{-# LANGUAGE PatternGuards #-} module Idris.Elab.Provider(elabProvider) where import Idris.AbsSyntax import Idris.ASTUtils import Idris.DSL import Idris.Error import Idris.Delaborate import Idris.Imports 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) import IRTS.Lang import Idris.Elab.Type import Idris.Elab.Clause import Idris.Elab.Value import Idris.Elab.Utils import Idris.Elab.Term 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 Util.Pretty(pretty, text) -- | Elaborate a type provider elabProvider :: Docstring (Either Err PTerm) -> ElabInfo -> SyntaxInfo -> FC -> FC -> ProvideWhat -> Name -> Idris () elabProvider doc info syn fc nfc what n = do i <- getIState -- Ensure that the experimental extension is enabled unless (TypeProviders `elem` idris_language_extensions i) $ ifail $ "Failed to define type provider \"" ++ show n ++ "\".\nYou must turn on the TypeProviders extension." ctxt <- getContext -- First elaborate the expected type (and check that it's a type) -- The goal type for a postulate is always Type. (ty', typ) <- case what of ProvTerm ty p -> elabVal info ERHS ty ProvPostulate _ -> elabVal info ERHS (PType fc) unless (isTType typ) $ ifail ("Expected a type, got " ++ show ty' ++ " : " ++ show typ) -- Elaborate the provider term to TT and check that the type matches (e, et) <- case what of ProvTerm _ tm -> elabVal info ERHS tm ProvPostulate tm -> elabVal info ERHS tm unless (isProviderOf ctxt ty' et) $ ifail $ "Expected provider type " ++ show (providerOf ty') ++ ", got " ++ show et ++ " instead." -- Execute the type provider and normalise the result -- use 'run__provider' to convert to a primitive IO action rhs <- execute (mkApp (P Ref (sUN "run__provider") Erased) [Erased, e]) let rhs' = normalise ctxt [] rhs logLvl 3 $ "Normalised " ++ show n ++ "'s RHS to " ++ show rhs -- Extract the provided term or postulate from the type provider provided <- getProvided fc rhs' case provided of Provide tm | ProvTerm ty _ <- what -> do -- Finally add a top-level definition of the provided term elabType info syn doc [] fc [] n NoFC ty elabClauses info fc [] n [PClause fc n (PApp fc (PRef fc [] n) []) [] (delab i tm) []] logLvl 3 $ "Elaborated provider " ++ show n ++ " as: " ++ show tm | ProvPostulate _ <- what -> do -- Add the postulate elabPostulate info syn doc fc nfc [] n (delab i tm) logLvl 3 $ "Elaborated provided postulate " ++ show n | otherwise -> ierror . Msg $ "Attempted to provide a postulate where a term was expected." where isTType :: TT Name -> Bool isTType (TType _) = True isTType _ = False -- Note: IO (Providers.Provider ty) is used instead of IO' -- (MkFFI C_FFI) (Providers.Provider ty) in hopes of better -- error messages with less normalisation providerOf :: Type -> Type providerOf ty = App Complete (P Ref (sUN "IO") Erased) $ App Complete (P Ref (sNS (sUN "Provider") ["Providers", "Prelude"]) Erased) ty isProviderOf :: Context -> TT Name -> TT Name -> Bool isProviderOf ctxt tp prov = case converts ctxt [] (providerOf tp) prov of OK _ -> True _ -> False