603 lines
20 KiB
Idris
603 lines
20 KiB
Idris
module Quox.Syntax.Term.Pretty
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import Quox.Syntax.Term.Base
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import Quox.Syntax.Term.Subst
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import Quox.Context
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import Quox.Pretty
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import Data.Vect
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import Derive.Prelude
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%default total
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%language ElabReflection
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export
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prettyUniverse : {opts : _} -> Universe -> Eff Pretty (Doc opts)
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prettyUniverse = hl Universe . text . show
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export
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prettyTerm : {opts : _} -> BContext d -> BContext n -> Term d n ->
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Eff Pretty (Doc opts)
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export
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prettyElim : {opts : _} -> BContext d -> BContext n -> Elim d n ->
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Eff Pretty (Doc opts)
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private
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BTelescope : Nat -> Nat -> Type
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BTelescope = Telescope' BindName
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private
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superscript : String -> String
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superscript = pack . map sup . unpack where
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sup : Char -> Char
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sup c = case c of
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'0' => '⁰'; '1' => '¹'; '2' => '²'; '3' => '³'; '4' => '⁴'
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'5' => '⁵'; '6' => '⁶'; '7' => '⁷'; '8' => '⁸'; '9' => '⁹'; _ => c
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private
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PiBind : Nat -> Nat -> Type
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PiBind d n = (Qty, BindName, Term d n)
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private
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pbname : PiBind d n -> BindName
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pbname (_, x, _) = x
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private
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record SplitPi d n where
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constructor MkSplitPi
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{0 inner : Nat}
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binds : Telescope (PiBind d) n inner
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cod : Term d inner
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private
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splitPi : Telescope (PiBind d) n n' -> Term d n' -> SplitPi d n
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splitPi binds (Pi qty arg res _) =
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splitPi (binds :< (qty, res.name, arg)) $
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assert_smaller res $ pushSubsts' res.term
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splitPi binds cod = MkSplitPi {binds, cod}
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private
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prettyPiBind1 : {opts : _} ->
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Qty -> BindName -> BContext d -> BContext n -> Term d n ->
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Eff Pretty (Doc opts)
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prettyPiBind1 pi (BN Unused _) dnames tnames s =
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hcat <$> sequence
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[prettyQty pi, dotD,
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withPrec Arg $ assert_total prettyTerm dnames tnames s]
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prettyPiBind1 pi x dnames tnames s = hcat <$> sequence
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[prettyQty pi, dotD,
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hl Delim $ text "(",
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hsep <$> sequence
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[prettyTBind x, hl Delim $ text ":",
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withPrec Outer $ assert_total prettyTerm dnames tnames s],
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hl Delim $ text ")"]
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private
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prettyPiBinds : {opts : _} ->
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BContext d -> BContext n ->
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Telescope (PiBind d) n n' ->
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Eff Pretty (SnocList (Doc opts))
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prettyPiBinds _ _ [<] = pure [<]
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prettyPiBinds dnames tnames (binds :< (q, x, t)) =
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let tnames' = tnames . map pbname binds in
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[|prettyPiBinds dnames tnames binds :<
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prettyPiBind1 q x dnames tnames' t|]
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private
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SigBind : Nat -> Nat -> Type
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SigBind d n = (BindName, Term d n)
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private
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record SplitSig d n where
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constructor MkSplitSig
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{0 inner : Nat}
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binds : Telescope (SigBind d) n inner
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last : Term d inner
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private
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splitSig : Telescope (SigBind d) n n' -> Term d n' -> SplitSig d n
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splitSig binds (Sig fst snd _) =
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splitSig (binds :< (snd.name, fst)) $
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assert_smaller snd $ pushSubsts' snd.term
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splitSig binds last = MkSplitSig {binds, last}
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private
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prettySigBind1 : {opts : _} ->
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BindName -> BContext d -> BContext n -> Term d n ->
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Eff Pretty (Doc opts)
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prettySigBind1 (BN Unused _) dnames tnames s =
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withPrec InTimes $ assert_total prettyTerm dnames tnames s
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prettySigBind1 x dnames tnames s = hcat <$> sequence
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[hl Delim $ text "(",
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hsep <$> sequence
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[prettyTBind x, hl Delim $ text ":",
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withPrec Outer $ assert_total prettyTerm dnames tnames s],
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hl Delim $ text ")"]
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private
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prettySigBinds : {opts : _} ->
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BContext d -> BContext n ->
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Telescope (SigBind d) n n' ->
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Eff Pretty (SnocList (Doc opts))
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prettySigBinds _ _ [<] = pure [<]
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prettySigBinds dnames tnames (binds :< (x, t)) =
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let tnames' = tnames . map fst binds in
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[|prettySigBinds dnames tnames binds :<
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prettySigBind1 x dnames tnames' t|]
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private
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prettyTypeLine : {opts : _} ->
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BContext d -> BContext n ->
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DScopeTerm d n ->
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Eff Pretty (Doc opts)
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prettyTypeLine dnames tnames (S _ (N body)) =
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withPrec Arg (prettyTerm dnames tnames body)
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prettyTypeLine dnames tnames (S [< i] (Y body)) =
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parens =<< do
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i' <- prettyDBind i
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ty' <- withPrec Outer $ prettyTerm (dnames :< i) tnames body
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pure $ sep [hsep [i', !darrowD], ty']
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private
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data NameSort = T | D
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%runElab derive "NameSort" [Eq]
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private
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NameChunks : Type
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NameChunks = SnocList (NameSort, SnocList BindName)
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private
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record SplitLams d n where
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constructor MkSplitLams
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{0 dinner, ninner : Nat}
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dnames : BTelescope d dinner
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tnames : BTelescope n ninner
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chunks : NameChunks
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body : Term dinner ninner
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private
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splitLams : Term d n -> SplitLams d n
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splitLams s = go [<] [<] [<] (pushSubsts' s)
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where
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push : NameSort -> BindName -> NameChunks -> NameChunks
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push s y [<] = [< (s, [< y])]
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push s y (xss :< (s', xs)) =
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if s == s' then xss :< (s', xs :< y)
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else xss :< (s', xs) :< (s, [< y])
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go : BTelescope d d' -> BTelescope n n' ->
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SnocList (NameSort, SnocList BindName) ->
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Term d' n' -> SplitLams d n
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go dnames tnames chunks (Lam b _) =
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go dnames (tnames :< b.name) (push T b.name chunks) $
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assert_smaller b $ pushSubsts' b.term
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go dnames tnames chunks (DLam b _) =
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go (dnames :< b.name) tnames (push D b.name chunks) $
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assert_smaller b $ pushSubsts' b.term
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go dnames tnames chunks s =
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MkSplitLams dnames tnames chunks s
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private
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splitTuple : SnocList (Term d n) -> Term d n -> SnocList (Term d n)
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splitTuple ss p@(Pair t1 t2 _) =
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splitTuple (ss :< t1) $ assert_smaller p $ pushSubsts' t2
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splitTuple ss t = ss :< t
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private
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prettyTArg : {opts : _} -> BContext d -> BContext n ->
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Term d n -> Eff Pretty (Doc opts)
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prettyTArg dnames tnames s =
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withPrec Arg $ assert_total prettyTerm dnames tnames s
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private
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prettyDArg : {opts : _} -> BContext d -> Dim d -> Eff Pretty (Doc opts)
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prettyDArg dnames p = [|atD <+> withPrec Arg (prettyDim dnames p)|]
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private
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splitApps : Elim d n -> (Elim d n, List (Either (Dim d) (Term d n)))
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splitApps e = go [] (pushSubsts' e)
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where
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go : List (Either (Dim d) (Term d n)) -> Elim d n ->
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(Elim d n, List (Either (Dim d) (Term d n)))
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go xs e@(App f s _) =
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go (Right s :: xs) $ assert_smaller e $ pushSubsts' f
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go xs e@(DApp f p _) =
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go (Left p :: xs) $ assert_smaller e $ pushSubsts' f
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go xs s = (s, xs)
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private
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prettyDTApps : {opts : _} ->
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BContext d -> BContext n ->
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Elim d n -> List (Either (Dim d) (Term d n)) ->
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Eff Pretty (Doc opts)
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prettyDTApps dnames tnames f xs = do
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f <- withPrec Arg $ assert_total prettyElim dnames tnames f
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xs <- for xs $ either (prettyDArg dnames) (prettyTArg dnames tnames)
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parensIfM App =<< prettyAppD f xs
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private
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record CaseArm opts d n where
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constructor MkCaseArm
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{0 dinner, ninner : Nat}
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pat : Doc opts
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dbinds : BTelescope d dinner -- 🍴
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tbinds : BTelescope n ninner
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body : Term dinner ninner
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parameters {opts : LayoutOpts} (dnames : BContext d) (tnames : BContext n)
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private
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prettyCaseArm : CaseArm opts d n -> Eff Pretty (Doc opts)
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prettyCaseArm (MkCaseArm pat dbinds tbinds body) = do
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body <- withPrec Outer $ assert_total
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prettyTerm (dnames . dbinds) (tnames . tbinds) body
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header <- (pat <++>) <$> darrowD
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pure $ ifMultiline (header <++> body) (vsep [header, !(indentD body)])
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private
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prettyCaseBody : List (CaseArm opts d n) -> Eff Pretty (List (Doc opts))
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prettyCaseBody xs = traverse prettyCaseArm xs
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private
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prettyCompPat : {opts : _} -> DimConst -> BindName -> Eff Pretty (Doc opts)
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prettyCompPat e x = [|prettyDimConst e <++> prettyDBind x|]
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private
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prettyCompArm : {opts : _} -> BContext d -> BContext n ->
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DimConst -> DScopeTerm d n -> Eff Pretty (Doc opts)
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prettyCompArm dnames tnames e s = prettyCaseArm dnames tnames $
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MkCaseArm !(prettyCompPat e s.name) [< s.name] [<] s.term
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private
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layoutComp : {opts : _} ->
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(typq : List (Doc opts)) -> (val, r : Doc opts) ->
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(arms : List (Doc opts)) -> Eff Pretty (Doc opts)
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layoutComp typq val r arms = do
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comp <- compD; lb <- hl Delim "{"; rb <- hl Delim "}"
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ind <- askAt INDENT
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pure $ ifMultiline
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(hsep $ concat {t = List} [[comp], typq, [val, r, lb], arms, [rb]]) $
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(comp <++>
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vsep [sep typq, val, r <++> lb, indent ind $ vsep arms, rb]) <|>
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(vsep $ (comp ::) $ map (indent ind) $ concat {t = List}
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[typq, [val, r <++> lb], map (indent ind) arms, [rb]])
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export
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prettyEnum : {opts : _} -> List String -> Eff Pretty (Doc opts)
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prettyEnum cases =
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tightBraces =<<
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fillSeparateTight !commaD <$>
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traverse (hl Constant . Doc.text . quoteTag) cases
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private
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prettyCaseRet : {opts : _} ->
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BContext d -> BContext n ->
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ScopeTerm d n -> Eff Pretty (Doc opts)
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prettyCaseRet dnames tnames body = withPrec Outer $ case body of
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S _ (N tm) => assert_total prettyTerm dnames tnames tm
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S [< x] (Y tm) => do
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header <- [|prettyTBind x <++> darrowD|]
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body <- assert_total prettyTerm dnames (tnames :< x) tm
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hangDSingle header body
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private
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prettyCase_ : {opts : _} ->
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BContext d -> BContext n ->
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Doc opts -> Elim d n -> ScopeTerm d n -> List (CaseArm opts d n) ->
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Eff Pretty (Doc opts)
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prettyCase_ dnames tnames intro head ret body = do
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head <- assert_total prettyElim dnames tnames head
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ret <- prettyCaseRet dnames tnames ret
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bodys <- prettyCaseBody dnames tnames body
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return <- returnD; of_ <- ofD
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lb <- hl Delim "{"; rb <- hl Delim "}"; semi <- semiD
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ind <- askAt INDENT
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parensIfM Outer $ ifMultiline
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(hsep [intro, head, return, ret, of_, lb, hseparateTight semi bodys, rb])
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(vsep [intro <++> head, return <++> ret, of_ <++> lb,
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indent ind $ vseparateTight semi bodys, rb])
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private
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prettyCase : {opts : _} ->
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BContext d -> BContext n ->
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Qty -> Elim d n -> ScopeTerm d n -> List (CaseArm opts d n) ->
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Eff Pretty (Doc opts)
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prettyCase dnames tnames qty head ret body =
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prettyCase_ dnames tnames ![|caseD <+> prettyQty qty|] head ret body
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private
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LetBinder : Nat -> Nat -> Type
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LetBinder d n = (Qty, BindName, Elim d n)
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private
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LetExpr : Nat -> Nat -> Nat -> Type
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LetExpr d n n' = (Telescope (LetBinder d) n n', Term d n')
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private
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PrettyLetResult : LayoutOpts -> Nat -> Type
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PrettyLetResult opts d =
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Exists $ \n => (BContext n, Term d n, SnocList (Doc opts))
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-- [todo] factor out this and the untyped version somehow
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export
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splitLet : Telescope (LetBinder d) n n' -> Term d n' -> Exists (LetExpr d n)
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splitLet ys t@(Let qty rhs body _) =
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splitLet (ys :< (qty, body.name, rhs)) (assert_smaller t body.term)
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splitLet ys t =
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Evidence _ (ys, t)
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private covering
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prettyLets : {opts : LayoutOpts} ->
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BContext d -> BContext a -> Telescope (LetBinder d) a b ->
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Eff Pretty (SnocList (Doc opts))
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prettyLets dnames xs lets = sequence $ snd $ go lets where
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go : forall b. Telescope (LetBinder d) a b ->
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(BContext b, SnocList (Eff Pretty (Doc opts)))
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go [<] = (xs, [<])
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go (lets :< (qty, x, rhs)) =
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let (ys, docs) = go lets
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doc = do
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x <- prettyTBind x
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rhs <- withPrec Outer $ assert_total prettyElim dnames ys rhs
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hangDSingle (hsep [!letD, x, !cstD]) (hsep [rhs, !inD]) in
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(ys :< x, docs :< doc)
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private
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isDefaultDir : Dim d -> Dim d -> Bool
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isDefaultDir (K Zero _) (K One _) = True
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isDefaultDir _ _ = False
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-- [fixme] use telescopes in Scoped
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private
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toTel : BContext s -> BTelescope n (s + n)
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toTel [<] = [<]
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toTel (ctx :< x) = toTel ctx :< x
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private
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prettyTyCasePat : {opts : _} ->
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(k : TyConKind) -> BContext (arity k) ->
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Eff Pretty (Doc opts)
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prettyTyCasePat KTYPE [<] = typeD
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prettyTyCasePat KIOState [<] = ioStateD
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prettyTyCasePat KPi [< a, b] =
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parens . hsep =<< sequence [prettyTBind a, arrowD, prettyTBind b]
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prettyTyCasePat KSig [< a, b] =
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parens . hsep =<< sequence [prettyTBind a, timesD, prettyTBind b]
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prettyTyCasePat KEnum [<] = hl Syntax $ text "{}"
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prettyTyCasePat KEq [< a0, a1, a, l, r] =
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hsep <$> sequence (eqD :: map prettyTBind [a0, a1, a, l, r])
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prettyTyCasePat KNat [<] = natD
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prettyTyCasePat KString [<] = stringD
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prettyTyCasePat KBOX [< a] = bracks =<< prettyTBind a
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prettyLambda : {opts : _} -> BContext d -> BContext n ->
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Term d n -> Eff Pretty (Doc opts)
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prettyLambda dnames tnames s =
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parensIfM Outer =<< do
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let MkSplitLams {dnames = ds, tnames = ts, chunks, body} = splitLams s
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hangDSingle !(header chunks)
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!(assert_total prettyTerm (dnames . ds) (tnames . ts) body)
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where
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introChar : NameSort -> Eff Pretty (Doc opts)
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introChar T = lamD
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introChar D = dlamD
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prettyBind : NameSort -> BindName -> Eff Pretty (Doc opts)
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prettyBind T = prettyTBind
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prettyBind D = prettyDBind
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header1 : NameSort -> List BindName -> Eff Pretty (Doc opts)
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header1 s xs = hsep <$> sequence
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[introChar s, sep <$> traverse (prettyBind s) xs, darrowD]
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header : NameChunks -> Eff Pretty (Doc opts)
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header cs = sep <$> traverse (\(s, xs) => header1 s (toList xs)) (toList cs)
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prettyDisp : {opts : _} -> Universe -> Eff Pretty (Maybe (Doc opts))
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prettyDisp 0 = pure Nothing
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prettyDisp u = map Just $ hl Universe =<<
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ifUnicode (text $ superscript $ show u) (text $ "^" ++ show u)
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prettyTerm dnames tnames (TYPE l _) =
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case !(askAt FLAVOR) of
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Unicode => do
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star <- hl Syntax "★"
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level <- hl Universe $ text $ superscript $ show l
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pure $ hcat [star, level]
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Ascii => [|hl Syntax "Type" <++> hl Universe (text $ show l)|]
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prettyTerm dnames tnames (IOState _) =
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ioStateD
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prettyTerm dnames tnames (Pi qty arg res _) =
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parensIfM Outer =<< do
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let MkSplitPi {binds, cod} = splitPi [< (qty, res.name, arg)] res.term
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arr <- arrowD
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lines <- map (<++> arr) <$> prettyPiBinds dnames tnames binds
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let tnames = tnames . map pbname binds
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cod <- withPrec Outer $ prettyTerm dnames tnames (assert_smaller res cod)
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pure $ sepSingle $ toList $ lines :< cod
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prettyTerm dnames tnames s@(Lam {}) =
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prettyLambda dnames tnames s
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prettyTerm dnames tnames (Sig fst snd _) =
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parensIfM Times =<< do
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let MkSplitSig {binds, last} = splitSig [< (snd.name, fst)] snd.term
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times <- timesD
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lines <- map (<++> times) <$> prettySigBinds dnames tnames binds
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let tnames = tnames . map Builtin.fst binds
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last <- withPrec InTimes $
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prettyTerm dnames tnames (assert_smaller snd last)
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pure $ sepSingle $ toList $ lines :< last
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prettyTerm dnames tnames p@(Pair fst snd _) =
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parens =<< do
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let elems = splitTuple [< fst] snd
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lines <- for elems $ \t =>
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withPrec Outer $ prettyTerm dnames tnames $ assert_smaller p t
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pure $ separateTight !commaD lines
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prettyTerm dnames tnames (Enum cases _) =
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prettyEnum $ SortedSet.toList cases
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prettyTerm dnames tnames (Tag tag _) =
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prettyTag tag
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prettyTerm dnames tnames (Eq (S _ (N ty)) l r _) =
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parensIfM Eq =<< do
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l <- withPrec InEq $ prettyTerm dnames tnames l
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r <- withPrec InEq $ prettyTerm dnames tnames r
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ty <- withPrec InEq $ prettyTerm dnames tnames ty
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pure $ sep [l <++> !eqndD, r <++> !colonD, ty]
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|
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prettyTerm dnames tnames (Eq ty l r _) =
|
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parensIfM App =<< do
|
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ty <- prettyTypeLine dnames tnames ty
|
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l <- withPrec Arg $ prettyTerm dnames tnames l
|
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r <- withPrec Arg $ prettyTerm dnames tnames r
|
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prettyAppD !eqD [ty, l, r]
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|
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prettyTerm dnames tnames s@(DLam {}) =
|
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prettyLambda dnames tnames s
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|
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prettyTerm dnames tnames (NAT _) = natD
|
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prettyTerm dnames tnames (Nat n _) = hl Syntax $ pshow n
|
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prettyTerm dnames tnames (Succ p _) =
|
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parensIfM App =<<
|
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prettyAppD !succD [!(withPrec Arg $ prettyTerm dnames tnames p)]
|
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|
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prettyTerm dnames tnames (STRING _) = stringD
|
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prettyTerm dnames tnames (Str s _) = prettyStrLit s
|
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|
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prettyTerm dnames tnames (BOX qty ty _) =
|
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bracks . hcat =<<
|
|
sequence [prettyQty qty, dotD,
|
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withPrec Outer $ prettyTerm dnames tnames ty]
|
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|
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prettyTerm dnames tnames (Box val _) =
|
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bracks =<< withPrec Outer (prettyTerm dnames tnames val)
|
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|
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prettyTerm dnames tnames (Let qty rhs body _) = do
|
|
let Evidence _ (lets, body) = splitLet [< (qty, body.name, rhs)] body.term
|
|
heads <- prettyLets dnames tnames lets
|
|
let tnames = tnames . map (\(_, x, _) => x) lets
|
|
body <- withPrec Outer $ assert_total prettyTerm dnames tnames body
|
|
let lines = toList $ heads :< body
|
|
pure $ ifMultiline (hsep lines) (vsep lines)
|
|
|
|
prettyTerm dnames tnames (E e) = prettyElim dnames tnames e
|
|
|
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prettyTerm dnames tnames t0@(CloT (Sub t ph)) =
|
|
prettyTerm dnames tnames $ assert_smaller t0 $ pushSubstsWith' id ph t
|
|
|
|
prettyTerm dnames tnames t0@(DCloT (Sub t ph)) =
|
|
prettyTerm dnames tnames $ assert_smaller t0 $ pushSubstsWith' ph id t
|
|
|
|
prettyElim dnames tnames (F x u _) = do
|
|
x <- prettyFree x
|
|
u <- prettyDisp u
|
|
pure $ maybe x (x <+>) u
|
|
|
|
prettyElim dnames tnames (B i _) =
|
|
prettyTBind $ tnames !!! i
|
|
|
|
prettyElim dnames tnames e@(App {}) =
|
|
let (f, xs) = splitApps e in
|
|
prettyDTApps dnames tnames f xs
|
|
|
|
prettyElim dnames tnames (CasePair qty pair ret body _) = do
|
|
let [< x, y] = body.names
|
|
pat <- parens . hsep =<< sequence
|
|
[[|prettyTBind x <+> commaD|], prettyTBind y]
|
|
prettyCase dnames tnames qty pair ret
|
|
[MkCaseArm pat [<] [< x, y] body.term]
|
|
|
|
prettyElim dnames tnames (Fst pair _) =
|
|
parensIfM App =<< do
|
|
pair <- prettyTArg dnames tnames (E pair)
|
|
prettyAppD !fstD [pair]
|
|
|
|
prettyElim dnames tnames (Snd pair _) =
|
|
parensIfM App =<< do
|
|
pair <- prettyTArg dnames tnames (E pair)
|
|
prettyAppD !sndD [pair]
|
|
|
|
prettyElim dnames tnames (CaseEnum qty tag ret arms _) = do
|
|
arms <- for (SortedMap.toList arms) $ \(tag, body) =>
|
|
pure $ MkCaseArm !(prettyTag tag) [<] [<] body
|
|
prettyCase dnames tnames qty tag ret arms
|
|
|
|
prettyElim dnames tnames (CaseNat qty qtyIH nat ret zero succ _) = do
|
|
let zarm = MkCaseArm !zeroD [<] [<] zero
|
|
[< p, ih] = succ.names
|
|
spat0 <- [|succD <++> prettyTBind p|]
|
|
ihpat0 <- map hcat $ sequence [prettyQty qtyIH, dotD, prettyTBind ih]
|
|
spat <- if ih.val == Unused
|
|
then pure spat0
|
|
else pure $ hsep [spat0 <+> !commaD, ihpat0]
|
|
let sarm = MkCaseArm spat [<] [< p, ih] succ.term
|
|
prettyCase dnames tnames qty nat ret [zarm, sarm]
|
|
|
|
prettyElim dnames tnames (CaseBox qty box ret body _) = do
|
|
pat <- bracks =<< prettyTBind body.name
|
|
let arm = MkCaseArm pat [<] [< body.name] body.term
|
|
prettyCase dnames tnames qty box ret [arm]
|
|
|
|
prettyElim dnames tnames e@(DApp {}) =
|
|
let (f, xs) = splitApps e in
|
|
prettyDTApps dnames tnames f xs
|
|
|
|
prettyElim dnames tnames (Ann tm ty _) =
|
|
parensIfM Outer =<<
|
|
hangDSingle !(withPrec AnnL [|prettyTerm dnames tnames tm <++> annD|])
|
|
!(withPrec Outer (prettyTerm dnames tnames ty))
|
|
|
|
prettyElim dnames tnames (Coe ty p q val _) =
|
|
parensIfM App =<< do
|
|
ty <- prettyTypeLine dnames tnames ty
|
|
p <- prettyDArg dnames p
|
|
q <- prettyDArg dnames q
|
|
val <- prettyTArg dnames tnames val
|
|
prettyAppD !coeD [ty, sep [p, q], val]
|
|
|
|
prettyElim dnames tnames e@(Comp ty p q val r zero one _) =
|
|
parensIfM App =<< do
|
|
ty <- prettyTypeLine dnames tnames $ assert_smaller e $ SN ty
|
|
pq <- sep <$> sequence [prettyDArg dnames p, prettyDArg dnames q]
|
|
val <- prettyTArg dnames tnames val
|
|
r <- prettyDArg dnames r
|
|
arm0 <- [|prettyCompArm dnames tnames Zero zero <+> semiD|]
|
|
arm1 <- prettyCompArm dnames tnames One one
|
|
ind <- askAt INDENT
|
|
layoutComp [ty, pq] val r [arm0, arm1]
|
|
|
|
prettyElim dnames tnames (TypeCase ty ret arms def _) = do
|
|
arms <- for (toList arms) $ \(k ** body) => do
|
|
pat <- prettyTyCasePat k body.names
|
|
pure $ MkCaseArm pat [<] (toTel body.names) body.term
|
|
let darm = MkCaseArm !undD [<] [<] def
|
|
prettyCase_ dnames tnames !typecaseD ty (SN ret) $ arms ++ [darm]
|
|
|
|
prettyElim dnames tnames e0@(CloE (Sub e ph)) =
|
|
prettyElim dnames tnames $ assert_smaller e0 $ pushSubstsWith' id ph e
|
|
|
|
prettyElim dnames tnames e0@(DCloE (Sub e ph)) =
|
|
prettyElim dnames tnames $ assert_smaller e0 $ pushSubstsWith' ph id e
|