful functions
-- Extract the type of a label as a closure
getLblType :: LIdent -> Val -> Typing (Tele, Env)
getLblType c (Ter (Sum _ _ cas) r) = case lookupLabel c cas of
Just as -> return (as,r)
Nothing -> throwError ("getLblType: " ++ show c ++ " in " ++ show cas)
getLblType c (Ter (HSum _ _ cas) r) = case lookupLabel c cas of
Just as -> return (as,r)
Nothing -> throwError ("getLblType: " ++ show c ++ " in " ++ show cas)
getLblType c u = throwError ("expected a data type for the constructor "
++ c ++ " but got " ++ show u)
-- Monadic version of unless
unlessM :: Monad m => m Bool -> m () -> m ()
unlessM mb x = mb >>= flip unless x
mkVars :: [String] -> Tele -> Env -> [(Ident,Val)]
mkVars _ [] _ = []
mkVars ns ((x,a):xas) nu =
let w@(VVar n _) = mkVarNice ns x (eval nu a)
in (x,w) : mkVars (n:ns) xas (upd (x,w) nu)
-- Test if two values are convertible
(===) :: Convertible a => a -> a -> Typing Bool
u === v = conv <$> asks names <*> pure u <*> pure v
-- eval in the typing monad
evalTyping :: Ter -> Typing Val
evalTyping t = eval <$> asks env <*> pure t
-------------------------------------------------------------------------------
-- | The bidirectional type checker
-- Check that t has type a
check :: Val -> Ter -> Typing ()
check a t = case (a,t) of
(_,Undef{}) -> return ()
(_,Hole l) -> do
rho <- asks env
let e = unlines (reverse (contextOfEnv rho))
ns <- asks names
trace $ "\nHole at " ++ show l ++ ":\n\n" ++
e ++ replicate 80 '-' ++ "\n" ++ show (normal ns a) ++ "\n"
(_,Con c es) -> do
(bs,nu) <- getLblType c a
checks (bs,nu) es
(VU,Pi f) -> checkFam f
(VU,Sigma f) -> checkFam f
(VU,Sum _ _ bs) -> forM_ bs $ \lbl -> case lbl of
OLabel _ tele -> checkTele tele
PLabel _ tele is ts ->
throwError $ "check: no path constructor allowed in " ++ show t
(VU,HSum _ _ bs) -> forM_ bs $ \lbl -> case lbl of
OLabel _ tele -> checkTele tele
PLabel _ tele is ts -> do
checkTele tele
rho <- asks env
unless (all (`elem` is) (domain ts)) $
throwError "names in path label system" -- TODO
mapM_ checkFresh is
let iis = zip is (map Atom is)
local (addSubs iis . addTele tele) $ do
checkSystemWith ts $ \alpha talpha ->
local (faceEnv alpha) $
-- NB: the type doesn't depend on is
check (Ter t rho) talpha
rho' <- asks env
checkCompSystem (evalSystem rho' ts)
(VPi va@(Ter (Sum _ _ cas) nu) f,Split _ _ ty ces) -> do
check VU ty
rho <- asks env
unlessM (a === eval rho ty) $ throwError "check: split annotations"
if map labelName cas == map branchName ces
then sequence_ [ checkBranch (lbl,nu) f brc (Ter t rho) va
| (brc, lbl) <- zip ces cas ]
else throwError "case branches does not match the data type"
(VPi va@(Ter (HSum _ _ cas) nu) f,Split _ _ ty ces) -> do
check VU ty
rho <- asks env
unlessM (a === eval rho ty) $ throwError "check: split annotations"
if map labelName cas == map branchName ces
then sequence_ [ checkBranch (lbl,nu) f brc (Ter t rho) va
| (brc, lbl) <- zip ces cas ]
else throwError "case branches does not match the data type"
(VPi a f,Lam x a' t) -> do
check VU a'
ns <- asks names
rho <- asks env
unlessM (a === eval rho a') $
throwError $ "check: lam types don't match"
++ "\nlambda type annotation: " ++ show a'
++ "\ndomain of Pi: " ++ show a
++ "\nnormal form of type: " ++ show (normal ns a)
let var = mkVarNice ns x a
local (addTypeVal (x,a)) $ check (app f var) t
(VSigma a f, Pair t1 t2) -> do
check a t1
v <- evalTyping t1
check (app f v) t2
(_,Where e d) -> do
local (\tenv@TEnv{indent=i} -> tenv{indent=i + 2}) $ checkDecls d
local (addDecls d) $ check a e
(VU,PathP a e0 e1) -> do
(a0,a1) <- checkPLam (constPath VU) a
check a0 e0
check a1 e1
(VPathP p a0 a1,PLam _ e) -> do
(u0,u1) <- checkPLam p t
ns <- asks names
unless (conv ns a0 u0 && conv ns a1 u1) $
throwError $ "path endpoints don't match for " ++ show e ++ ", got " ++
show (u0,u1) ++ ", but expected " ++ show (a0,a1)
(VU,Glue a ts) -> do
check VU a
rho <- asks env
checkGlue (eval rho a) ts
(VGlue va ts,GlueElem u us) -> do
check va u
vu <- evalTyping u
checkGlueElem vu ts us
(VCompU va ves,GlueElem u us) -> do
check va u
vu <- evalTyping u
checkGlueElemU vu ves us
_ -> do
v <- infer t
unlessM (v === a) $
throwError $ "check conv:\n" ++ show v ++ "\n/=\n" ++ show a
-- Check a list of declarations
checkDecls :: Decls -> Typing ()
checkDecls (MutualDecls []) = return ()
checkDecls (MutualDecls d) = do
a <- asks env
let (idents,tele,ters) = (declIdents d,declTele d,declTers d)
ind <- asks indent
trace (replicate ind ' ' ++ "Checking: " ++ unwords idents)
checkTele tele
local (addDecls (MutualDecls d)) $ do
rho <- asks env
checks (tele,rho) ters
checkDecls (OpaqueDecl _) = return ()
checkDecls (TransparentDecl _) = return ()
checkDecls TransparentAllDecl = return ()
-- Check a telescope
checkTele :: Tele -> Typing ()
checkTele [] = return ()
checkTele ((x,a):xas) = do
check VU a
local (addType (x,a)) $ checkTele xas
-- Check a family
checkFam :: Ter -> Typing ()
checkFam (Lam x a b) = do
check VU a
local (addType (x,a)) $ check VU b
checkFam x = throwError $ "checkFam: " ++ show x
-- Check that a system is compatible
checkCompSystem :: System Val -> Typing ()
checkCompSystem vus = do
ns <- asks names
unless (isCompSystem ns vus)
(throwError $ "Incompatible system " ++ showSystem vus)
-- Check the values at corresponding faces with a function, assumes
-- systems have the same faces
checkSystemsWith :: System a -> System b -> (Face -> a -> b -> Typing c) ->
Typing ()
checkSystemsWith us vs f = sequence_ $ elems $ intersectionWithKey f us vs
-- Check the faces of a system
checkSystemWith :: System a -> (Face -> a -> Typing b) -> Typing ()
checkSystemWith us f = sequence_ $ elems $ mapWithKey f us
-- Check a glueElem
checkGlueElem :: Val -> System Val -> System Ter -> Typing ()
checkGlueElem vu ts us = do
unless (keys ts == keys us)
(throwError ("Keys don't match in " ++ show ts ++ " and " ++ show us))
rho <- asks env
checkSystemsWith ts us
(\alpha vt u -> local (faceEnv alpha) $ check (equivDom vt) u)
let vus = evalSystem rho us
checkSystemsWith ts vus (\alpha vt vAlpha ->
unlessM (app (equivFun vt) vAlpha === (vu `face` alpha)) $
throwError $ "Image of glue component " ++ show vAlpha ++
" doesn't match " ++ show vu)
checkCompSystem vus
-- Check a glueElem against VComp _ ves
checkGlueElemU :: Val -> System Val -> System Ter -> Typing ()
checkGlueElemU vu ves us = do
unless (keys ves == keys us)
(throwError ("Keys don't match in " ++ show ves ++ " and " ++ show us))
rho <- asks env
checkSystemsWith ves us
(\alpha ve u -> local (faceEnv alpha) $ check (ve @@ One) u)
let vus = evalSystem rho us
checkSystemsWith ves vus (\alpha ve vAlpha ->
unlessM (eqFun ve vAlpha === (vu `face` alpha)) $
throwError $ "Transport of glueElem (for compU) component " ++ show vAlpha ++
" doesn't match " ++ show vu)
checkCompSystem vus
checkGlue :: Val -> System Ter -> Typing ()
checkGlue va ts = do
checkSystemWith ts (\alpha tAlpha -> checkEquiv (va `face` alpha) tAlpha)
rho <- asks env
checkCompSystem (evalSystem rho ts)
-- An iso for a type b is a five-tuple: (a,f,g,s,t) where
-- a : U
-- f : a -> b
-- g : b -> a
-- s : forall (y : b), f (g y) = y
-- t : forall (x : a), g (f x) = x
mkIso :: Val -> Val
mkIso vb = eval rho $
Sigma $ Lam "a" U $
Sigma $ Lam "f" (Pi (Lam "_" a b)) $
Sigma $ Lam "g" (Pi (Lam "_" b a)) $
Sigma $ Lam "s" (Pi (Lam "y" b $ PathP (PLam (Name "_") b) (App f (App g y)) y)) $
Pi (Lam "x" a $ PathP (PLam (Name "_") a) (App g (App f x)) x)
where [a,b,f,g,x,y] = map Var ["a","b","f","g","x","y"]
rho = upd ("b",vb) emptyEnv
-- An equivalence for a type a is a triple (t,f,p) where
-- t : U
-- f : t -> a
-- p : (x : a) -> isContr ((y:t) * Id a x (f y))
-- with isContr c = (z : c) * ((z' : C) -> Id c z z')
mkEquiv :: Val -> Val
mkEquiv va = eval rho $
Sigma $ Lam "t" U $
Sigma $ Lam "f" (Pi (Lam "_" t a)) $
Pi (Lam "x" a $ iscontrfib)
where [a,b,f,x,y,s,t,z] = map Var ["a","b","f","x","y","s","t","z"]
rho = upd ("a",va) emptyEnv
fib = Sigma $ Lam "y" t (PathP (PLam (Name "_") a) x (App f y))
iscontrfib = Sigma $ Lam "s" fib $
Pi $ Lam "z" fib $ PathP (PLam (Name "_") fib) s z
checkEquiv :: Val -> Ter -> Typing ()
checkEquiv va equiv = check (mkEquiv va) equiv
checkBranch :: (Label,Env) -> Val -> Branch -> Val -> Val -> Typing ()
checkBranch (OLabel _ tele,nu) f (OBranch c ns e) _ _ = do
ns' <- asks names
let us = map snd $ mkVars ns' tele nu
local (addBranch (zip ns us) nu) $ check (app f (VCon c us)) e
checkBranch (PLabel _ tele is ts,nu) f (PBranch c ns js e) g va = do
ns' <- asks names
-- mapM_ checkFresh js
let us = mkVars ns' tele nu
vus = map snd us
js' = map Atom js
vts = evalSystem (subs (zip is js') (upds us nu)) ts
vgts = intersectionWith app (border g vts) vts
local (addSubs (zip js js') . addBranch (zip ns vus) nu) $ do
check (app f (VPCon c va vus js')) e
ve <- evalTyping e -- TODO: combine with next two lines?
let veborder = border ve vts
unlessM (veborder === vgts) $
throwError $ "Faces in branch for " ++ show c ++ " don't match:"
++ "\ngot\n" ++ showSystem veborder ++ "\nbut expected\n"
++ showSystem vgts
checkFormula :: Formula -> Typing ()
checkFormula phi = do
rho <- asks env
let dom = domainEnv rho
unless (all (`elem` dom) (support phi)) $
throwError $ "checkFormula: " ++ show phi
checkFresh :: Name -> Typing ()
checkFresh i = do
rho <- asks env
when (i `elem` support rho)
(throwError $ show i ++ " is already declared")
-- Check that a term is a PLam and output the source and target
checkPLam :: Val -> Ter -> Typing (Val,Val)
checkPLam v (PLam i a) = do
rho <- asks env
-- checkFresh i
local (addSub (i,Atom i)) $ check (v @@ i) a
return (eval (sub (i,Dir 0) rho) a,eval (sub (i,Dir 1) rho) a)
checkPLam v t = do
vt <- infer t
case vt of
VPathP a a0 a1 -> do
unlessM (a === v) $ throwError "checkPLam"
return (a0,a1)
_ -> throwError $ show vt ++ " is not a path"
-- Return system such that:
-- rhoalpha |- p_alpha : Id (va alpha) (t0 rhoalpha) ualpha
-- Moreover, check that the system ps is compatible.
checkPLamSystem :: Ter -> Val -> System Ter -> Typing (System Val)
checkPLamSystem t0 va ps = do
rho <- asks env
v <- T.sequence $ mapWithKey (\alpha pAlpha ->
local (faceEnv alpha) $ do
rhoAlpha <- asks env
(a0,a1) <- checkPLam (va `face` alpha) pAlpha
unlessM (a0 === eval rhoAlpha t0) $
throwError $ "Incompatible system " ++ showSystem ps ++
", component\n " ++ show pAlpha ++
"\nincompatible with\n " ++ show t0 ++
"\na0 = " ++ show a0 ++
"\nt0alpha = " ++ show (eval rhoAlpha t0) ++
"\nva = " ++ show va
return a1) ps
checkCompSystem (evalSystem rho ps)
return v
checks :: (Tele,Env) -> [Ter] -> Typing ()
checks ([],_) [] = return ()
checks ((x,a):xas,nu) (e:es) = do
check (eval nu a) e
v' <- evalTyping e
checks (xas,upd (x,v') nu) es
checks _ _ =
throwError "checks: incorrect number of arguments"
-- infer the type of e
infer :: Ter -> Typing Val
infer e = case e of
U -> return VU -- U : U
Var n -> lookType n <$> asks env
App t u -> do
c <- infer t
case c of
VPi a f -> do
check a u
v <- evalTyping u
return $ app f v
_ -> throwError $ show c ++ " is not a product"
Fst t -> do
c <- infer t
case c of
VSigma a f -> return a
_ -> throwError $ show c ++ " is not a sigma-type"
Snd t -> do
c <- infer t
case c of
VSigma a f -> do
v <- evalTyping t
return $ app f (fstVal v)
_ -> throwError $ show c ++ " is not a sigma-type"
Where t d -> do
checkDecls d
local (addDecls d) $ infer t
UnGlueElem e _ -> do
t <- infer e
case t of
VGlue a _ -> return a
_ -> throwError (show t ++ " is not a Glue")
AppFormula e phi -> do
checkFormula phi
t <- infer e
case t of
VPathP a _ _ -> return $ a @@ phi
_ -> throwError (show e ++ " is not a path")
Comp a t0 ps -> do
(va0, va1) <- checkPLam (constPath VU) a
va <- evalTyping a
check va0 t0
checkPLamSystem t0 va ps
return va1
Fill a t0 ps -> do
(va0, va1) <- checkPLam (constPath VU) a
va <- evalTyping a
check va0 t0
checkPLamSystem t0 va ps
vt <- evalTyping t0
rho <- asks env
let vps = evalSystem rho ps
return (VPathP va vt (compLine va vt vps))
PCon c a es phis -> do
check VU a
va <- evalTyping a
(bs,nu) <- getLblType c va
checks (bs,nu) es
mapM_ checkFormula phis
return va
_ -> throwError ("infer " ++ show e)
-- Not used since we have U : U
--
-- (=?=) :: Typing Ter -> Ter -> Typing ()
-- m =?= s2 = do
-- s1 <- m
-- unless (s1 == s2) $ throwError (show s1 ++ " =/= " ++ show s2)
--
-- checkTs :: [(String,Ter)] -> Typing ()
-- checkTs [] = return ()
-- checkTs ((x,a):xas) = do
-- checkType a
-- local (addType (x,a)) (checkTs xas)
--
-- checkType :: Ter -> Typing ()
-- checkType t = case t of
-- U -> return ()
-- Pi a (Lam x b) -> do
-- checkType a
-- local (addType (x,a)) (checkType b)
-- _ -> infer t =?= U