purescript-0.15.15: src/Language/PureScript/AST/Exported.hs
module Language.PureScript.AST.Exported
( exportedDeclarations
, isExported
) where
import Prelude
import Protolude (sortOn)
import Control.Category ((>>>))
import Control.Applicative ((<|>))
import Data.Maybe (mapMaybe)
import Data.Map qualified as M
import Language.PureScript.AST.Declarations (DataConstructorDeclaration(..), Declaration(..), DeclarationRef(..), Module(..), declName, declRefName, flattenDecls)
import Language.PureScript.Types (Constraint(..), Type(..), everythingOnTypes)
import Language.PureScript.Names (ModuleName, Name(..), ProperName, ProperNameType(..), Qualified, coerceProperName, disqualify, isQualified, isQualifiedWith)
-- |
-- Return a list of all declarations which are exported from a module.
-- This function descends into data declarations to filter out unexported
-- data constructors, and also filters out type instance declarations if
-- they refer to classes or types which are not themselves exported.
--
-- Note that this function assumes that the module has already had its imports
-- desugared using 'Language.PureScript.Sugar.Names.desugarImports'. It will
-- produce incorrect results if this is not the case - for example, type class
-- instances will be incorrectly removed in some cases.
--
-- The returned declarations are in the same order as they appear in the export
-- list, unless there is no export list, in which case they appear in the same
-- order as they do in the source file.
--
-- Kind signatures declarations are also exported if their associated
-- declaration is exported.
exportedDeclarations :: Module -> [Declaration]
exportedDeclarations (Module _ _ mn decls exps) = go decls
where
go = flattenDecls
>>> filter (isExported exps)
>>> map (filterDataConstructors exps)
>>> filterInstances mn exps
>>> maybe id reorder exps
-- |
-- Filter out all data constructors from a declaration which are not exported.
-- If the supplied declaration is not a data declaration, this function returns
-- it unchanged.
--
filterDataConstructors :: Maybe [DeclarationRef] -> Declaration -> Declaration
filterDataConstructors exps (DataDeclaration sa dType tyName tyArgs dctors) =
DataDeclaration sa dType tyName tyArgs $
filter (isDctorExported tyName exps . dataCtorName) dctors
filterDataConstructors _ other = other
-- |
-- Filter out all the type instances from a list of declarations which
-- reference a type or type class which is both local and not exported.
--
-- Note that this function assumes that the module has already had its imports
-- desugared using "Language.PureScript.Sugar.Names.desugarImports". It will
-- produce incorrect results if this is not the case - for example, type class
-- instances will be incorrectly removed in some cases.
--
filterInstances
:: ModuleName
-> Maybe [DeclarationRef]
-> [Declaration]
-> [Declaration]
filterInstances _ Nothing = id
filterInstances mn (Just exps) =
let refs = Left `map` mapMaybe typeClassName exps
++ Right `map` mapMaybe typeName exps
in filter (all (visibleOutside refs) . typeInstanceConstituents)
where
-- Given a Qualified ProperName, and a list of all exported types and type
-- classes, returns whether the supplied Qualified ProperName is visible
-- outside this module. This is true if one of the following hold:
--
-- * the name is defined in the same module and is exported,
-- * the name is defined in a different module (and must be exported from
-- that module; the code would fail to compile otherwise).
visibleOutside
:: [Either (ProperName 'ClassName) (ProperName 'TypeName)]
-> Either (Qualified (ProperName 'ClassName)) (Qualified (ProperName 'TypeName))
-> Bool
visibleOutside refs q
| either checkQual checkQual q = True
| otherwise = either (Left . disqualify) (Right . disqualify) q `elem` refs
-- Check that a qualified name is qualified for a different module
checkQual :: Qualified a -> Bool
checkQual q = isQualified q && not (isQualifiedWith mn q)
typeName :: DeclarationRef -> Maybe (ProperName 'TypeName)
typeName (TypeRef _ n _) = Just n
typeName _ = Nothing
typeClassName :: DeclarationRef -> Maybe (ProperName 'ClassName)
typeClassName (TypeClassRef _ n) = Just n
typeClassName _ = Nothing
-- |
-- Get all type and type class names referenced by a type instance declaration.
--
typeInstanceConstituents :: Declaration -> [Either (Qualified (ProperName 'ClassName)) (Qualified (ProperName 'TypeName))]
typeInstanceConstituents (TypeInstanceDeclaration _ _ _ _ _ constraints className tys _) =
Left className : (concatMap fromConstraint constraints ++ concatMap fromType tys)
where
fromConstraint c = Left (constraintClass c) : concatMap fromType (constraintArgs c)
fromType = everythingOnTypes (++) go
-- Note that type synonyms are disallowed in instance declarations, so
-- we don't need to handle them here.
go (TypeConstructor _ n) = [Right n]
go (ConstrainedType _ c _) = fromConstraint c
go _ = []
typeInstanceConstituents _ = []
-- |
-- Test if a declaration is exported, given a module's export list. Note that
-- this function does not account for type instance declarations of
-- non-exported types, or non-exported data constructors. Therefore, you should
-- prefer 'exportedDeclarations' to this function, where possible.
--
isExported :: Maybe [DeclarationRef] -> Declaration -> Bool
isExported Nothing _ = True
isExported _ TypeInstanceDeclaration{} = True
isExported (Just exps) (KindDeclaration _ _ n _) = any matches exps
where
matches declRef = do
let refName = declRefName declRef
TyName n == refName || TyClassName (tyToClassName n) == refName
isExported (Just exps) decl = any matches exps
where
matches declRef = declName decl == Just (declRefName declRef)
-- |
-- Test if a data constructor for a given type is exported, given a module's
-- export list. Prefer 'exportedDeclarations' to this function, where possible.
--
isDctorExported :: ProperName 'TypeName -> Maybe [DeclarationRef] -> ProperName 'ConstructorName -> Bool
isDctorExported _ Nothing _ = True
isDctorExported ident (Just exps) ctor = test `any` exps
where
test (TypeRef _ ident' Nothing) = ident == ident'
test (TypeRef _ ident' (Just ctors)) = ident == ident' && ctor `elem` ctors
test _ = False
-- |
-- Reorder declarations based on the order they appear in the given export
-- list.
--
reorder :: [DeclarationRef] -> [Declaration] -> [Declaration]
reorder refs =
sortOn refIndex
where
refIndices =
M.fromList $ zip (map declRefName refs) [(0::Int)..]
refIndex = \case
KindDeclaration _ _ n _ ->
M.lookup (TyName n) refIndices <|> M.lookup (TyClassName (tyToClassName n)) refIndices
decl -> declName decl >>= flip M.lookup refIndices
-- |
-- Workaround to the fact that a `KindDeclaration`'s name's `ProperNameType`
-- isn't the same as the corresponding `TypeClassDeclaration`'s `ProperNameType`
tyToClassName :: ProperName 'TypeName -> ProperName 'ClassName
tyToClassName = coerceProperName