module Control.App import Data.IORef %default covering ||| `Error` is a type synonym for `Type`, specify for exception handling. public export Error : Type Error = Type public export data HasErr : Error -> List Error -> Type where Here : HasErr e (e :: es) There : HasErr e es -> HasErr e (e' :: es) ||| States whether the program's execution path is linear or might throw exceptions so that we can know ||| whether it is safe to reference linear resources. public export data Path = MayThrow | NoThrow public export data Usage = One | Any public export 0 Has : List (a -> Type) -> a -> Type Has [] es = () Has [e] es = e es Has (e :: es') es = (e es, Has es' es) data OneOf : List Type -> Path -> Type where First : e -> OneOf (e :: es) MayThrow Later : OneOf es MayThrow -> OneOf (e :: es) MayThrow public export data SafeBind : Path -> (l' : Path) -> Type where [search l'] SafeSame : SafeBind l l SafeToThrow : SafeBind NoThrow MayThrow updateP : SafeBind p p' => OneOf es p -> OneOf es p' updateP @{SafeSame} x = x updateP @{SafeToThrow} x impossible Uninhabited (OneOf [] p) where uninhabited (First x) impossible uninhabited (Later x) impossible Uninhabited (OneOf es NoThrow) where uninhabited (First x) impossible uninhabited (Later x) impossible 0 execTy : Path -> List Error -> Type -> Type execTy p es ty = Either (OneOf es p) ty data AppRes : Type -> Type where MkAppRes : (result : a) -> (1 x : %World) -> AppRes a data App1Res : Usage -> Type -> Type where MkApp1Res1 : (1 result : a) -> (1 x : %World) -> App1Res One a MkApp1ResW : (result : a) -> (1 x : %World) -> App1Res Any a PrimApp : Type -> Type PrimApp a = (1 x : %World) -> AppRes a prim_app_pure : a -> PrimApp a prim_app_pure = MkAppRes prim_app_bind : (1 act : PrimApp a) -> (1 k : a -> PrimApp b) -> PrimApp b prim_app_bind fn k w = let MkAppRes x' w' = fn w in k x' w' toPrimApp : (1 act : IO a) -> PrimApp a toPrimApp x = \w => case toPrim x w of MkIORes r w => MkAppRes r w PrimApp1 : Usage -> Type -> Type PrimApp1 u a = (1 x : %World) -> App1Res u a toPrimApp1 : {u : _} -> (1 act : IO a) -> PrimApp1 u a toPrimApp1 x = \w => case toPrim x w of MkIORes r w => case u of One => MkApp1Res1 r w Any => MkApp1ResW r w prim_app1_bind : (1 act : PrimApp1 Any a) -> (1 k : a -> PrimApp1 u b) -> PrimApp1 u b prim_app1_bind fn k w = let MkApp1ResW x' w' = fn w in k x' w' ||| A type supports throwing and catching exceptions. See `interface Exception err e` for details. ||| @ l An implicit Path states whether the program's execution path is linear or might throw ||| exceptions. The default value is `MayThrow` which represents that the program might throw. ||| @ es A list of exception types that can be thrown. Constrained interfaces can be defined by ||| parameterising with a list of errors `es`. export data App : {default MayThrow l : Path} -> (es : List Error) -> Type -> Type where MkApp : (1 prog : (1 w : %World) -> AppRes (execTy l e t)) -> App {l} e t export data App1 : {default One u : Usage} -> (es : List Error) -> Type -> Type where MkApp1 : (1 prog : (1 w : %World) -> App1Res u t) -> App1 {u} e t bindApp : SafeBind l l' => App {l} e a -> (a -> App {l=l'} e b) -> App {l=l'} e b bindApp (MkApp prog) next = MkApp $ \world => let MkAppRes x' world' = prog world in case x' of Right res => let MkApp r = next res in r world' Left err => MkAppRes (Left (updateP err)) world' public export Cont1Type : Usage -> Type -> Usage -> List Error -> Type -> Type Cont1Type One a u e b = (1 x : a) -> App1 {u} e b Cont1Type Any a u e b = (x : a) -> App1 {u} e b export bindApp1 : {u : _} -> (1 act : App1 {u} e a) -> (1 k : Cont1Type u a u' e b) -> App1 {u=u'} e b bindApp1 {u=One} (MkApp1 fn) = \k => MkApp1 (\w => let MkApp1Res1 x' w' = fn w MkApp1 res = k x' in res w') bindApp1 {u=Any} (MkApp1 fn) = \k => MkApp1 (\w => let MkApp1ResW x' w' = fn w MkApp1 res = k x' in res w') ||| When type is present in app "errors" list, app is allowed to perform I/O. public export data AppHasIO : Type where public export Uninhabited AppHasIO where uninhabited _ impossible absurdWith1 : (1 w : b) -> OneOf e NoThrow -> any absurdWith1 w (First p) impossible absurdWithAppHasIO : (1 w : b) -> OneOf [AppHasIO] t -> any absurdWithAppHasIO w (First p) impossible absurdWith2 : (1 x : a) -> (1 w : b) -> OneOf e NoThrow -> any absurdWith2 x w (First p) impossible export bindL : App {l=NoThrow} e a -> (1 k : a -> App {l} e b) -> App {l} e b bindL (MkApp prog) next = MkApp $ \world => let MkAppRes x' world' = prog world in case x' of Right res => let MkApp r = next res in r world' Left err => absurdWith2 next world' err export app : (1 p : App {l=NoThrow} e a) -> App1 {u=Any} e a app (MkApp prog) = MkApp1 $ \world => let MkAppRes x' world' = prog world in case x' of Left err => absurdWith1 world' err Right res => MkApp1ResW res world' export app1 : (1 p : App1 {u=Any} e a) -> App {l} e a app1 (MkApp1 prog) = MkApp $ \world => let MkApp1ResW x' world' = prog world in MkAppRes (Right x') world' pureApp : a -> App {l} e a pureApp x = MkApp $ MkAppRes (Right x) export Functor (App {l} es) where map f ap = bindApp ap $ \ap' => pureApp (f ap') export Applicative (App {l} es) where pure = pureApp (<*>) f a = bindApp f $ \f' => bindApp a $ \a' => pure (f' a') export Monad (App es) where (>>=) = bindApp -- won't get used, but handy to have the instance export (>>=) : SafeBind l l' => App {l} e a -> (k : a -> App {l=l'} e b) -> App {l=l'} e b (>>=) = bindApp namespace App1 export (>>=) : {u : _} -> (1 act : App1 {u} e a) -> (1 k : Cont1Type u a u' e b) -> App1 {u=u'} e b (>>=) = bindApp1 delay : {u_act : _} -> (1 _ : App1 {u=u_k} e b) -> Cont1Type u_act () u_k e b delay mb = case u_act of One => \ () => mb Any => \ _ => mb export %inline (>>) : {u_act : _} -> (1 _ : App1 {u=u_act} e ()) -> (1 _ : App1 {u=u_k} e b) -> App1 {u=u_k} e b ma >> mb = ma >>= delay mb export pure : (x : a) -> App1 {u=Any} e a pure x = MkApp1 $ MkApp1ResW x export pure1 : (1 x : a) -> App1 e a pure1 x = MkApp1 $ MkApp1Res1 x export data State : (tag : a) -> Type -> List Error -> Type where [search tag] MkState : IORef t -> State tag t e %hint export mapState : State tag t e -> State tag t (eff :: e) mapState (MkState s) = MkState s export get : (0 tag : _) -> State tag t e => App {l} e t get tag @{MkState r} = MkApp $ prim_app_bind (toPrimApp $ readIORef r) $ \val => MkAppRes (Right val) export put : (0 tag : _) -> State tag t e => (val : t) -> App {l} e () put tag @{MkState r} val = MkApp $ prim_app_bind (toPrimApp $ writeIORef r val) $ \val => MkAppRes (Right ()) export modify : (0 tag : _) -> State tag t e => (p : t -> t) -> App {l} e () modify tag f = let (>>=) = bindL in do x <- get tag put tag (f x) export new : t -> (p : State tag t e => App {l} e a) -> App {l} e a new val prog = MkApp $ prim_app_bind (toPrimApp $ newIORef val) $ \ref => let st = MkState ref MkApp res = prog @{st} in res ||| An alias for `HasErr`. public export Exception : Error -> List Error -> Type Exception = HasErr findException : HasErr e es -> e -> OneOf es MayThrow findException Here err = First err findException (There p) err = Later $ findException p err findError : HasErr e es -> OneOf es MayThrow -> Maybe e findError Here (First err) = Just err findError (There p) (Later q) = findError p q findError _ _ = Nothing export throw : HasErr err es => err -> App es a throw err = MkApp $ MkAppRes (Left (findException %search err)) export catch : HasErr err es => App es a -> (err -> App es a) -> App es a catch (MkApp prog) handler = MkApp $ prim_app_bind prog $ \res => case res of Left err => case findError %search err of Nothing => MkAppRes (Left err) Just err' => let MkApp e' = handler err' in e' Right ok => MkAppRes (Right ok) export handle : App (err :: e) a -> (onok : a -> App e b) -> (onerr : err -> App e b) -> App e b handle (MkApp prog) onok onerr = MkApp $ prim_app_bind prog $ \res => case res of Left (First err) => let MkApp err' = onerr err in err' Left (Later p) => -- different exception, so rethrow MkAppRes (Left p) Right ok => let MkApp ok' = onok ok in ok' export lift : App e a -> App (err :: e) a lift (MkApp prog) = MkApp $ prim_app_bind prog $ \res => case res of Left err => MkAppRes (Left (Later err)) Right ok => MkAppRes (Right ok) public export Init : List Error Init = [AppHasIO] ||| The only way provided by `Control.App` to run an App. ||| @ Init A concrete list of errors. export run : App {l} Init a -> IO a run (MkApp prog) = primIO $ \w => case (prim_app_bind prog $ \r => case r of Right res => MkAppRes res Left (First err) => absurd err) w of MkAppRes r w => MkIORes r w export noThrow : App Init a -> App Init {l=NoThrow} a noThrow (MkApp prog) = MkApp $ \w => case prog w of MkAppRes (Left err) w => absurdWithAppHasIO w err MkAppRes (Right res) w => MkAppRes (Right res) w public export interface PrimIO e where primIO : IO a -> App {l} e a primIO1 : (1 act : IO a) -> App1 e a -- fork starts a new environment, so that any existing state can't get -- passed to it (since it'll be tagged with the wrong environment) fork : (forall e' . PrimIO e' => App {l} e' ()) -> App e () export HasErr AppHasIO e => PrimIO e where primIO op = MkApp $ \w => let MkAppRes r w = toPrimApp op w in MkAppRes (Right r) w primIO1 op = MkApp1 $ toPrimApp1 op fork thread = MkApp $ prim_app_bind (toPrimApp $ Prelude.fork $ do run thread pure ()) $ \_ => MkAppRes (Right ()) export new1 : t -> (1 p : State tag t e => App1 {u} e a) -> App1 {u} e a new1 val prog = MkApp1 $ prim_app1_bind (toPrimApp1 $ newIORef val) $ \ref => let st = MkState ref MkApp1 res = prog @{st} in res public export data FileEx = GenericFileEx Int -- errno | FileReadError | FileWriteError | FileNotFound | PermissionDenied | FileExists export Show FileEx where show (GenericFileEx errno) = "File error: " ++ show errno show FileReadError = "File Read Error" show FileWriteError = "File Write Error" show FileNotFound = "File Not Found" show PermissionDenied = "Permission Denied" show FileExists = "File Exists" public export data IOError = GenericErr String | FileErr FileEx export Show IOError where show (GenericErr str) = "IO error: " ++ str show (FileErr f) = "File error: " ++ show f