{-# LANGUAGE DeriveDataTypeable #-} {-| The concrete syntax is a raw representation of the program text without any desugaring at all. This is what the parser produces. The idea is that if we figure out how to keep the concrete syntax around, it can be printed exactly as the user wrote it. -} module Agda.Syntax.Concrete ( -- * Expressions Expr(..) , OpApp(..), fromOrdinary , module Agda.Syntax.Concrete.Name , appView, AppView(..) , isSingleIdentifierP, removeSingletonRawAppP , isPattern, isAbsurdP, isBinderP -- * Bindings , Binder'(..) , Binder , mkBinder_ , mkBinder , LamBinding , LamBinding'(..) , TypedBinding , TypedBinding'(..) , RecordAssignment , RecordAssignments , FieldAssignment, FieldAssignment'(..), nameFieldA, exprFieldA , ModuleAssignment(..) , BoundName(..), mkBoundName_, mkBoundName , TacticAttribute , Telescope -- (..) , countTelVars , lamBindingsToTelescope , makePi -- * Declarations , Declaration(..) , ModuleApplication(..) , TypeSignature , TypeSignatureOrInstanceBlock , ImportDirective, Using, ImportedName , Renaming , AsName'(..), AsName , OpenShortHand(..), RewriteEqn, WithExpr , LHS(..), Pattern(..), LHSCore(..) , observeHiding , LamClause(..) , RHS, RHS'(..), WhereClause, WhereClause'(..), ExprWhere(..) , DoStmt(..) , Pragma(..) , Module , ThingWithFixity(..) , HoleContent, HoleContent'(..) , topLevelModuleName , spanAllowedBeforeModule ) where import Prelude hiding (null) import Control.DeepSeq import Data.Foldable (Foldable) import Data.Traversable (Traversable, forM, mapM) import Data.List hiding (null) import Data.Set (Set) import Data.Data (Data) import Agda.Syntax.Position import Agda.Syntax.Common import Agda.Syntax.Fixity import Agda.Syntax.Notation import Agda.Syntax.Literal import Agda.Syntax.Concrete.Name import qualified Agda.Syntax.Abstract.Name as A import Agda.TypeChecking.Positivity.Occurrence import Agda.Utils.Either ( maybeLeft ) import Agda.Utils.Lens import Agda.Utils.Null import Agda.Utils.Impossible data OpApp e = SyntaxBindingLambda Range [LamBinding] e -- ^ An abstraction inside a special syntax declaration -- (see Issue 358 why we introduce this). | Ordinary e deriving (Data, Functor, Foldable, Traversable, Eq) fromOrdinary :: e -> OpApp e -> e fromOrdinary d (Ordinary e) = e fromOrdinary d _ = d data FieldAssignment' a = FieldAssignment { _nameFieldA :: Name, _exprFieldA :: a } deriving (Data, Functor, Foldable, Traversable, Show, Eq) type FieldAssignment = FieldAssignment' Expr data ModuleAssignment = ModuleAssignment { _qnameModA :: QName , _exprModA :: [Expr] , _importDirModA :: ImportDirective } deriving (Data, Eq) type RecordAssignment = Either FieldAssignment ModuleAssignment type RecordAssignments = [RecordAssignment] nameFieldA :: Lens' Name (FieldAssignment' a) nameFieldA f r = f (_nameFieldA r) <&> \x -> r { _nameFieldA = x } exprFieldA :: Lens' a (FieldAssignment' a) exprFieldA f r = f (_exprFieldA r) <&> \x -> r { _exprFieldA = x } -- UNUSED Liang-Ting Chen 2019-07-16 --qnameModA :: Lens' QName ModuleAssignment --qnameModA f r = f (_qnameModA r) <&> \x -> r { _qnameModA = x } -- --exprModA :: Lens' [Expr] ModuleAssignment --exprModA f r = f (_exprModA r) <&> \x -> r { _exprModA = x } -- --importDirModA :: Lens' ImportDirective ModuleAssignment --importDirModA f r = f (_importDirModA r) <&> \x -> r { _importDirModA = x } -- | Concrete expressions. Should represent exactly what the user wrote. data Expr = Ident QName -- ^ ex: @x@ | Lit Literal -- ^ ex: @1@ or @\"foo\"@ | QuestionMark Range (Maybe Nat) -- ^ ex: @?@ or @{! ... !}@ | Underscore Range (Maybe String) -- ^ ex: @_@ or @_A_5@ | RawApp Range [Expr] -- ^ before parsing operators | App Range Expr (NamedArg Expr) -- ^ ex: @e e@, @e {e}@, or @e {x = e}@ | OpApp Range QName (Set A.Name) [NamedArg (MaybePlaceholder (OpApp Expr))] -- ^ ex: @e + e@ -- The 'QName' is -- possibly ambiguous, -- but it must -- correspond to one of -- the names in the -- set. | WithApp Range Expr [Expr] -- ^ ex: @e | e1 | .. | en@ | HiddenArg Range (Named_ Expr) -- ^ ex: @{e}@ or @{x=e}@ | InstanceArg Range (Named_ Expr) -- ^ ex: @{{e}}@ or @{{x=e}}@ | Lam Range [LamBinding] Expr -- ^ ex: @\\x {y} -> e@ or @\\(x:A){y:B} -> e@ | AbsurdLam Range Hiding -- ^ ex: @\\ ()@ | ExtendedLam Range [LamClause] -- ^ ex: @\\ { p11 .. p1a -> e1 ; .. ; pn1 .. pnz -> en }@ | Fun Range (Arg Expr) Expr -- ^ ex: @e -> e@ or @.e -> e@ (NYI: @{e} -> e@) | Pi Telescope Expr -- ^ ex: @(xs:e) -> e@ or @{xs:e} -> e@ | Set Range -- ^ ex: @Set@ | Prop Range -- ^ ex: @Prop@ | SetN Range Integer -- ^ ex: @Set0, Set1, ..@ | PropN Range Integer -- ^ ex: @Prop0, Prop1, ..@ | Rec Range RecordAssignments -- ^ ex: @record {x = a; y = b}@, or @record { x = a; M1; M2 }@ | RecUpdate Range Expr [FieldAssignment] -- ^ ex: @record e {x = a; y = b}@ | Let Range [Declaration] (Maybe Expr) -- ^ ex: @let Ds in e@, missing body when parsing do-notation let | Paren Range Expr -- ^ ex: @(e)@ | IdiomBrackets Range [Expr] -- ^ ex: @(| e1 | e2 | .. | en |)@ or @(|)@ | DoBlock Range [DoStmt] -- ^ ex: @do x <- m1; m2@ | Absurd Range -- ^ ex: @()@ or @{}@, only in patterns | As Range Name Expr -- ^ ex: @x\@p@, only in patterns | Dot Range Expr -- ^ ex: @.p@, only in patterns | DoubleDot Range Expr -- ^ ex: @..A@, used for parsing @..A -> B@ | ETel Telescope -- ^ only used for printing telescopes | Quote Range -- ^ ex: @quote@, should be applied to a name | QuoteTerm Range -- ^ ex: @quoteTerm@, should be applied to a term | Tactic Range Expr -- ^ ex: @\@(tactic t)@, used to declare tactic arguments | Unquote Range -- ^ ex: @unquote@, should be applied to a term of type @Term@ | DontCare Expr -- ^ to print irrelevant things | Equal Range Expr Expr -- ^ ex: @a = b@, used internally in the parser | Ellipsis Range -- ^ @...@, used internally to parse patterns. | Generalized Expr deriving (Data, Eq) -- | Concrete patterns. No literals in patterns at the moment. data Pattern = IdentP QName -- ^ @c@ or @x@ | QuoteP Range -- ^ @quote@ | AppP Pattern (NamedArg Pattern) -- ^ @p p'@ or @p {x = p'}@ | RawAppP Range [Pattern] -- ^ @p1..pn@ before parsing operators | OpAppP Range QName (Set A.Name) [NamedArg Pattern] -- ^ eg: @p => p'@ for operator @_=>_@ -- The 'QName' is possibly -- ambiguous, but it must -- correspond to one of -- the names in the set. | HiddenP Range (Named_ Pattern) -- ^ @{p}@ or @{x = p}@ | InstanceP Range (Named_ Pattern) -- ^ @{{p}}@ or @{{x = p}}@ | ParenP Range Pattern -- ^ @(p)@ | WildP Range -- ^ @_@ | AbsurdP Range -- ^ @()@ | AsP Range Name Pattern -- ^ @x\@p@ unused | DotP Range Expr -- ^ @.e@ | LitP Literal -- ^ @0@, @1@, etc. | RecP Range [FieldAssignment' Pattern] -- ^ @record {x = p; y = q}@ | EqualP Range [(Expr,Expr)] -- ^ @i = i1@ i.e. cubical face lattice generator | EllipsisP Range -- ^ @...@, only as left-most pattern. | WithP Range Pattern -- ^ @| p@, for with-patterns. deriving (Data, Eq) data DoStmt = DoBind Range Pattern Expr [LamClause] -- ^ @p ← e where cs@ | DoThen Expr | DoLet Range [Declaration] deriving (Data, Eq) -- | A Binder @x\@p@, the pattern is optional data Binder' a = Binder { binderPattern :: Maybe Pattern , binderName :: a } deriving (Data, Eq, Functor, Foldable, Traversable) type Binder = Binder' BoundName mkBinder_ :: Name -> Binder mkBinder_ = mkBinder . mkBoundName_ mkBinder :: a -> Binder' a mkBinder = Binder Nothing -- | A lambda binding is either domain free or typed. type LamBinding = LamBinding' TypedBinding data LamBinding' a = DomainFree (NamedArg Binder) -- ^ . @x@ or @{x}@ or @.x@ or @.{x}@ or @{.x}@ or @x\@p@ or @(p)@ | DomainFull a -- ^ . @(xs : e)@ or @{xs : e}@ deriving (Data, Functor, Foldable, Traversable, Eq) data BoundName = BName { boundName :: Name , bnameFixity :: Fixity' , bnameTactic :: TacticAttribute -- From @tactic attribute } deriving (Data, Eq) type TacticAttribute = Maybe Expr mkBoundName_ :: Name -> BoundName mkBoundName_ x = mkBoundName x noFixity' mkBoundName :: Name -> Fixity' -> BoundName mkBoundName x f = BName x f Nothing -- | A typed binding. type TypedBinding = TypedBinding' Expr data TypedBinding' e = TBind Range [NamedArg Binder] e -- ^ Binding @(x1\@p1 ... xn\@pn : A)@. | TLet Range [Declaration] -- ^ Let binding @(let Ds)@ or @(open M args)@. deriving (Data, Functor, Foldable, Traversable, Eq) -- | A telescope is a sequence of typed bindings. Bound variables are in scope -- in later types. type Telescope = [TypedBinding] countTelVars :: Telescope -> Nat countTelVars tel = sum [ case b of TBind _ xs _ -> genericLength xs TLet{} -> 0 | b <- tel ] -- | We can try to get a @Telescope@ from a @[LamBinding]@. -- If we have a type annotation already, we're happy. -- Otherwise we manufacture a binder with an underscore for the type. lamBindingsToTelescope :: Range -> [LamBinding] -> Telescope lamBindingsToTelescope r = map $ \case DomainFull ty -> ty DomainFree nm -> TBind r [nm] $ Underscore r Nothing -- | Smart constructor for @Pi@: check whether the @Telescope@ is empty makePi :: Telescope -> Expr -> Expr makePi [] e = e makePi bs e = Pi bs e {-| Left hand sides can be written in infix style. For example: > n + suc m = suc (n + m) > (f ∘ g) x = f (g x) We use fixity information to see which name is actually defined. -} data LHS = LHS { lhsOriginalPattern :: Pattern -- ^ e.g. @f ps | wps@ , lhsRewriteEqn :: [RewriteEqn] -- ^ @(rewrite e | with p <- e)@ (many) , lhsWithExpr :: [WithHiding WithExpr] -- ^ @with e1 | {e2} | ...@ (many) , lhsExpandedEllipsis :: ExpandedEllipsis -- ^ Did we expand an ellipsis? } -- ^ Original pattern (including with-patterns), rewrite equations and with-expressions. deriving (Data, Eq) type RewriteEqn = RewriteEqn' () Pattern Expr type WithExpr = Expr -- | Processed (operator-parsed) intermediate form of the core @f ps@ of 'LHS'. -- Corresponds to 'lhsOriginalPattern'. data LHSCore = LHSHead { lhsDefName :: QName -- ^ @f@ , lhsPats :: [NamedArg Pattern] -- ^ @ps@ } | LHSProj { lhsDestructor :: QName -- ^ Record projection. , lhsPatsLeft :: [NamedArg Pattern] -- ^ Patterns for record indices (currently none). , lhsFocus :: NamedArg LHSCore -- ^ Main argument. , lhsPats :: [NamedArg Pattern] -- ^ More application patterns. } | LHSWith { lhsHead :: LHSCore , lhsWithPatterns :: [Pattern] -- ^ Non-empty; at least one @(| p)@. , lhsPats :: [NamedArg Pattern] -- ^ More application patterns. } deriving (Data, Eq) type RHS = RHS' Expr data RHS' e = AbsurdRHS -- ^ No right hand side because of absurd match. | RHS e deriving (Data, Functor, Foldable, Traversable, Eq) type WhereClause = WhereClause' [Declaration] data WhereClause' decls = NoWhere -- ^ No @where@ clauses. | AnyWhere decls -- ^ Ordinary @where@. | SomeWhere Name Access decls -- ^ Named where: @module M where@. -- The 'Access' flag applies to the 'Name' (not the module contents!) -- and is propagated from the parent function. deriving (Data, Functor, Foldable, Traversable, Eq) data LamClause = LamClause { lamLHS :: LHS , lamRHS :: RHS , lamWhere :: WhereClause -- ^ always 'NoWhere' (see parser) , lamCatchAll :: Bool } deriving (Data, Eq) -- | An expression followed by a where clause. -- Currently only used to give better a better error message in interaction. data ExprWhere = ExprWhere Expr WhereClause -- | The things you are allowed to say when you shuffle names between name -- spaces (i.e. in @import@, @namespace@, or @open@ declarations). type ImportDirective = ImportDirective' Name Name type Using = Using' Name Name type Renaming = Renaming' Name Name -- | An imported name can be a module or a defined name. type ImportedName = ImportedName' Name Name -- | The content of the @as@-clause of the import statement. data AsName' a = AsName { asName :: a -- ^ The \"as\" name. , asRange :: Range -- ^ The range of the \"as\" keyword. Retained for highlighting purposes. } deriving (Data, Show, Functor, Foldable, Traversable, Eq) -- | From the parser, we get an expression for the @as@-'Name', which -- we have to parse into a 'Name'. type AsName = AsName' (Either Expr Name) {-------------------------------------------------------------------------- Declarations --------------------------------------------------------------------------} -- | Just type signatures. type TypeSignature = Declaration -- | Just field signatures type FieldSignature = Declaration -- | Just type signatures or instance blocks. type TypeSignatureOrInstanceBlock = Declaration {-| The representation type of a declaration. The comments indicate which type in the intended family the constructor targets. -} data Declaration = TypeSig ArgInfo TacticAttribute Name Expr | FieldSig IsInstance TacticAttribute Name (Arg Expr) -- ^ Axioms and functions can be irrelevant. (Hiding should be NotHidden) | Generalize Range [TypeSignature] -- ^ Variables to be generalized, can be hidden and/or irrelevant. | Field Range [FieldSignature] | FunClause LHS RHS WhereClause Bool | DataSig Range Name [LamBinding] Expr -- ^ lone data signature in mutual block | Data Range Name [LamBinding] Expr [TypeSignatureOrInstanceBlock] | DataDef Range Name [LamBinding] [TypeSignatureOrInstanceBlock] | RecordSig Range Name [LamBinding] Expr -- ^ lone record signature in mutual block | RecordDef Range Name (Maybe (Ranged Induction)) (Maybe HasEta) (Maybe (Name, IsInstance)) [LamBinding] [Declaration] | Record Range Name (Maybe (Ranged Induction)) (Maybe HasEta) (Maybe (Name, IsInstance)) [LamBinding] Expr [Declaration] -- ^ The optional name is a name for the record constructor. | Infix Fixity [Name] | Syntax Name Notation -- ^ notation declaration for a name | PatternSyn Range Name [Arg Name] Pattern | Mutual Range [Declaration] -- @Range@ of the whole @mutual@ block. | Abstract Range [Declaration] | Private Range Origin [Declaration] -- ^ In "Agda.Syntax.Concrete.Definitions" we generate private blocks -- temporarily, which should be treated different that user-declared -- private blocks. Thus the 'Origin'. | InstanceB Range [Declaration] -- ^ The 'Range' here (exceptionally) only refers to the range of the -- @instance@ keyword. The range of the whole block @InstanceB r ds@ -- is @fuseRange r ds@. | Macro Range [Declaration] | Postulate Range [TypeSignatureOrInstanceBlock] | Primitive Range [TypeSignature] | Open Range QName ImportDirective | Import Range QName (Maybe AsName) !OpenShortHand ImportDirective | ModuleMacro Range Name ModuleApplication !OpenShortHand ImportDirective | Module Range QName Telescope [Declaration] | UnquoteDecl Range [Name] Expr | UnquoteDef Range [Name] Expr | Pragma Pragma deriving (Data, Eq) data ModuleApplication = SectionApp Range Telescope Expr -- ^ @tel. M args@ | RecordModuleInstance Range QName -- ^ @M {{...}}@ deriving (Data, Eq) data OpenShortHand = DoOpen | DontOpen deriving (Data, Eq, Show) -- Pragmas ---------------------------------------------------------------- data Pragma = OptionsPragma Range [String] | BuiltinPragma Range RString QName | RewritePragma Range Range [QName] -- ^ Second Range is for REWRITE keyword. | ForeignPragma Range RString String -- ^ first string is backend name | CompilePragma Range RString QName String -- ^ first string is backend name | StaticPragma Range QName | InlinePragma Range Bool QName -- ^ INLINE or NOINLINE | ImpossiblePragma Range -- ^ Throws an internal error in the scope checker. | EtaPragma Range QName -- ^ For coinductive records, use pragma instead of regular -- @eta-equality@ definition (as it is might make Agda loop). | WarningOnUsage Range QName String -- ^ Applies to the named function | WarningOnImport Range String -- ^ Applies to the current module | InjectivePragma Range QName -- ^ Mark a definition as injective for the pattern matching unifier. | DisplayPragma Range Pattern Expr -- ^ Display lhs as rhs (modifies the printer). -- Attached (more or less) pragmas handled in the nicifier (Concrete.Definitions): | CatchallPragma Range -- ^ Applies to the following function clause. | TerminationCheckPragma Range (TerminationCheck Name) -- ^ Applies to the following function (and all that are mutually recursive with it) -- or to the functions in the following mutual block. | NoCoverageCheckPragma Range -- ^ Applies to the following function (and all that are mutually recursive with it) -- or to the functions in the following mutual block. | NoPositivityCheckPragma Range -- ^ Applies to the following data/record type or mutual block. | PolarityPragma Range Name [Occurrence] | NoUniverseCheckPragma Range -- ^ Applies to the following data/record type. deriving (Data, Eq) --------------------------------------------------------------------------- -- | Modules: Top-level pragmas plus other top-level declarations. type Module = ([Pragma], [Declaration]) -- | Computes the top-level module name. -- -- Precondition: The 'Module' has to be well-formed. -- This means that there are only allowed declarations before the -- first module declaration, typically import declarations. -- See 'spanAllowedBeforeModule'. topLevelModuleName :: Module -> TopLevelModuleName topLevelModuleName (_, []) = __IMPOSSIBLE__ topLevelModuleName (_, ds) = case spanAllowedBeforeModule ds of (_, Module _ n _ _ : _) -> toTopLevelModuleName n _ -> __IMPOSSIBLE__ -- | Splits off allowed (= import) declarations before the first -- non-allowed declaration. -- After successful parsing, the first non-allowed declaration -- should be a module declaration. spanAllowedBeforeModule :: [Declaration] -> ([Declaration], [Declaration]) spanAllowedBeforeModule = span isAllowedBeforeModule where isAllowedBeforeModule (Pragma OptionsPragma{}) = True isAllowedBeforeModule (Pragma BuiltinPragma{}) = True isAllowedBeforeModule (Private _ _ ds) = all isAllowedBeforeModule ds isAllowedBeforeModule Import{} = True isAllowedBeforeModule ModuleMacro{} = True isAllowedBeforeModule Open{} = True isAllowedBeforeModule _ = False {-------------------------------------------------------------------------- Things we parse but are not part of the Agda file syntax --------------------------------------------------------------------------} -- | Extended content of an interaction hole. data HoleContent' qn p e = HoleContentExpr e -- ^ @e@ | HoleContentRewrite [RewriteEqn' qn p e] -- ^ @(rewrite | invert) e0 | ... | en@ deriving (Functor, Foldable, Traversable) type HoleContent = HoleContent' () Pattern Expr {-------------------------------------------------------------------------- Views --------------------------------------------------------------------------} -- | The 'Expr' is not an application. data AppView = AppView Expr [NamedArg Expr] appView :: Expr -> AppView appView e = case e of App r e1 e2 -> vApp (appView e1) e2 RawApp _ (e:es) -> AppView e $ map arg es _ -> AppView e [] where vApp (AppView e es) arg = AppView e (es ++ [arg]) arg (HiddenArg _ e) = hide $ defaultArg e arg (InstanceArg _ e) = makeInstance $ defaultArg e arg e = defaultArg (unnamed e) isSingleIdentifierP :: Pattern -> Maybe Name isSingleIdentifierP p = case removeSingletonRawAppP p of IdentP (QName x) -> Just x WildP r -> Just $ noName r _ -> Nothing removeSingletonRawAppP :: Pattern -> Pattern removeSingletonRawAppP p = case p of RawAppP _ [p'] -> removeSingletonRawAppP p' ParenP _ p' -> removeSingletonRawAppP p' _ -> p -- | Observe the hiding status of an expression observeHiding :: Expr -> WithHiding Expr observeHiding = \case RawApp _ [e] -> observeHiding e HiddenArg _ (Named Nothing e) -> WithHiding Hidden e InstanceArg _ (Named Nothing e) -> WithHiding (Instance NoOverlap) e e -> WithHiding NotHidden e -- | Turn an expression into a pattern. Fails if the expression is not a -- valid pattern. isPattern :: Expr -> Maybe Pattern isPattern = \case Ident x -> return $ IdentP x App _ e1 e2 -> AppP <$> isPattern e1 <*> mapM (mapM isPattern) e2 Paren r e -> ParenP r <$> isPattern e Underscore r _ -> return $ WildP r Absurd r -> return $ AbsurdP r As r x e -> pushUnderBracesP r (AsP r x) <$> isPattern e Dot r e -> return $ pushUnderBracesE r (DotP r) e Lit l -> return $ LitP l HiddenArg r e -> HiddenP r <$> mapM isPattern e InstanceArg r e -> InstanceP r <$> mapM isPattern e RawApp r es -> RawAppP r <$> mapM isPattern es Quote r -> return $ QuoteP r Equal r e1 e2 -> return $ EqualP r [(e1, e2)] Ellipsis r -> return $ EllipsisP r Rec r es -> do fs <- mapM maybeLeft es RecP r <$> mapM (mapM isPattern) fs -- WithApp has already lost the range information of the bars '|' WithApp r e es -> do p <- isPattern e ps <- forM es $ \ e -> do p <- isPattern e pure $ defaultNamedArg $ WithP (getRange e) p -- TODO #2822: Range! return $ foldl AppP p ps _ -> Nothing where pushUnderBracesP :: Range -> (Pattern -> Pattern) -> (Pattern -> Pattern) pushUnderBracesP r f = \case HiddenP _ p -> HiddenP r (fmap f p) InstanceP _ p -> InstanceP r (fmap f p) p -> f p pushUnderBracesE :: Range -> (Expr -> Pattern) -> (Expr -> Pattern) pushUnderBracesE r f = \case HiddenArg _ p -> HiddenP r (fmap f p) InstanceArg _ p -> InstanceP r (fmap f p) p -> f p isAbsurdP :: Pattern -> Maybe (Range, Hiding) isAbsurdP = \case AbsurdP r -> pure (r, NotHidden) AsP _ _ p -> isAbsurdP p ParenP _ p -> isAbsurdP p RawAppP _ [p] -> isAbsurdP p HiddenP _ np -> (Hidden <$) <$> isAbsurdP (namedThing np) InstanceP _ np -> (Instance YesOverlap <$) <$> isAbsurdP (namedThing np) _ -> Nothing isBinderP :: Pattern -> Maybe Binder isBinderP = \case IdentP qn -> mkBinder_ <$> isUnqualified qn WildP r -> pure $ mkBinder_ (Name r InScope [Hole]) AsP r n p -> pure $ Binder (Just p) (mkBoundName_ n) ParenP r p -> pure $ Binder (Just p) (mkBoundName_ $ Name r InScope [Hole]) _ -> Nothing {-------------------------------------------------------------------------- Instances --------------------------------------------------------------------------} -- Null ------------------------------------------------------------------------ -- | A 'WhereClause' is 'null' when the @where@ keyword is absent. -- An empty list of declarations does not count as 'null' here. instance Null (WhereClause' a) where empty = NoWhere null NoWhere = True null AnyWhere{} = False null SomeWhere{} = False -- Lenses ------------------------------------------------------------------------ instance LensHiding LamBinding where getHiding (DomainFree x) = getHiding x getHiding (DomainFull a) = getHiding a mapHiding f (DomainFree x) = DomainFree $ mapHiding f x mapHiding f (DomainFull a) = DomainFull $ mapHiding f a instance LensHiding TypedBinding where getHiding (TBind _ (x : _) _) = getHiding x -- Slightly dubious getHiding (TBind _ [] _) = __IMPOSSIBLE__ getHiding TLet{} = mempty mapHiding f (TBind r xs e) = TBind r ((map . mapHiding) f xs) e mapHiding f b@TLet{} = b instance LensRelevance TypedBinding where getRelevance (TBind _ (x : _) _) = getRelevance x -- Slightly dubious getRelevance (TBind _ [] _) = __IMPOSSIBLE__ getRelevance TLet{} = mempty mapRelevance f (TBind r xs e) = TBind r ((map . mapRelevance) f xs) e mapRelevance f b@TLet{} = b -- HasRange instances ------------------------------------------------------------------------ instance HasRange e => HasRange (OpApp e) where getRange e = case e of Ordinary e -> getRange e SyntaxBindingLambda r _ _ -> r instance HasRange Expr where getRange = \case Ident x -> getRange x Lit x -> getRange x QuestionMark r _ -> r Underscore r _ -> r App r _ _ -> r RawApp r _ -> r OpApp r _ _ _ -> r WithApp r _ _ -> r Lam r _ _ -> r AbsurdLam r _ -> r ExtendedLam r _ -> r Fun r _ _ -> r Pi b e -> fuseRange b e Set r -> r Prop r -> r SetN r _ -> r PropN r _ -> r Let r _ _ -> r Paren r _ -> r IdiomBrackets r _ -> r DoBlock r _ -> r As r _ _ -> r Dot r _ -> r DoubleDot r _ -> r Absurd r -> r HiddenArg r _ -> r InstanceArg r _ -> r Rec r _ -> r RecUpdate r _ _ -> r ETel tel -> getRange tel Quote r -> r QuoteTerm r -> r Unquote r -> r Tactic r _ -> r DontCare{} -> noRange Equal r _ _ -> r Ellipsis r -> r Generalized e -> getRange e -- instance HasRange Telescope where -- getRange (TeleBind bs) = getRange bs -- getRange (TeleFun x y) = fuseRange x y instance HasRange Binder where getRange (Binder a b) = fuseRange a b instance HasRange TypedBinding where getRange (TBind r _ _) = r getRange (TLet r _) = r instance HasRange LamBinding where getRange (DomainFree x) = getRange x getRange (DomainFull b) = getRange b instance HasRange BoundName where getRange = getRange . boundName instance HasRange WhereClause where getRange NoWhere = noRange getRange (AnyWhere ds) = getRange ds getRange (SomeWhere _ _ ds) = getRange ds instance HasRange ModuleApplication where getRange (SectionApp r _ _) = r getRange (RecordModuleInstance r _) = r instance HasRange a => HasRange (FieldAssignment' a) where getRange (FieldAssignment a b) = fuseRange a b instance HasRange ModuleAssignment where getRange (ModuleAssignment a b c) = fuseRange a b `fuseRange` c instance HasRange Declaration where getRange (TypeSig _ _ x t) = fuseRange x t getRange (FieldSig _ _ x t) = fuseRange x t getRange (Field r _) = r getRange (FunClause lhs rhs wh _) = fuseRange lhs rhs `fuseRange` wh getRange (DataSig r _ _ _) = r getRange (Data r _ _ _ _) = r getRange (DataDef r _ _ _) = r getRange (RecordSig r _ _ _) = r getRange (RecordDef r _ _ _ _ _ _) = r getRange (Record r _ _ _ _ _ _ _) = r getRange (Mutual r _) = r getRange (Abstract r _) = r getRange (Generalize r _) = r getRange (Open r _ _) = r getRange (ModuleMacro r _ _ _ _) = r getRange (Import r _ _ _ _) = r getRange (InstanceB r _) = r getRange (Macro r _) = r getRange (Private r _ _) = r getRange (Postulate r _) = r getRange (Primitive r _) = r getRange (Module r _ _ _) = r getRange (Infix f _) = getRange f getRange (Syntax n _) = getRange n getRange (PatternSyn r _ _ _) = r getRange (UnquoteDecl r _ _) = r getRange (UnquoteDef r _ _) = r getRange (Pragma p) = getRange p instance HasRange LHS where getRange (LHS p eqns ws ell) = p `fuseRange` eqns `fuseRange` ws instance HasRange LHSCore where getRange (LHSHead f ps) = fuseRange f ps getRange (LHSProj d ps1 lhscore ps2) = d `fuseRange` ps1 `fuseRange` lhscore `fuseRange` ps2 getRange (LHSWith f wps ps) = f `fuseRange` wps `fuseRange` ps instance HasRange RHS where getRange AbsurdRHS = noRange getRange (RHS e) = getRange e instance HasRange LamClause where getRange (LamClause lhs rhs wh _) = getRange (lhs, rhs, wh) instance HasRange DoStmt where getRange (DoBind r _ _ _) = r getRange (DoThen e) = getRange e getRange (DoLet r _) = r instance HasRange Pragma where getRange (OptionsPragma r _) = r getRange (BuiltinPragma r _ _) = r getRange (RewritePragma r _ _) = r getRange (CompilePragma r _ _ _) = r getRange (ForeignPragma r _ _) = r getRange (StaticPragma r _) = r getRange (InjectivePragma r _) = r getRange (InlinePragma r _ _) = r getRange (ImpossiblePragma r) = r getRange (EtaPragma r _) = r getRange (TerminationCheckPragma r _) = r getRange (NoCoverageCheckPragma r) = r getRange (WarningOnUsage r _ _) = r getRange (WarningOnImport r _) = r getRange (CatchallPragma r) = r getRange (DisplayPragma r _ _) = r getRange (NoPositivityCheckPragma r) = r getRange (PolarityPragma r _ _) = r getRange (NoUniverseCheckPragma r) = r instance HasRange AsName where getRange a = getRange (asRange a, asName a) instance HasRange Pattern where getRange (IdentP x) = getRange x getRange (AppP p q) = fuseRange p q getRange (OpAppP r _ _ _) = r getRange (RawAppP r _) = r getRange (ParenP r _) = r getRange (WildP r) = r getRange (AsP r _ _) = r getRange (AbsurdP r) = r getRange (LitP l) = getRange l getRange (QuoteP r) = r getRange (HiddenP r _) = r getRange (InstanceP r _) = r getRange (DotP r _) = r getRange (RecP r _) = r getRange (EqualP r _) = r getRange (EllipsisP r) = r getRange (WithP r _) = r -- SetRange instances ------------------------------------------------------------------------ instance SetRange Pattern where setRange r (IdentP x) = IdentP (setRange r x) setRange r (AppP p q) = AppP (setRange r p) (setRange r q) setRange r (OpAppP _ x ns ps) = OpAppP r x ns ps setRange r (RawAppP _ ps) = RawAppP r ps setRange r (ParenP _ p) = ParenP r p setRange r (WildP _) = WildP r setRange r (AsP _ x p) = AsP r (setRange r x) p setRange r (AbsurdP _) = AbsurdP r setRange r (LitP l) = LitP (setRange r l) setRange r (QuoteP _) = QuoteP r setRange r (HiddenP _ p) = HiddenP r p setRange r (InstanceP _ p) = InstanceP r p setRange r (DotP _ e) = DotP r e setRange r (RecP _ fs) = RecP r fs setRange r (EqualP _ es) = EqualP r es setRange r (EllipsisP _) = EllipsisP r setRange r (WithP _ p) = WithP r p instance SetRange TypedBinding where setRange r (TBind _ xs e) = TBind r xs e setRange r (TLet _ ds) = TLet r ds -- KillRange instances ------------------------------------------------------------------------ instance KillRange a => KillRange (FieldAssignment' a) where killRange (FieldAssignment a b) = killRange2 FieldAssignment a b instance KillRange ModuleAssignment where killRange (ModuleAssignment a b c) = killRange3 ModuleAssignment a b c instance KillRange AsName where killRange (AsName n _) = killRange1 (flip AsName noRange) n instance KillRange Binder where killRange (Binder a b) = killRange2 Binder a b instance KillRange BoundName where killRange (BName n f t) = killRange3 BName n f t instance KillRange Declaration where killRange (TypeSig i t n e) = killRange3 (TypeSig i) t n e killRange (FieldSig i t n e) = killRange4 FieldSig i t n e killRange (Generalize r ds ) = killRange1 (Generalize noRange) ds killRange (Field r fs) = killRange1 (Field noRange) fs killRange (FunClause l r w ca) = killRange4 FunClause l r w ca killRange (DataSig _ n l e) = killRange3 (DataSig noRange) n l e killRange (Data _ n l e c) = killRange4 (Data noRange) n l e c killRange (DataDef _ n l c) = killRange3 (DataDef noRange) n l c killRange (RecordSig _ n l e) = killRange3 (RecordSig noRange) n l e killRange (RecordDef _ n mi mb mn k d) = killRange6 (RecordDef noRange) n mi mb mn k d killRange (Record _ n mi mb mn k e d) = killRange7 (Record noRange) n mi mb mn k e d killRange (Infix f n) = killRange2 Infix f n killRange (Syntax n no) = killRange1 (\n -> Syntax n no) n killRange (PatternSyn _ n ns p) = killRange3 (PatternSyn noRange) n ns p killRange (Mutual _ d) = killRange1 (Mutual noRange) d killRange (Abstract _ d) = killRange1 (Abstract noRange) d killRange (Private _ o d) = killRange2 (Private noRange) o d killRange (InstanceB _ d) = killRange1 (InstanceB noRange) d killRange (Macro _ d) = killRange1 (Macro noRange) d killRange (Postulate _ t) = killRange1 (Postulate noRange) t killRange (Primitive _ t) = killRange1 (Primitive noRange) t killRange (Open _ q i) = killRange2 (Open noRange) q i killRange (Import _ q a o i) = killRange3 (\q a -> Import noRange q a o) q a i killRange (ModuleMacro _ n m o i) = killRange3 (\n m -> ModuleMacro noRange n m o) n m i killRange (Module _ q t d) = killRange3 (Module noRange) q t d killRange (UnquoteDecl _ x t) = killRange2 (UnquoteDecl noRange) x t killRange (UnquoteDef _ x t) = killRange2 (UnquoteDef noRange) x t killRange (Pragma p) = killRange1 Pragma p instance KillRange Expr where killRange (Ident q) = killRange1 Ident q killRange (Lit l) = killRange1 Lit l killRange (QuestionMark _ n) = QuestionMark noRange n killRange (Underscore _ n) = Underscore noRange n killRange (RawApp _ e) = killRange1 (RawApp noRange) e killRange (App _ e a) = killRange2 (App noRange) e a killRange (OpApp _ n ns o) = killRange3 (OpApp noRange) n ns o killRange (WithApp _ e es) = killRange2 (WithApp noRange) e es killRange (HiddenArg _ n) = killRange1 (HiddenArg noRange) n killRange (InstanceArg _ n) = killRange1 (InstanceArg noRange) n killRange (Lam _ l e) = killRange2 (Lam noRange) l e killRange (AbsurdLam _ h) = killRange1 (AbsurdLam noRange) h killRange (ExtendedLam _ lrw) = killRange1 (ExtendedLam noRange) lrw killRange (Fun _ e1 e2) = killRange2 (Fun noRange) e1 e2 killRange (Pi t e) = killRange2 Pi t e killRange (Set _) = Set noRange killRange (Prop _) = Prop noRange killRange (SetN _ n) = SetN noRange n killRange (PropN _ n) = PropN noRange n killRange (Rec _ ne) = killRange1 (Rec noRange) ne killRange (RecUpdate _ e ne) = killRange2 (RecUpdate noRange) e ne killRange (Let _ d e) = killRange2 (Let noRange) d e killRange (Paren _ e) = killRange1 (Paren noRange) e killRange (IdiomBrackets _ es) = killRange1 (IdiomBrackets noRange) es killRange (DoBlock _ ss) = killRange1 (DoBlock noRange) ss killRange (Absurd _) = Absurd noRange killRange (As _ n e) = killRange2 (As noRange) n e killRange (Dot _ e) = killRange1 (Dot noRange) e killRange (DoubleDot _ e) = killRange1 (DoubleDot noRange) e killRange (ETel t) = killRange1 ETel t killRange (Quote _) = Quote noRange killRange (QuoteTerm _) = QuoteTerm noRange killRange (Unquote _) = Unquote noRange killRange (Tactic _ t) = killRange1 (Tactic noRange) t killRange (DontCare e) = killRange1 DontCare e killRange (Equal _ x y) = Equal noRange x y killRange (Ellipsis _) = Ellipsis noRange killRange (Generalized e) = killRange1 Generalized e instance KillRange LamBinding where killRange (DomainFree b) = killRange1 DomainFree b killRange (DomainFull t) = killRange1 DomainFull t instance KillRange LHS where killRange (LHS p r w e) = killRange4 LHS p r w e instance KillRange LamClause where killRange (LamClause a b c d) = killRange4 LamClause a b c d instance KillRange DoStmt where killRange (DoBind r p e w) = killRange4 DoBind r p e w killRange (DoThen e) = killRange1 DoThen e killRange (DoLet r ds) = killRange2 DoLet r ds instance KillRange ModuleApplication where killRange (SectionApp _ t e) = killRange2 (SectionApp noRange) t e killRange (RecordModuleInstance _ q) = killRange1 (RecordModuleInstance noRange) q instance KillRange e => KillRange (OpApp e) where killRange (SyntaxBindingLambda _ l e) = killRange2 (SyntaxBindingLambda noRange) l e killRange (Ordinary e) = killRange1 Ordinary e instance KillRange Pattern where killRange (IdentP q) = killRange1 IdentP q killRange (AppP p ps) = killRange2 AppP p ps killRange (RawAppP _ p) = killRange1 (RawAppP noRange) p killRange (OpAppP _ n ns p) = killRange3 (OpAppP noRange) n ns p killRange (HiddenP _ n) = killRange1 (HiddenP noRange) n killRange (InstanceP _ n) = killRange1 (InstanceP noRange) n killRange (ParenP _ p) = killRange1 (ParenP noRange) p killRange (WildP _) = WildP noRange killRange (AbsurdP _) = AbsurdP noRange killRange (AsP _ n p) = killRange2 (AsP noRange) n p killRange (DotP _ e) = killRange1 (DotP noRange) e killRange (LitP l) = killRange1 LitP l killRange (QuoteP _) = QuoteP noRange killRange (RecP _ fs) = killRange1 (RecP noRange) fs killRange (EqualP _ es) = killRange1 (EqualP noRange) es killRange (EllipsisP _) = EllipsisP noRange killRange (WithP _ p) = killRange1 (WithP noRange) p instance KillRange Pragma where killRange (OptionsPragma _ s) = OptionsPragma noRange s killRange (BuiltinPragma _ s e) = killRange1 (BuiltinPragma noRange s) e killRange (RewritePragma _ _ qs) = killRange1 (RewritePragma noRange noRange) qs killRange (StaticPragma _ q) = killRange1 (StaticPragma noRange) q killRange (InjectivePragma _ q) = killRange1 (InjectivePragma noRange) q killRange (InlinePragma _ b q) = killRange1 (InlinePragma noRange b) q killRange (CompilePragma _ b q s) = killRange1 (\ q -> CompilePragma noRange b q s) q killRange (ForeignPragma _ b s) = ForeignPragma noRange b s killRange (ImpossiblePragma _) = ImpossiblePragma noRange killRange (TerminationCheckPragma _ t) = TerminationCheckPragma noRange (killRange t) killRange (NoCoverageCheckPragma _) = NoCoverageCheckPragma noRange killRange (WarningOnUsage _ nm str) = WarningOnUsage noRange (killRange nm) str killRange (WarningOnImport _ str) = WarningOnImport noRange str killRange (CatchallPragma _) = CatchallPragma noRange killRange (DisplayPragma _ lhs rhs) = killRange2 (DisplayPragma noRange) lhs rhs killRange (EtaPragma _ q) = killRange1 (EtaPragma noRange) q killRange (NoPositivityCheckPragma _) = NoPositivityCheckPragma noRange killRange (PolarityPragma _ q occs) = killRange1 (\q -> PolarityPragma noRange q occs) q killRange (NoUniverseCheckPragma _) = NoUniverseCheckPragma noRange instance KillRange RHS where killRange AbsurdRHS = AbsurdRHS killRange (RHS e) = killRange1 RHS e instance KillRange TypedBinding where killRange (TBind _ b e) = killRange2 (TBind noRange) b e killRange (TLet r ds) = killRange2 TLet r ds instance KillRange WhereClause where killRange NoWhere = NoWhere killRange (AnyWhere d) = killRange1 AnyWhere d killRange (SomeWhere n a d) = killRange3 SomeWhere n a d ------------------------------------------------------------------------ -- NFData instances -- | Ranges are not forced. instance NFData Expr where rnf (Ident a) = rnf a rnf (Lit a) = rnf a rnf (QuestionMark _ a) = rnf a rnf (Underscore _ a) = rnf a rnf (RawApp _ a) = rnf a rnf (App _ a b) = rnf a `seq` rnf b rnf (OpApp _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (WithApp _ a b) = rnf a `seq` rnf b rnf (HiddenArg _ a) = rnf a rnf (InstanceArg _ a) = rnf a rnf (Lam _ a b) = rnf a `seq` rnf b rnf (AbsurdLam _ a) = rnf a rnf (ExtendedLam _ a) = rnf a rnf (Fun _ a b) = rnf a `seq` rnf b rnf (Pi a b) = rnf a `seq` rnf b rnf (Set _) = () rnf (Prop _) = () rnf (SetN _ a) = rnf a rnf (PropN _ a) = rnf a rnf (Rec _ a) = rnf a rnf (RecUpdate _ a b) = rnf a `seq` rnf b rnf (Let _ a b) = rnf a `seq` rnf b rnf (Paren _ a) = rnf a rnf (IdiomBrackets _ a)= rnf a rnf (DoBlock _ a) = rnf a rnf (Absurd _) = () rnf (As _ a b) = rnf a `seq` rnf b rnf (Dot _ a) = rnf a rnf (DoubleDot _ a) = rnf a rnf (ETel a) = rnf a rnf (Quote _) = () rnf (QuoteTerm _) = () rnf (Tactic _ a) = rnf a rnf (Unquote _) = () rnf (DontCare a) = rnf a rnf (Equal _ a b) = rnf a `seq` rnf b rnf (Ellipsis _) = () rnf (Generalized e) = rnf e -- | Ranges are not forced. instance NFData Pattern where rnf (IdentP a) = rnf a rnf (QuoteP _) = () rnf (AppP a b) = rnf a `seq` rnf b rnf (RawAppP _ a) = rnf a rnf (OpAppP _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (HiddenP _ a) = rnf a rnf (InstanceP _ a) = rnf a rnf (ParenP _ a) = rnf a rnf (WildP _) = () rnf (AbsurdP _) = () rnf (AsP _ a b) = rnf a `seq` rnf b rnf (DotP _ a) = rnf a rnf (LitP a) = rnf a rnf (RecP _ a) = rnf a rnf (EqualP _ es) = rnf es rnf (EllipsisP _) = () rnf (WithP _ a) = rnf a -- | Ranges are not forced. instance NFData Declaration where rnf (TypeSig a b c d) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d rnf (FieldSig a b c d) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d rnf (Generalize _ a) = rnf a rnf (Field _ fs) = rnf fs rnf (FunClause a b c d) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d rnf (DataSig _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (Data _ a b c d) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d rnf (DataDef _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (RecordSig _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (RecordDef _ a b c d e f) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d `seq` rnf e `seq` rnf f rnf (Record _ a b c d e f g) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d `seq` rnf e `seq` rnf f `seq` rnf g rnf (Infix a b) = rnf a `seq` rnf b rnf (Syntax a b) = rnf a `seq` rnf b rnf (PatternSyn _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (Mutual _ a) = rnf a rnf (Abstract _ a) = rnf a rnf (Private _ _ a) = rnf a rnf (InstanceB _ a) = rnf a rnf (Macro _ a) = rnf a rnf (Postulate _ a) = rnf a rnf (Primitive _ a) = rnf a rnf (Open _ a b) = rnf a `seq` rnf b rnf (Import _ a b _ c) = rnf a `seq` rnf b `seq` rnf c rnf (ModuleMacro _ a b _ c) = rnf a `seq` rnf b `seq` rnf c rnf (Module _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (UnquoteDecl _ a b) = rnf a `seq` rnf b rnf (UnquoteDef _ a b) = rnf a `seq` rnf b rnf (Pragma a) = rnf a -- | Ranges are not forced. instance NFData Pragma where rnf (OptionsPragma _ a) = rnf a rnf (BuiltinPragma _ a b) = rnf a `seq` rnf b rnf (RewritePragma _ _ a) = rnf a rnf (CompilePragma _ a b c) = rnf a `seq` rnf b `seq` rnf c rnf (ForeignPragma _ b s) = rnf b `seq` rnf s rnf (StaticPragma _ a) = rnf a rnf (InjectivePragma _ a) = rnf a rnf (InlinePragma _ _ a) = rnf a rnf (ImpossiblePragma _) = () rnf (EtaPragma _ a) = rnf a rnf (TerminationCheckPragma _ a) = rnf a rnf (NoCoverageCheckPragma _) = () rnf (WarningOnUsage _ a b) = rnf a `seq` rnf b rnf (WarningOnImport _ a) = rnf a rnf (CatchallPragma _) = () rnf (DisplayPragma _ a b) = rnf a `seq` rnf b rnf (NoPositivityCheckPragma _) = () rnf (PolarityPragma _ a b) = rnf a `seq` rnf b rnf (NoUniverseCheckPragma _) = () -- | Ranges are not forced. instance NFData AsName where rnf (AsName a _) = rnf a -- | Ranges are not forced. instance NFData a => NFData (TypedBinding' a) where rnf (TBind _ a b) = rnf a `seq` rnf b rnf (TLet _ a) = rnf a -- | Ranges are not forced. instance NFData ModuleApplication where rnf (SectionApp _ a b) = rnf a `seq` rnf b rnf (RecordModuleInstance _ a) = rnf a -- | Ranges are not forced. instance NFData a => NFData (OpApp a) where rnf (SyntaxBindingLambda _ a b) = rnf a `seq` rnf b rnf (Ordinary a) = rnf a -- | Ranges are not forced. instance NFData LHS where rnf (LHS a b c d) = rnf a `seq` rnf b `seq` rnf c `seq` rnf d instance NFData a => NFData (FieldAssignment' a) where rnf (FieldAssignment a b) = rnf a `seq` rnf b instance NFData ModuleAssignment where rnf (ModuleAssignment a b c) = rnf a `seq` rnf b `seq` rnf c instance NFData a => NFData (WhereClause' a) where rnf NoWhere = () rnf (AnyWhere a) = rnf a rnf (SomeWhere a b c) = rnf a `seq` rnf b `seq` rnf c instance NFData LamClause where rnf (LamClause a b c d) = rnf (a, b, c, d) instance NFData a => NFData (LamBinding' a) where rnf (DomainFree a) = rnf a rnf (DomainFull a) = rnf a instance NFData Binder where rnf (Binder a b) = rnf a `seq` rnf b instance NFData BoundName where rnf (BName a b c) = rnf a `seq` rnf b `seq` rnf c instance NFData a => NFData (RHS' a) where rnf AbsurdRHS = () rnf (RHS a) = rnf a instance NFData DoStmt where rnf (DoBind _ p e w) = rnf (p, e, w) rnf (DoThen e) = rnf e rnf (DoLet _ ds) = rnf ds