more tidying of outputs

This commit is contained in:
rhiannon morris 2023-11-03 17:42:07 +01:00
parent 0514fff481
commit 5dfefe443c
3 changed files with 54 additions and 25 deletions

View file

@ -18,6 +18,7 @@ import Language.Reflection
%language ElabReflection
%hide TT.Name
%hide AppView.(.head)
public export
@ -464,10 +465,25 @@ inlineable : U.Term n -> Bool
inlineable (F {}) = True
inlineable (B {}) = True
inlineable (Tag {}) = True
inlineable (Nat {}) = True
inlineable (Str {}) = True
inlineable (Absurd {}) = True
inlineable (Erased {}) = True
inlineable _ = False
export
droppable : U.Term n -> Bool
droppable (F {}) = True
droppable (B {}) = True
droppable (Fst e _) = droppable e
droppable (Snd e _) = droppable e
droppable (Tag {}) = True
droppable (Nat {}) = True
droppable (Str {}) = True
droppable (Absurd {}) = True
droppable (Erased {}) = True
droppable _ = False
export
trimLets : U.Term n -> U.Term n
trimLets (F x loc) = F x loc
@ -479,8 +495,11 @@ trimLets (Fst pair loc) = Fst (trimLets pair) loc
trimLets (Snd pair loc) = Snd (trimLets pair) loc
trimLets (Tag tag loc) = Tag tag loc
trimLets (CaseEnum tag cases loc) =
CaseEnum (trimLets tag)
(map (map $ \c => trimLets $ assert_smaller cases c) cases) loc
let tag = trimLets tag
cases = map (map $ \c => trimLets $ assert_smaller cases c) cases in
if droppable tag && length cases == 1
then snd cases.head
else CaseEnum tag cases loc
trimLets (Absurd loc) = Absurd loc
trimLets (Nat n loc) = Nat n loc
trimLets (Succ nat loc) = Succ (trimLets nat) loc
@ -492,8 +511,9 @@ trimLets (CaseNat nat zer suc loc) =
trimLets (Str s loc) = Str s loc
trimLets (Let x rhs body loc) =
let rhs' = trimLets rhs
body' = trimLets body in
if inlineable rhs' || uses VZ body' == 1
body' = trimLets body
uses = uses VZ body in
if inlineable rhs' || uses == 1 || (droppable rhs' && uses == 0)
then sub1 rhs' body'
else Let x rhs' body' loc
trimLets (Erased loc) = Erased loc

View file

@ -292,9 +292,11 @@ defToScheme x (SchemeDef isMain str) = do
modifyAt AVOID $ insert x
pure $ Just $ Define x $ Literal str
orIndent : {opts : LayoutOpts} -> Doc opts -> Doc opts -> Doc opts
orIndent a b =
parens $ ifMultiline (a <++> b) (a `vappend` indent 2 b)
orIndent : {opts : LayoutOpts} -> Doc opts -> Doc opts -> Eff Pretty (Doc opts)
orIndent a b = do
one <- parens $ a <++> b
two <- parens $ a `vappend` indent 2 b
pure $ ifMultiline one two
export covering
prettySexp : {opts : LayoutOpts} -> Sexp -> Eff Pretty (Doc opts)
@ -303,7 +305,7 @@ private covering
prettyLambda : {opts : LayoutOpts} ->
String -> List Id -> Sexp -> Eff Pretty (Doc opts)
prettyLambda lam xs e =
pure $ orIndent
orIndent
(hsep [!(hl Syntax $ text lam), !(prettySexp $ L $ map V xs)])
!(prettySexp e)
@ -316,7 +318,7 @@ prettyLet : {opts : LayoutOpts} ->
SnocList (Id, Sexp) -> Sexp -> Eff Pretty (Doc opts)
prettyLet ps (Let x rhs body) = prettyLet (ps :< (x, rhs)) body
prettyLet ps e =
pure $ orIndent
orIndent
(hsep [!(hl Syntax "let*"),
!(bracks . vsep . toList =<< traverse prettyBind ps)])
!(prettySexp e)
@ -335,8 +337,9 @@ prettySexp (L []) = hl Delim "()"
prettySexp (L (x :: xs)) = do
d <- prettySexp x
ds <- traverse prettySexp xs
parens $ (hsep $ d :: ds) <|> (hsep [d, vsep ds]) <|>
(vsep $ d :: map (indent 2) ds)
parens $ ifMultiline
(hsep $ d :: ds)
(hsep [d, vsep ds] <|> vsep (d :: map (indent 2) ds))
prettySexp (Q (V x)) = hl Tag $ "'" <+> prettyId' x
prettySexp (Q x) = pure $ hcat [!(hl Tag "'"), !(prettySexp x)]
prettySexp (N n) = hl Tag $ pshow n

View file

@ -112,7 +112,7 @@ prettyArg xs arg = withPrec Arg $ prettyTerm xs arg
export covering
prettyAppHead : {opts : LayoutOpts} -> BContext n ->
Term n -> Eff Pretty (Doc opts)
prettyAppHead xs fun = parensIfM App =<< prettyTerm xs fun
prettyAppHead xs fun = withPrec App $ prettyTerm xs fun
export
prettyApp' : {opts : LayoutOpts} ->
@ -120,14 +120,15 @@ prettyApp' : {opts : LayoutOpts} ->
prettyApp' fun args = do
d <- askAt INDENT
let args = toList args
pure $ hsep (fun :: args)
parensIfM App $
hsep (fun :: args)
<|> hsep [fun, vsep args]
<|> vsep (fun :: map (indent d) args)
export covering
prettyApp : {opts : LayoutOpts} -> BContext n ->
Doc opts -> SnocList (Term n) -> Eff Pretty (Doc opts)
prettyApp xs fun args = prettyApp' fun =<< traverse (prettyTerm xs) args
prettyApp xs fun args = prettyApp' fun =<< traverse (prettyArg xs) args
public export
record PrettyCaseArm a n where
@ -159,10 +160,15 @@ sucPat : {opts : LayoutOpts} -> BindName -> Eff Pretty (Doc opts)
sucPat x = pure $ !succD <++> !(prettyTBind x)
export
splitApp : Term b -> (Term b, SnocList (Term b))
splitApp : Term n -> (Term n, SnocList (Term n))
splitApp (App f x _) = mapSnd (:< x) $ splitApp f
splitApp f = (f, [<])
export
splitPair : Term n -> List (Term n)
splitPair (Pair s t _) = s :: splitPair t
splitPair t = [t]
export
splitLam : Telescope' BindName a b -> Term b ->
Exists $ \c => (Telescope' BindName a c, Term c)
@ -185,9 +191,10 @@ prettyLets xs lets = sequence $ snd $ go lets where
go [<] = (xs, [<])
go (lets :< (x, rhs)) =
let (ys, docs) = go lets
doc = hsep <$> sequence
[letD, prettyTBind x, cstD, prettyTerm ys rhs, inD]
in
doc = do
x <- prettyTBind x
rhs <- withPrec Outer $ prettyTerm ys rhs
hangDSingle (hsep [!letD, x, !cstD]) (hsep [rhs, !inD]) in
(ys :< x, docs :< doc)
private
@ -210,8 +217,8 @@ prettyTerm xs (App fun arg _) =
let (fun, args) = splitApp fun in
prettyApp xs !(prettyAppHead xs fun) (args :< arg)
prettyTerm xs (Pair fst snd _) =
parens =<< separateTight !commaD <$>
sequence {t = List} [prettyTerm xs fst, prettyTerm xs snd]
parens . separateTight !commaD =<<
traverse (withPrec Outer . prettyTerm xs) (fst :: splitPair snd)
prettyTerm xs (Fst pair _) = prettyApp xs !fstD [< pair]
prettyTerm xs (Snd pair _) = prettyApp xs !sndD [< pair]
prettyTerm xs (Tag tag _) = prettyTag tag
@ -220,8 +227,7 @@ prettyTerm xs (CaseEnum tag cases _) =
map (\(t, rhs) => MkPrettyCaseArm t [] rhs) $ toList cases
prettyTerm xs (Absurd _) = hl Syntax "absurd"
prettyTerm xs (Nat n _) = hl Tag $ pshow n
prettyTerm xs (Succ nat _) =
prettyApp' !succD [< !(prettyTerm xs nat)]
prettyTerm xs (Succ nat _) = prettyApp xs !succD [< nat]
prettyTerm xs (CaseNat nat zer suc _) =
prettyCase xs pure nat [MkPrettyCaseArm !zeroD [] zer, !(sucCaseArm suc)]
prettyTerm xs (Str s _) =
@ -244,7 +250,7 @@ prettyDef name ErasedDef =
prettyDef name (KeptDef isMain rhs) = do
name <- prettyFree name {opts}
eq <- cstD
rhs <- prettyTerm [<] rhs
rhs <- withPrec Outer $ prettyTerm [<] rhs
let header = if isMain then text "#[main]" <++> name else name
hangDSingle (header <++> eq) rhs
prettyDef name (SchemeDef isMain str) = do