{-# LANGUAGE DeriveGeneric #-}
module Cryptol.ModuleSystem.Exports where
import Data.Set(Set)
import qualified Data.Set as Set
import Data.Foldable(fold)
import Control.DeepSeq(NFData)
import GHC.Generics (Generic)
import Cryptol.Parser.AST
import Cryptol.Parser.Names
modExports :: Ord name => Module name -> ExportSpec name
modExports m = fold (concat [ exportedNames d | d <- mDecls m ])
where
names by td = [ td { tlValue = thing n } | n <- fst (by (tlValue td)) ]
exportedNames (Decl td) = map exportBind (names namesD td)
++ map exportType (names tnamesD td)
exportedNames (DPrimType t) = [ exportType (thing . primTName <$> t) ]
exportedNames (TDNewtype nt) = map exportType (names tnamesNT nt)
exportedNames (Include {}) = []
exportedNames (DParameterFun {}) = []
exportedNames (DParameterType {}) = []
exportedNames (DParameterConstraint {}) = []
data ExportSpec name = ExportSpec { eTypes :: Set name
, eBinds :: Set name
} deriving (Show, Generic)
instance NFData name => NFData (ExportSpec name)
instance Ord name => Semigroup (ExportSpec name) where
l <> r = ExportSpec { eTypes = eTypes l <> eTypes r
, eBinds = eBinds l <> eBinds r
}
instance Ord name => Monoid (ExportSpec name) where
mempty = ExportSpec { eTypes = mempty, eBinds = mempty }
mappend = (<>)
exportBind :: Ord name => TopLevel name -> ExportSpec name
exportBind n
| tlExport n == Public = mempty { eBinds = Set.singleton (tlValue n) }
| otherwise = mempty
exportType :: Ord name => TopLevel name -> ExportSpec name
exportType n
| tlExport n == Public = mempty { eTypes = Set.singleton (tlValue n) }
| otherwise = mempty
isExportedBind :: Ord name => name -> ExportSpec name -> Bool
isExportedBind n = Set.member n . eBinds
isExportedType :: Ord name => name -> ExportSpec name -> Bool
isExportedType n = Set.member n . eTypes