module Agda.TypeChecking.Pretty ( module Agda.TypeChecking.Pretty , module Data.Semigroup -- This re-export can be removed once ))) import qualified Data.Foldable as Fold import Agda.Syntax.Position import Agda.Syntax.Common import Agda.Syntax.Fixity import Agda.Syntax.Internal import Agda.Syntax.Literal import Agda.Syntax.Translation.InternalToAbstract import Agda.Syntax.Translation.ReflectedToAbstract import Agda.Syntax.Translation.AbstractToConcrete import qualified Agda.Syntax.Translation.AbstractToConcrete as Reexport (MonadAbsToCon) import qualified Agda.Syntax.Translation.ReflectedToAbstract as R import qualified Agda.Syntax.Abstract as A import qualified Agda.Syntax.Concrete as C import qualified Agda.Syntax.Abstract.Pretty as AP import Agda.Syntax.Concrete.Pretty (bracesAndSemicolons) import qualified Agda.Syntax.Concrete.Pretty as CP import qualified Agda.Syntax.Info as A import Agda.Syntax.Scope.Base (AbstractName(..)) import Agda.Syntax.Scope.Monad (withContextPrecedence) import Agda.TypeChecking.Coverage.SplitTree import Agda.TypeChecking.Monad import Agda.TypeChecking.Positivity.Occurrence import Agda.TypeChecking.Substitute import Agda.Utils.Graph.AdjacencyMap.Unidirectional (Graph) import qualified Agda.Utils.Graph.AdjacencyMap.Unidirectional as Graph import Agda.Utils.List1 ( List1, pattern (:|) ) import qualified Agda.Utils.List1 as List1 import Agda.Utils.Maybe import Agda.Utils.Null import Agda.Utils.Permutation (Permutation) import Agda.Utils.Pretty (Pretty, prettyShow) import qualified Agda.Utils.Pretty as P import Agda.Utils.Impossible --------------------------------------------------------------------------- -- * Wrappers for pretty printing combinators --------------------------------------------------------------------------- type Doc = P.Doc comma, colon, equals :: Applicative m => m Doc comma = pure P.comma colon = pure P.colon equals = pure P.equals pretty :: (Applicative m, P.Pretty a) => a -> m Doc pretty x = pure $ P.pretty x prettyA :: (ToConcrete a, P.Pretty (ConOfAbs a), MonadAbsToCon m) => a -> m Doc prettyA x = AP.prettyA x prettyAs :: (ToConcrete a, ConOfAbs a ~ [ce], P.Pretty ce, MonadAbsToCon m) => a -> m Doc prettyAs x = AP.prettyAs x text :: Applicative m => String -> m Doc text s = pure $ P.text s multiLineText :: Applicative m => String -> m Doc multiLineText s = pure $ P.multiLineText s pwords :: Applicative m => String -> [m Doc] pwords s = map pure $ P.pwords s fwords :: Applicative m => String -> m Doc fwords s = pure $ P.fwords s sep, fsep, hsep, hcat, vcat :: (Applicative m, Foldable t) => t (m Doc) -> m Doc sep ds = P.sep <$> sequenceA (Fold.toList ds) fsep ds = P.fsep <$> sequenceA (Fold.toList ds) hsep ds = P.hsep <$> sequenceA (Fold.toList ds) hcat ds = P.hcat <$> sequenceA (Fold.toList ds) vcat ds = P.vcat <$> sequenceA (Fold.toList ds) hang :: Applicative m => m Doc -> Int -> m Doc -> m Doc hang p n q = P.hang <$> p <*> pure n <*> q infixl 6 <+>, infixl 5 $$, $+$ ($$), ($+$), (<+>), () :: Applicative m => m Doc -> m Doc -> m Doc d1 $$ d2 = (P.$$) <$> d1 <*> d2 d1 $+$ d2 = (P.$+$) <$> d1 <*> d2 d1 <+> d2 = (P.<+>) <$> d1 <*> d2 d1 d2 = (P.) <$> d1 <*> d2 nest :: Functor m => Int -> m Doc -> m Doc nest n d = P.nest n <$> d braces, dbraces, brackets, parens, parensNonEmpty , doubleQuotes, quotes :: Functor m => m Doc -> m Doc braces d = P.braces <$> d dbraces d = CP.dbraces <$> d brackets d = P.brackets <$> d parens d = P.parens <$> d parensNonEmpty d = P.parensNonEmpty <$> d doubleQuotes d = P.doubleQuotes <$> d quotes d = P.quotes <$> d pshow :: (Applicative m, Show a) => a -> m Doc pshow = pure . P.pshow -- | Comma-separated list in brackets. prettyList :: (Applicative m, Semigroup (m Doc), Foldable t) => t (m Doc) -> m Doc prettyList ds = P.pretty <$> sequenceA (Fold.toList ds) -- | 'prettyList' without the brackets. prettyList_ :: (Applicative m, Semigroup (m Doc), Foldable t) => t (m Doc) -> m Doc prettyList_ ds = fsep $ punctuate comma ds punctuate :: (Applicative m, Semigroup (m Doc), Foldable t) => m Doc -> t (m Doc) -> [m Doc] punctuate d ts | null ds = [] | otherwise = zipWith (<>) ds (replicate n d ++ [pure empty]) where ds = Fold.toList ts n = length ds - 1 --------------------------------------------------------------------------- -- * The PrettyTCM class --------------------------------------------------------------------------- type MonadPretty m = ( MonadReify m , MonadAbsToCon m , IsString (m Doc) , Null (m Doc) , Semigroup (m Doc) ) -- This instance is to satify the constraints of superclass MonadPretty: -- | This instance is more specific than a generic instance -- @Semigroup a => Semigroup (TCM a)@. instance {-# OVERLAPPING #-} Semigroup (TCM Doc) where (<>) = liftA2 (<>) class PrettyTCM a where prettyTCM :: MonadPretty m => a -> m Doc -- | Pretty print with a given context precedence prettyTCMCtx :: (PrettyTCM a, MonadPretty m) => Precedence -> a -> m Doc prettyTCMCtx p = withContextPrecedence p . prettyTCM instance {-# OVERLAPPING #-} PrettyTCM String where prettyTCM = text instance PrettyTCM Bool where prettyTCM = pretty instance PrettyTCM C.Name where prettyTCM = pretty instance PrettyTCM C.QName where prettyTCM = pretty instance PrettyTCM Comparison where prettyTCM = pretty instance PrettyTCM Literal where prettyTCM = pretty instance PrettyTCM Nat where prettyTCM = pretty instance PrettyTCM ProblemId where prettyTCM = pretty instance PrettyTCM Range where prettyTCM = pretty instance PrettyTCM CheckpointId where prettyTCM = pretty -- instance PrettyTCM Interval where prettyTCM = pretty -- instance PrettyTCM Position where prettyTCM = pretty instance PrettyTCM a => PrettyTCM (Closure a) where prettyTCM cl = enterClosure cl prettyTCM instance {-# OVERLAPPABLE #-} PrettyTCM a => PrettyTCM [a] where prettyTCM = prettyList . map prettyTCM instance {-# OVERLAPPABLE #-} PrettyTCM a => PrettyTCM (Maybe a) where prettyTCM = maybe empty prettyTCM instance (PrettyTCM a, PrettyTCM b) => PrettyTCM (a,b) where prettyTCM (a, b) = parens $ prettyTCM a <> comma <> prettyTCM b instance (PrettyTCM a, PrettyTCM b, PrettyTCM c) => PrettyTCM (a,b,c) where prettyTCM (a, b, c) = parens $ prettyTCM a <> comma <> prettyTCM b <> comma <> prettyTCM c instance PrettyTCM Term where prettyTCM = prettyA <=< reify instance PrettyTCM Type where prettyTCM = prettyA <=< reify instance PrettyTCM Sort where prettyTCM = prettyA <=< reify instance PrettyTCM DisplayTerm where prettyTCM = prettyA <=< reify instance PrettyTCM NamedClause where prettyTCM = prettyA <=< reify instance PrettyTCM (QNamed Clause) where prettyTCM = prettyA <=< reify instance PrettyTCM Level where prettyTCM = prettyA <=< reify . Level instance PrettyTCM (Named_ Term) where prettyTCM = prettyA <=< reify instance PrettyTCM (Arg Term) where prettyTCM = prettyA <=< reify instance PrettyTCM (Arg Type) where prettyTCM = prettyA <=< reify instance PrettyTCM (Arg Bool) where prettyTCM = prettyA <=< reify instance PrettyTCM (Arg A.Expr) where prettyTCM = prettyA <=< reify instance PrettyTCM (NamedArg A.Expr) where prettyTCM = prettyA <=< reify instance PrettyTCM (NamedArg Term) where prettyTCM = prettyA <=< reify instance PrettyTCM (Dom Type) where prettyTCM = prettyA <=< reify instance PrettyTCM (Dom (Name, Type)) where prettyTCM = prettyA <=< reify instance PrettyTCM Permutation where prettyTCM = text . show instance PrettyTCM Polarity where prettyTCM = text . show instance PrettyTCM IsForced where prettyTCM = text . show prettyR :: (R.ToAbstract r, PrettyTCM (R.AbsOfRef r), MonadPretty m, MonadError TCErr m) => r -> m Doc prettyR = prettyTCM <=< toAbstractWithoutImplicit instance (Pretty a, PrettyTCM a, EndoSubst a) => PrettyTCM (Substitution' a) where prettyTCM IdS = "idS" prettyTCM (Wk m IdS) = "wkS" <+> pretty m prettyTCM (EmptyS _) = "emptyS" prettyTCM rho = prettyTCM u <+> comma <+> prettyTCM rho1 where (rho1, rho2) = splitS 1 rho u = lookupS rho2 0 instance PrettyTCM Clause where prettyTCM cl = do x <- qualify_ <$> freshName_ ("" :: String) prettyTCM (QNamed x cl) instance PrettyTCM a => PrettyTCM (Judgement a) where prettyTCM (HasType a cmp t) = prettyTCM a <+> ":" <+> prettyTCM t prettyTCM (IsSort a t) = "Sort" <+> prettyTCM a <+> ":" <+> prettyTCM t instance PrettyTCM MetaId where prettyTCM x = do mn <- getMetaNameSuggestion x pretty $ NamedMeta mn x instance PrettyTCM a => PrettyTCM (Blocked a) where prettyTCM (Blocked x a) = ("[" <+> prettyTCM a <+> "]") <> text (P.prettyShow x) prettyTCM (NotBlocked _ x) = prettyTCM x instance (PrettyTCM k, PrettyTCM v) => PrettyTCM (Map k v) where prettyTCM m = "Map" <> braces (sep $ punctuate comma [ hang (prettyTCM k <+> "=") 2 (prettyTCM v) | (k, v) <- Map.toList m ]) -- instance {-# OVERLAPPING #-} PrettyTCM ArgName where -- prettyTCM = text . P.prettyShow -- instance (Reify a e, ToConcrete e c, P.Pretty c, PrettyTCM a) => PrettyTCM (Elim' a) where instance PrettyTCM Elim where prettyTCM (IApply x y v) = "I$" <+> prettyTCM v prettyTCM (Apply v) = "$" <+> prettyTCM v prettyTCM (Proj _ f)= "." <> prettyTCM f instance PrettyTCM a => PrettyTCM (MaybeReduced a) where prettyTCM = prettyTCM . ignoreReduced instance PrettyTCM EqualityView where prettyTCM v = prettyTCM $ equalityUnview v instance PrettyTCM A.Expr where prettyTCM = prettyA instance PrettyTCM A.TypedBinding where prettyTCM = prettyA instance PrettyTCM Relevance where prettyTCM = pretty instance PrettyTCM Quantity where prettyTCM = pretty instance PrettyTCM Modality where prettyTCM mod = hsep [ prettyTCM (getQuantity mod) , prettyTCM (getRelevance mod) ] instance PrettyTCM Blocker where prettyTCM (UnblockOnAll us) = "all" <> parens (fsep $ punctuate "," $ map prettyTCM $ Set.toList us) prettyTCM (UnblockOnAny us) = "any" <> parens (fsep $ punctuate "," $ map prettyTCM $ Set.toList us) prettyTCM (UnblockOnMeta m) = prettyTCM m prettyTCM (UnblockOnProblem p) = "problem" <+> pretty p instance PrettyTCM CompareAs where prettyTCM (AsTermsOf a) = ":" <+> prettyTCMCtx TopCtx a prettyTCM AsSizes = ":" <+> do prettyTCM =<< sizeType prettyTCM AsTypes = empty instance PrettyTCM TypeCheckingProblem where prettyTCM (CheckExpr cmp e a) = sep [ prettyA e <+> ":?", prettyTCM a ] prettyTCM (CheckArgs _ _ _ es t0 t1 _) = sep [ parens $ "_ :" <+> prettyTCM t0 , nest 2 $ prettyList $ map prettyA es , nest 2 $ ":?" <+> prettyTCM t1 ] prettyTCM (CheckProjAppToKnownPrincipalArg cmp e _ _ _ t _ _ _ _) = prettyTCM (CheckExpr cmp e t) prettyTCM (CheckLambda cmp (Arg ai (xs, mt)) e t) = sep [ pure CP.lambda <+> (CP.prettyRelevance ai . CP.prettyHiding ai (if isNothing mt && length xs == 1 then id else P.parens) <$> do fsep $ map prettyTCM (List1.toList xs) ++ caseMaybe mt [] (\ a -> [":", prettyTCM a])) <+> pure CP.arrow <+> prettyTCM e <+> ":?" , prettyTCM t ] prettyTCM (DoQuoteTerm _ v _) = do e <- reify v prettyTCM (A.App A.defaultAppInfo_ (A.QuoteTerm A.exprNoRange) (defaultNamedArg e)) instance PrettyTCM a => PrettyTCM (WithHiding a) where prettyTCM (WithHiding h a) = CP.prettyHiding h id <$> prettyTCM a instance PrettyTCM Name where prettyTCM x = P.pretty <$> abstractToConcrete_ x instance PrettyTCM QName where prettyTCM x = P.pretty <$> abstractToConcrete_ x instance PrettyTCM ModuleName where prettyTCM x = P.pretty <$> abstractToConcrete_ x instance PrettyTCM AbstractName where prettyTCM = prettyTCM . anameName instance PrettyTCM ConHead where prettyTCM = prettyTCM . conName instance PrettyTCM Telescope where prettyTCM tel = P.fsep . map P.pretty <$> do tel <- reify tel runAbsToCon $ bindToConcrete tel return newtype PrettyContext = PrettyContext Context instance PrettyTCM PrettyContext where prettyTCM (PrettyContext ctx) = prettyTCM $ telFromList' nameToArgName $ reverse ctx instance PrettyTCM DBPatVar where prettyTCM = prettyTCM . var . dbPatVarIndex instance PrettyTCM a => PrettyTCM (Pattern' a) where prettyTCM :: forall m. MonadPretty m => Pattern' a -> m Doc prettyTCM (IApplyP _ _ _ x) = prettyTCM x prettyTCM (VarP _ x) = prettyTCM x prettyTCM (DotP _ t) = ".(" <> prettyTCM t <> ")" prettyTCM (DefP o q ps) = parens $ prettyTCM q <+> fsep (map (prettyTCM . namedArg) ps) prettyTCM (ConP c i ps) = -- (if b then braces else parens) $ prTy $ parens $ prettyTCM c <+> fsep (map (prettyTCM . namedArg) ps) where -- NONE OF THESE BINDINGS IS USED AT THE MOMENT: b = conPRecord i && patOrigin (conPInfo i) /= PatOCon showRec :: m Doc -- Defined, but currently not used showRec = sep [ "record" , bracesAndSemicolons <$> zipWithM showField (conFields c) ps ] showField :: Arg QName -> NamedArg (Pattern' a) -> m Doc -- NB:: Defined but not used showField (Arg ai x) p = sep [ prettyTCM (A.qnameName x) <+> "=" , nest 2 $ prettyTCM $ namedArg p ] showCon :: m Doc -- NB:: Defined but not used showCon = parens $ prTy $ prettyTCM c <+> fsep (map (prettyTCM . namedArg) ps) prTy d = caseMaybe (conPType i) d $ \ t -> d <+> ":" <+> prettyTCM t prettyTCM (LitP _ l) = text (P.prettyShow l) prettyTCM (ProjP _ q) = text ("." ++ P.prettyShow q) -- | Proper pretty printing of patterns: prettyTCMPatterns :: MonadPretty m => [NamedArg DeBruijnPattern] -> m [Doc] prettyTCMPatterns = mapM prettyA <=< reifyPatterns prettyTCMPatternList :: MonadPretty m => [NamedArg DeBruijnPattern] -> m Doc prettyTCMPatternList = prettyList . map prettyA <=< reifyPatterns instance PrettyTCM (Elim' DisplayTerm) where prettyTCM (IApply x y v) = "$" <+> prettyTCM v prettyTCM (Apply v) = "$" <+> prettyTCM (unArg v) prettyTCM (Proj _ f)= "." <> prettyTCM f instance PrettyTCM NLPat where prettyTCM (PVar x bvs) = prettyTCM (Var x (map (Apply . fmap var) bvs)) prettyTCM (PDef f es) = parens $ prettyTCM f <+> fsep (map prettyTCM es) prettyTCM (PLam i u) = parens $ text ("λ " ++ absName u ++ " →") <+> addContext (absName u) (prettyTCM $ absBody u) prettyTCM (PPi a b) = parens $ text ("(" ++ absName b ++ " :") <+> (prettyTCM (unDom a) <> ") →") <+> addContext (absName b) (prettyTCM $ unAbs b) prettyTCM (PSort s) = prettyTCM s prettyTCM (PBoundVar i []) = prettyTCM (var i) prettyTCM (PBoundVar i es) = parens $ prettyTCM (var i) <+> fsep (map prettyTCM es) prettyTCM (PTerm t) = "." <> parens (prettyTCM t) instance PrettyTCM NLPType where prettyTCM (NLPType s a) = prettyTCM a instance PrettyTCM NLPSort where prettyTCM = \case PType l -> parens $ "Set" <+> prettyTCM l PProp l -> parens $ "Prop" <+> prettyTCM l PInf f n -> prettyTCM (Inf f n :: Sort) PSizeUniv -> prettyTCM (SizeUniv :: Sort) PLockUniv -> prettyTCM (LockUniv :: Sort) instance PrettyTCM (Elim' NLPat) where prettyTCM (IApply x y v) = prettyTCM v prettyTCM (Apply v) = prettyTCM (unArg v) prettyTCM (Proj _ f)= "." <> prettyTCM f instance PrettyTCM (Type' NLPat) where prettyTCM = prettyTCM . unEl instance PrettyTCM RewriteRule where prettyTCM (RewriteRule q gamma f ps rhs b c) = fsep [ prettyTCM q , prettyTCM gamma <+> " |- " , addContext gamma $ sep [ prettyTCM (PDef f ps) , " --> " , prettyTCM rhs , " : " , prettyTCM b ] ] instance PrettyTCM Occurrence where prettyTCM occ = text $ "-[" ++ prettyShow occ ++ "]->" -- | Pairing something with a node (for printing only). data WithNode n a = WithNode n a -- | Pretty-print something paired with a (printable) node. -- | This intermediate typeclass exists to avoid UndecidableInstances. class PrettyTCMWithNode a where prettyTCMWithNode :: (PrettyTCM n, MonadPretty m) => WithNode n a -> m Doc instance PrettyTCMWithNode Occurrence where prettyTCMWithNode (WithNode n o) = prettyTCM o <+> prettyTCM n instance (PrettyTCM n, PrettyTCMWithNode e) => PrettyTCM (Graph n e) where prettyTCM g = vcat $ map pr $ Map.assocs $ Graph.graph g where pr (n, es) = sep [ prettyTCM n , nest 2 $ vcat $ map (prettyTCMWithNode . uncurry WithNode) $ Map.assocs es ] instance PrettyTCM SplitTag where prettyTCM (SplitCon c) = prettyTCM c prettyTCM (SplitLit l) = prettyTCM l prettyTCM SplitCatchall = return underscore instance PrettyTCM Candidate where prettyTCM c = case candidateKind c of (GlobalCandidate q) -> prettyTCM q LocalCandidate -> prettyTCM $ candidateTerm c