{-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE LambdaCase #-} -- | -- Data types for modules and declarations -- module Language.PureScript.AST.Declarations where import Prelude () import Prelude.Compat import Data.Aeson.TH import Data.List (nub, (\\)) import Data.Maybe (mapMaybe) import qualified Data.Map as M import Control.Monad.Identity import Language.PureScript.AST.Binders import Language.PureScript.AST.Operators import Language.PureScript.AST.SourcePos import Language.PureScript.Types import Language.PureScript.Names import Language.PureScript.Kinds import Language.PureScript.TypeClassDictionaries import Language.PureScript.Comments import Language.PureScript.Environment -- | -- A module declaration, consisting of comments about the module, a module name, -- a list of declarations, and a list of the declarations that are -- explicitly exported. If the export list is Nothing, everything is exported. -- data Module = Module SourceSpan [Comment] ModuleName [Declaration] (Maybe [DeclarationRef]) deriving (Show, Read) -- | Return a module's name. getModuleName :: Module -> ModuleName getModuleName (Module _ _ name _ _) = name -- | -- Add an import declaration for a module if it does not already explicitly import it. -- addDefaultImport :: ModuleName -> Module -> Module addDefaultImport toImport m@(Module ss coms mn decls exps) = if isExistingImport `any` decls || mn == toImport then m else Module ss coms mn (ImportDeclaration toImport Implicit Nothing False : decls) exps where isExistingImport (ImportDeclaration mn' _ _ _) | mn' == toImport = True isExistingImport (PositionedDeclaration _ _ d) = isExistingImport d isExistingImport _ = False -- | -- An item in a list of explicit imports or exports -- data DeclarationRef -- | -- A type constructor with data constructors -- = TypeRef (ProperName 'TypeName) (Maybe [ProperName 'ConstructorName]) -- | -- A value -- | ValueRef Ident -- | -- A type class -- | TypeClassRef (ProperName 'ClassName) -- | -- A type class instance, created during typeclass desugaring (name, class name, instance types) -- | TypeInstanceRef Ident -- | -- A module, in its entirety -- | ModuleRef ModuleName -- | -- An unspecified ProperName ref. This will be replaced with a TypeClassRef -- or TypeRef during name desugaring. | ProperRef String -- | -- A declaration reference with source position information -- | PositionedDeclarationRef SourceSpan [Comment] DeclarationRef deriving (Show, Read) instance Eq DeclarationRef where (TypeRef name dctors) == (TypeRef name' dctors') = name == name' && dctors == dctors' (ValueRef name) == (ValueRef name') = name == name' (TypeClassRef name) == (TypeClassRef name') = name == name' (TypeInstanceRef name) == (TypeInstanceRef name') = name == name' (ModuleRef name) == (ModuleRef name') = name == name' (ProperRef name) == (ProperRef name') = name == name' (PositionedDeclarationRef _ _ r) == r' = r == r' r == (PositionedDeclarationRef _ _ r') = r == r' _ == _ = False isModuleRef :: DeclarationRef -> Bool isModuleRef (PositionedDeclarationRef _ _ r) = isModuleRef r isModuleRef (ModuleRef _) = True isModuleRef _ = False -- | -- Finds duplicate values in a list of declaration refs. The returned values -- are the duplicate refs with data constructors elided, and then a separate -- list of duplicate data constructors. -- findDuplicateRefs :: [DeclarationRef] -> ([DeclarationRef], [ProperName 'ConstructorName]) findDuplicateRefs refs = let positionless = stripPosInfo `map` refs simplified = simplifyTypeRefs `map` positionless dupeRefs = nub $ simplified \\ nub simplified dupeCtors = concat $ flip mapMaybe positionless $ \case TypeRef _ (Just dctors) -> let dupes = dctors \\ nub dctors in if null dupes then Nothing else Just dupes _ -> Nothing in (dupeRefs, dupeCtors) where stripPosInfo (PositionedDeclarationRef _ _ ref) = stripPosInfo ref stripPosInfo other = other simplifyTypeRefs (TypeRef pn _) = TypeRef pn Nothing simplifyTypeRefs other = other -- | -- The data type which specifies type of import declaration -- data ImportDeclarationType -- | -- An import with no explicit list: `import M`. -- = Implicit -- | -- An import with an explicit list of references to import: `import M (foo)` -- | Explicit [DeclarationRef] -- | -- An import with a list of references to hide: `import M hiding (foo)` -- | Hiding [DeclarationRef] deriving (Eq, Show, Read) isImplicit :: ImportDeclarationType -> Bool isImplicit Implicit = True isImplicit _ = False isExplicit :: ImportDeclarationType -> Bool isExplicit (Explicit _) = True isExplicit _ = False -- | -- The data type of declarations -- data Declaration -- | -- A data type declaration (data or newtype, name, arguments, data constructors) -- = DataDeclaration DataDeclType (ProperName 'TypeName) [(String, Maybe Kind)] [(ProperName 'ConstructorName, [Type])] -- | -- A minimal mutually recursive set of data type declarations -- | DataBindingGroupDeclaration [Declaration] -- | -- A type synonym declaration (name, arguments, type) -- | TypeSynonymDeclaration (ProperName 'TypeName) [(String, Maybe Kind)] Type -- | -- A type declaration for a value (name, ty) -- | TypeDeclaration Ident Type -- | -- A value declaration (name, top-level binders, optional guard, value) -- | ValueDeclaration Ident NameKind [Binder] (Either [(Guard, Expr)] Expr) -- | -- A minimal mutually recursive set of value declarations -- | BindingGroupDeclaration [(Ident, NameKind, Expr)] -- | -- A foreign import declaration (name, type) -- | ExternDeclaration Ident Type -- | -- A data type foreign import (name, kind) -- | ExternDataDeclaration (ProperName 'TypeName) Kind -- | -- A fixity declaration (fixity data, operator name, value the operator is an alias for) -- | FixityDeclaration Fixity String (Maybe (Either (Qualified Ident) (Qualified (ProperName 'ConstructorName)))) -- | -- A module import (module name, qualified/unqualified/hiding, optional "qualified as" name) -- TODO: also a boolean specifying whether the old `qualified` syntax was used, so a warning can be raised in desugaring (remove for 0.9) -- | ImportDeclaration ModuleName ImportDeclarationType (Maybe ModuleName) Bool -- | -- A type class declaration (name, argument, implies, member declarations) -- | TypeClassDeclaration (ProperName 'ClassName) [(String, Maybe Kind)] [Constraint] [Declaration] -- | -- A type instance declaration (name, dependencies, class name, instance types, member -- declarations) -- | TypeInstanceDeclaration Ident [Constraint] (Qualified (ProperName 'ClassName)) [Type] TypeInstanceBody -- | -- A declaration with source position information -- | PositionedDeclaration SourceSpan [Comment] Declaration deriving (Show, Read) -- | The members of a type class instance declaration data TypeInstanceBody -- | This is a derived instance = DerivedInstance -- | This is a regular (explicit) instance | ExplicitInstance [Declaration] deriving (Show, Read) mapTypeInstanceBody :: ([Declaration] -> [Declaration]) -> TypeInstanceBody -> TypeInstanceBody mapTypeInstanceBody f = runIdentity . traverseTypeInstanceBody (Identity . f) -- | A traversal for TypeInstanceBody traverseTypeInstanceBody :: (Applicative f) => ([Declaration] -> f [Declaration]) -> TypeInstanceBody -> f TypeInstanceBody traverseTypeInstanceBody _ DerivedInstance = pure DerivedInstance traverseTypeInstanceBody f (ExplicitInstance ds) = ExplicitInstance <$> f ds -- | -- Test if a declaration is a value declaration -- isValueDecl :: Declaration -> Bool isValueDecl ValueDeclaration{} = True isValueDecl (PositionedDeclaration _ _ d) = isValueDecl d isValueDecl _ = False -- | -- Test if a declaration is a data type or type synonym declaration -- isDataDecl :: Declaration -> Bool isDataDecl DataDeclaration{} = True isDataDecl TypeSynonymDeclaration{} = True isDataDecl (PositionedDeclaration _ _ d) = isDataDecl d isDataDecl _ = False -- | -- Test if a declaration is a module import -- isImportDecl :: Declaration -> Bool isImportDecl ImportDeclaration{} = True isImportDecl (PositionedDeclaration _ _ d) = isImportDecl d isImportDecl _ = False -- | -- Test if a declaration is a data type foreign import -- isExternDataDecl :: Declaration -> Bool isExternDataDecl ExternDataDeclaration{} = True isExternDataDecl (PositionedDeclaration _ _ d) = isExternDataDecl d isExternDataDecl _ = False -- | -- Test if a declaration is a fixity declaration -- isFixityDecl :: Declaration -> Bool isFixityDecl FixityDeclaration{} = True isFixityDecl (PositionedDeclaration _ _ d) = isFixityDecl d isFixityDecl _ = False -- | -- Test if a declaration is a foreign import -- isExternDecl :: Declaration -> Bool isExternDecl ExternDeclaration{} = True isExternDecl (PositionedDeclaration _ _ d) = isExternDecl d isExternDecl _ = False -- | -- Test if a declaration is a type class instance declaration -- isTypeClassInstanceDeclaration :: Declaration -> Bool isTypeClassInstanceDeclaration TypeInstanceDeclaration{} = True isTypeClassInstanceDeclaration (PositionedDeclaration _ _ d) = isTypeClassInstanceDeclaration d isTypeClassInstanceDeclaration _ = False -- | -- Test if a declaration is a type class declaration -- isTypeClassDeclaration :: Declaration -> Bool isTypeClassDeclaration TypeClassDeclaration{} = True isTypeClassDeclaration (PositionedDeclaration _ _ d) = isTypeClassDeclaration d isTypeClassDeclaration _ = False -- | -- Recursively flatten data binding groups in the list of declarations flattenDecls :: [Declaration] -> [Declaration] flattenDecls = concatMap flattenOne where flattenOne :: Declaration -> [Declaration] flattenOne (DataBindingGroupDeclaration decls) = concatMap flattenOne decls flattenOne d = [d] -- | -- A guard is just a boolean-valued expression that appears alongside a set of binders -- type Guard = Expr -- | -- Data type for expressions and terms -- data Expr -- | -- A numeric literal -- = NumericLiteral (Either Integer Double) -- | -- A string literal -- | StringLiteral String -- | -- A character literal -- | CharLiteral Char -- | -- A boolean literal -- | BooleanLiteral Bool -- | -- A prefix -, will be desugared -- | UnaryMinus Expr -- | -- Binary operator application. During the rebracketing phase of desugaring, this data constructor -- will be removed. -- | BinaryNoParens Expr Expr Expr -- | -- Explicit parentheses. During the rebracketing phase of desugaring, this data constructor -- will be removed. -- -- Note: although it seems this constructor is not used, it _is_ useful, since it prevents -- certain traversals from matching. -- | Parens Expr -- | -- Operator section. This will be removed during desugaring and replaced with a partially applied -- operator or lambda to flip the arguments. -- | OperatorSection Expr (Either Expr Expr) -- | -- An array literal -- | ArrayLiteral [Expr] -- | -- An object literal -- | ObjectLiteral [(String, Expr)] -- | -- An object property getter (e.g. `_.x`). This will be removed during -- desugaring and expanded into a lambda that reads a property from an object. -- | ObjectGetter String -- | -- An record property accessor expression -- | Accessor String Expr -- | -- Partial record update -- | ObjectUpdate Expr [(String, Expr)] -- | -- Function introduction -- | Abs (Either Ident Binder) Expr -- | -- Function application -- | App Expr Expr -- | -- Variable -- | Var (Qualified Ident) -- | -- Conditional (if-then-else expression) -- | IfThenElse Expr Expr Expr -- | -- A data constructor -- | Constructor (Qualified (ProperName 'ConstructorName)) -- | -- A case expression. During the case expansion phase of desugaring, top-level binders will get -- desugared into case expressions, hence the need for guards and multiple binders per branch here. -- | Case [Expr] [CaseAlternative] -- | -- A value with a type annotation -- | TypedValue Bool Expr Type -- | -- A let binding -- | Let [Declaration] Expr -- | -- A do-notation block -- | Do [DoNotationElement] -- | -- An application of a typeclass dictionary constructor. The value should be -- an ObjectLiteral. -- | TypeClassDictionaryConstructorApp (Qualified (ProperName 'ClassName)) Expr -- | -- A placeholder for a type class dictionary to be inserted later. At the end of type checking, these -- placeholders will be replaced with actual expressions representing type classes dictionaries which -- can be evaluated at runtime. The constructor arguments represent (in order): whether or not to look -- at superclass implementations when searching for a dictionary, the type class name and -- instance type, and the type class dictionaries in scope. -- | TypeClassDictionary Constraint (M.Map (Maybe ModuleName) (M.Map (Qualified (ProperName 'ClassName)) (M.Map (Qualified Ident) TypeClassDictionaryInScope))) -- | -- A typeclass dictionary accessor, the implementation is left unspecified until CoreFn desugaring. -- | TypeClassDictionaryAccessor (Qualified (ProperName 'ClassName)) Ident -- | -- A placeholder for a superclass dictionary to be turned into a TypeClassDictionary during typechecking -- | SuperClassDictionary (Qualified (ProperName 'ClassName)) [Type] -- | -- A placeholder for an anonymous function argument -- | AnonymousArgument -- | -- A value with source position information -- | PositionedValue SourceSpan [Comment] Expr deriving (Show, Read) -- | -- An alternative in a case statement -- data CaseAlternative = CaseAlternative { -- | -- A collection of binders with which to match the inputs -- caseAlternativeBinders :: [Binder] -- | -- The result expression or a collect of guarded expressions -- , caseAlternativeResult :: Either [(Guard, Expr)] Expr } deriving (Show, Read) -- | -- A statement in a do-notation block -- data DoNotationElement -- | -- A monadic value without a binder -- = DoNotationValue Expr -- | -- A monadic value with a binder -- | DoNotationBind Binder Expr -- | -- A let statement, i.e. a pure value with a binder -- | DoNotationLet [Declaration] -- | -- A do notation element with source position information -- | PositionedDoNotationElement SourceSpan [Comment] DoNotationElement deriving (Show, Read) $(deriveJSON (defaultOptions { sumEncoding = ObjectWithSingleField }) ''DeclarationRef) $(deriveJSON (defaultOptions { sumEncoding = ObjectWithSingleField }) ''ImportDeclarationType)