dunham/newt
1
0
Fork 0
Code Issues Pull Requests Actions 1 Packages Projects Releases Wiki Activity

switch to fc

Browse Source
This commit is contained in:
Steve Dunham
2024-08-07 16:35:27 -07:00
parent f5b1998afb
commit 9c5bdf5983
7 changed files with 346 additions and 327 deletions
Download Patch File Download Diff File Expand all files Collapse all files

224
src/Lib/Check.idr
View File

@@ -21,19 +21,19 @@ data Pden = PR Nat Nat (List Nat)
-- IORef for metas needs IO
forceMeta : Val -> M Val
forceMeta (VMeta ix sp) = case !(lookupMeta ix) of
(Unsolved pos k xs) => pure (VMeta ix sp)
forceMeta (VMeta fc ix sp) = case !(lookupMeta ix) of
(Unsolved pos k xs) => pure (VMeta fc ix sp)
(Solved k t) => vappSpine t sp
forceMeta x = pure x
-- Lennart needed more forcing for recursive nat,
forceType : Val -> M Val
forceType (VRef nm def sp) =
forceType (VRef fc nm def sp) =
case lookup nm !(get) of
(Just (MkEntry name type (Fn t))) => vappSpine !(eval [] CBN t) sp
_ => pure (VRef nm def sp)
forceType (VMeta ix sp) = case !(lookupMeta ix) of
(Unsolved x k xs) => pure (VMeta ix sp)
_ => pure (VRef fc nm def sp)
forceType (VMeta fc ix sp) = case !(lookupMeta ix) of
(Unsolved x k xs) => pure (VMeta fc ix sp)
(Solved k t) => vappSpine t sp >>= forceType
forceType x = pure x
@@ -45,11 +45,11 @@ parameters (ctx: Context)
where
go : SnocList Val -> List Nat -> M (List Nat)
go [<] acc = pure $ reverse acc
go (xs :< VVar k [<]) acc = do
go (xs :< VVar emptyFC k [<]) acc = do
if elem k acc
then error [DS "non-linear pattern"]
then error emptyFC "non-linear pattern"
else go xs (k :: acc)
go _ _ = error [DS "non-variable in pattern"]
go _ _ = error emptyFC "non-variable in pattern"
-- we have to "lift" the renaming when we go under a lambda
-- I think that essentially means our domain ix are one bigger, since we're looking at lvl
@@ -62,23 +62,23 @@ parameters (ctx: Context)
goSpine ren lvl tm [<] = pure tm
goSpine ren lvl tm (xs :< x) = do
xtm <- go ren lvl x
goSpine ren lvl (App tm xtm) xs
goSpine ren lvl (App emptyFC tm xtm) xs
go ren lvl (VVar k sp) = case findIndex (== k) ren of
Nothing => error [DS "scope/skolem thinger"]
Just x => goSpine ren lvl (Bnd $ cast x) sp
go ren lvl (VRef nm def sp) = goSpine ren lvl (Ref nm def) sp
go ren lvl (VMeta ix sp) = if ix == meta
then error [DS "meta occurs check"]
else goSpine ren lvl (Meta ix) sp
go ren lvl (VLam n t) = pure (Lam n !(go (lvl :: ren) (S lvl) !(t $$ VVar lvl [<])))
go ren lvl (VPi n icit ty tm) = pure (Pi n icit !(go ren lvl ty) !(go (lvl :: ren) (S lvl) !(tm $$ VVar lvl [<])))
go ren lvl VU = pure U
go ren lvl (VVar fc k sp) = case findIndex (== k) ren of
Nothing => error emptyFC "scope/skolem thinger"
Just x => goSpine ren lvl (Bnd fc $ cast x) sp
go ren lvl (VRef fc nm def sp) = goSpine ren lvl (Ref fc nm def) sp
go ren lvl (VMeta fc ix sp) = if ix == meta
then error emptyFC "meta occurs check"
else goSpine ren lvl (Meta fc ix) sp
go ren lvl (VLam fc n t) = pure (Lam fc n !(go (lvl :: ren) (S lvl) !(t $$ VVar emptyFC lvl [<])))
go ren lvl (VPi fc n icit ty tm) = pure (Pi fc n icit !(go ren lvl ty) !(go (lvl :: ren) (S lvl) !(tm $$ VVar emptyFC lvl [<])))
go ren lvl (VU fc) = pure (U fc)
lams : Nat -> Tm -> Tm
lams 0 tm = tm
-- REVIEW can I get better names in here?
lams (S k) tm = Lam "arg_\{show k}" (lams k tm)
lams (S k) tm = Lam emptyFC "arg_\{show k}" (lams k tm)
solve : Nat -> Nat -> SnocList Val -> Val -> M ()
@@ -94,10 +94,10 @@ parameters (ctx: Context)
unify : (l : Nat) -> Val -> Val -> M ()
unifySpine : Nat -> Bool -> SnocList Val -> SnocList Val -> M ()
unifySpine l False _ _ = error [DS "unify failed at head"] -- unreachable now
unifySpine l False _ _ = error emptyFC "unify failed at head" -- unreachable now
unifySpine l True [<] [<] = pure ()
unifySpine l True (xs :< x) (ys :< y) = unify l x y >> unifySpine l True xs ys
unifySpine l True _ _ = error [DS "meta spine length mismatch"]
unifySpine l True _ _ = error emptyFC "meta spine length mismatch"
unify l t u = do
debug "Unify \{show ctx.lvl}"
@@ -106,32 +106,32 @@ parameters (ctx: Context)
t' <- forceMeta t
u' <- forceMeta u
case (t',u') of
(VLam _ t, VLam _ t') => unify (l + 1) !(t $$ VVar l [<]) !(t' $$ VVar l [<])
(t, VLam _ t') => unify (l + 1) !(t `vapp` VVar l [<]) !(t' $$ VVar l [<])
(VLam _ t, t' ) => unify (l + 1) !(t $$ VVar l [<]) !(t' `vapp` VVar l [<])
(VPi _ _ a b, VPi _ _ a' b') => unify l a a' >> unify (S l) !(b $$ VVar l [<]) !(b' $$ VVar l [<])
(VVar k sp, VVar k' sp' ) =>
(VLam _ _ t, VLam _ _ t') => unify (l + 1) !(t $$ VVar emptyFC l [<]) !(t' $$ VVar emptyFC l [<])
(t, VLam fc' _ t') => unify (l + 1) !(t `vapp` VVar emptyFC l [<]) !(t' $$ VVar emptyFC l [<])
(VLam fc _ t, t' ) => unify (l + 1) !(t $$ VVar emptyFC l [<]) !(t' `vapp` VVar emptyFC l [<])
(VPi fc _ _ a b, VPi fc' _ _ a' b') => unify l a a' >> unify (S l) !(b $$ VVar emptyFC l [<]) !(b' $$ VVar emptyFC l [<])
(VVar fc k sp, VVar fc' k' sp' ) =>
if k == k' then unifySpine l (k == k') sp sp'
else error [DS "vvar mismatch \{show k} \{show k'}"]
(VRef k def sp, VRef k' def' sp' ) =>
else error emptyFC "vvar mismatch \{show k} \{show k'}"
(VRef fc k def sp, VRef fc' k' def' sp' ) =>
if k == k' then unifySpine l (k == k') sp sp'
-- REVIEW - consider forcing?
else error [DS "vref mismatch \{show k} \{show k'}"]
(VMeta k sp, VMeta k' sp' ) =>
else error emptyFC "vref mismatch \{show k} \{show k'}"
(VMeta fc k sp, VMeta fc' k' sp' ) =>
if k == k' then unifySpine l (k == k') sp sp'
else solve l k sp (VMeta k' sp')
(t, VMeta i' sp') => solve l i' sp' t
(VMeta i sp, t' ) => solve l i sp t'
(VU, VU) => pure ()
else solve l k sp (VMeta fc' k' sp')
(t, VMeta fc' i' sp') => solve l i' sp' t
(VMeta fc i sp, t' ) => solve l i sp t'
(VU _, VU _) => pure ()
-- Lennart.newt cursed type references itself
-- We _could_ look up the ref, eval against [] and vappSpine...
(t, VRef k' def sp') => do
(t, VRef fc' k' def sp') => do
debug "expand \{show t} =?= %ref \{k'}"
case lookup k' !(get) of
Just (MkEntry name ty (Fn tm)) => unify l t !(vappSpine !(eval [] CBN tm) sp')
_ => error [DS "unify failed \{show t'} =?= \{show u'} [no Fn]\n env is \{show ctx.env} \{show $ map fst ctx.types}" ]
_ => error emptyFC "unify failed \{show t'} =?= \{show u'} [no Fn]\n env is \{show ctx.env} \{show $ map fst ctx.types}"
-- REVIEW I'd like to quote this back, but we have l that aren't in the environment.
_ => error [DS "unify failed \{show t'} =?= \{show u'} \n env is \{show ctx.env} \{show $ map fst ctx.types}" ]
_ => error emptyFC "unify failed \{show t'} =?= \{show u'} \n env is \{show ctx.env} \{show $ map fst ctx.types}"
unifyCatch : Context -> Val -> Val -> M ()
unifyCatch ctx ty' ty = catchError (unify ctx ctx.lvl ty' ty) $ \(E x str) => do
@@ -144,20 +144,20 @@ unifyCatch ctx ty' ty = catchError (unify ctx ctx.lvl ty' ty) $ \(E x str) => do
insert : (ctx : Context) -> Tm -> Val -> M (Tm, Val)
insert ctx tm ty = do
case !(forceMeta ty) of
VPi x Implicit a b => do
m <- freshMeta ctx
VPi fc x Implicit a b => do
m <- freshMeta ctx fc
mv <- eval ctx.env CBN m
insert ctx (App tm m) !(b $$ mv)
insert ctx (App emptyFC tm m) !(b $$ mv)
va => pure (tm, va)
lookupName : Context -> Raw -> M (Maybe (Tm, Val))
lookupName ctx (RVar nm) = go 0 ctx.types
lookupName ctx (RVar fc nm) = go 0 ctx.types
where
go : Nat -> Vect n (String, Val) -> M (Maybe (Tm, Val))
go i [] = case lookup nm !(get) of
Just (MkEntry name ty def) => pure $ Just (Ref nm def, !(eval [] CBN ty))
Just (MkEntry name ty def) => pure $ Just (Ref fc nm def, !(eval [] CBN ty))
Nothing => pure Nothing
go i ((x, ty) :: xs) = if x == nm then pure $ Just (Bnd i, ty)
go i ((x, ty) :: xs) = if x == nm then pure $ Just (Bnd fc i, ty)
else go (i + 1) xs
lookupName ctx _ = pure Nothing
@@ -176,7 +176,7 @@ checkAlt scty ctx ty (MkAlt ptm body) = do
(con, args) <- getArgs ptm []
debug "ALT con \{con} args \{show args}"
let Just (MkEntry _ dcty (DCon arity _)) = lookup con !(get)
| _ => error [DS "expected datacon, got \{con}"]
| _ => error emptyFC "expected datacon, got \{con}"
-- arity is wrong, but we actually need the type anyway
-- in fact arity is for later (eval?) and we need to do implicits first
@@ -203,94 +203,89 @@ checkAlt scty ctx ty (MkAlt ptm body) = do
where
go : Val -> Raw -> Context -> M Tm
go ctype (RSrcPos x tm) ctx = go ctype tm ctx
-- FIXME icit
go (VPi str Explicit a b) (RApp t (RSrcPos _ (RVar nm)) Explicit) ctx = do
go (VPi fc str Explicit a b) (RApp _ t (RVar _ nm) Explicit) ctx = do
debug "*** \{nm} : \{show a}"
let var = VVar (length ctx.env) [<]
let var = VVar emptyFC (length ctx.env) [<]
let ctx' = extend ctx nm a
Lam nm <$> go !(b $$ var) t ctx'
go (VPi str Implicit a b) (RApp t (RSrcPos _ (RVar nm)) Implicit) ctx = do
Lam emptyFC nm <$> go !(b $$ var) t ctx'
go (VPi fc str Implicit a b) (RApp _ t (RVar _ nm) Implicit) ctx = do
debug "*** \{nm} : \{show a}"
let var = VVar (length ctx.env) [<]
let var = VVar emptyFC (length ctx.env) [<]
let ctx' = extend ctx nm a
Lam nm <$> go !(b $$ var) t ctx'
go (VPi str Implicit a b) t ctx = do
let var = VVar (length ctx.env) [<]
Lam emptyFC nm <$> go !(b $$ var) t ctx'
go (VPi fc str Implicit a b) t ctx = do
let var = VVar emptyFC (length ctx.env) [<]
let ctx' = extend ctx "_" a
Lam "_" <$> go !(b $$ var) t ctx'
Lam emptyFC "_" <$> go !(b $$ var) t ctx'
-- same deal with _ for name
go (VPi str icit x y) (RApp t RImplicit icit') ctx = ?rhs_19
go (VPi str icit x y) tm ctx = error {ctx} [DS "Can't use \{show tm} as pattern"]
go (VPi fc str icit x y) (RApp _ t (RImplicit _) icit') ctx = ?rhs_19
go (VPi fc str icit x y) tm ctx = error emptyFC "Can't use \{show tm} as pattern"
-- nameless variable
go ctype RImplicit ctx = ?rhs_2
go ctype (RVar nm) ctx = do
go ctype (RImplicit _) ctx = ?rhs_2
go ctype (RVar _ nm) ctx = do
debug "*** end"
check ctx body ty
-- pure ctx -- this should be our constructor.
-- This happens if we run out of runway (more args and no pi)
go ctype tm ctx = error {ctx} [DS "unhandled in go \{show ctype} \{show tm}"]
go ctype tm ctx = error (getFC tm) "unhandled in go \{show ctype} \{show tm}"
getArgs : Raw -> List String -> M (String, List String)
getArgs (RVar nm) acc = pure (nm, acc)
getArgs (RVar _ nm) acc = pure (nm, acc)
-- TODO implicits
getArgs (RApp t (RSrcPos _ (RVar nm)) icit) acc = getArgs t (nm :: acc)
getArgs (RApp t (RVar nm) icit) acc = getArgs t (nm :: acc)
getArgs (RApp t RHole icit) acc = getArgs t ("_" :: acc)
getArgs (RSrcPos _ t) acc = getArgs t acc
getArgs tm _ = error [DS "Patterns must be constructor and vars, got \{show tm}"]
getArgs (RApp _ t (RVar _ nm) icit) acc = getArgs t (nm :: acc)
getArgs (RApp _ t (RHole _) icit) acc = getArgs t ("_" :: acc)
getArgs tm _ = error emptyFC "Patterns must be constructor and vars, got \{show tm}"
check ctx tm ty = case (tm, !(forceType ty)) of
(RCase rsc alts, ty) => do
(RCase fc rsc alts, ty) => do
(sc, scty) <- infer ctx rsc
let (VRef nm (TCon cnames) sp) = scty
| _ => error [DS "expected TCon for scrutinee type, got: \{show scty}"]
let (VRef fc nm (TCon cnames) sp) = scty
| _ => error fc "expected TCon for scrutinee type, got: \{show scty}"
debug "constructor names \{show cnames}"
alts' <- for alts $ checkAlt scty ctx ty
pure $ Case sc alts'
-- error [DS "implement check RCase sctype \{show scty}"]
(RSrcPos x tm, ty) => check ({pos := x} ctx) tm ty
pure $ Case emptyFC sc alts'
-- Document a hole, pretend it's implemented
(RHole, ty) => do
(RHole fc, ty) => do
ty' <- quote ctx.lvl ty
let names = (toList $ map fst ctx.types)
env <- for ctx.types $ \(n,ty) => pure " \{n} : \{pprint names !(quote ctx.lvl ty)}"
let msg = unlines (toList $ reverse env) ++ " -----------\n" ++ " goal \{pprint names ty'}"
debug "INFO at \{show ctx.pos}: "
debug "INFO at \{show fc}: "
debug msg
-- let context = unlines foo
-- need to print 'warning' with position
-- fixme - just put a name on it like idris and stuff it into top.
-- error [DS "hole:\n\{msg}"]
pure $ Ref "?" Axiom -- TODO - probably want hole opt on Def
(t@(RLam nm icit tm), ty@(VPi nm' icit' a b)) => do
pure $ Ref emptyFC "?" Axiom -- TODO - probably want hole opt on Def
(t@(RLam fc nm icit tm), ty@(VPi fc' nm' icit' a b)) => do
debug "icits \{nm} \{show icit} \{nm'} \{show icit'}"
if icit == icit' then do
let var = VVar (length ctx.env) [<]
let var = VVar fc (length ctx.env) [<]
let ctx' = extend ctx nm a
tm' <- check ctx' tm !(b $$ var)
pure $ Lam nm tm'
pure $ Lam emptyFC nm tm'
else if icit' == Implicit then do
let var = VVar (length ctx.env) [<]
let var = VVar fc (length ctx.env) [<]
ty' <- b $$ var
-- use nm' here if we want them automatically in scope
sc <- check (extend ctx nm' a) t ty'
pure $ Lam nm' sc
pure $ Lam fc nm' sc
else
error [(DS "Icity issue checking \{show t} at \{show ty}")]
(t@(RLam nm icit tm), ty) =>
error [(DS "Expected pi type, got \{!(prvalCtx ty)}")]
error fc "Icity issue checking \{show t} at \{show ty}"
(t@(RLam fc nm icit tm), ty) =>
error fc "Expected pi type, got \{!(prvalCtx ty)}"
(tm, ty@(VPi nm' Implicit a b)) => do
(tm, ty@(VPi fc nm' Implicit a b)) => do
let names = toList $ map fst ctx.types
debug "XXX edge add implicit lambda to \{show tm}"
let var = VVar (length ctx.env) [<]
let var = VVar fc (length ctx.env) [<]
ty' <- b $$ var
debug "XXX ty' is \{!(prvalCtx {ctx=(extend ctx nm' a)} ty')}"
sc <- check (extend ctx nm' a) tm ty'
pure $ Lam nm' sc
pure $ Lam (getFC tm) nm' sc
(tm,ty) => do
-- We need to insert if tm is not an Implicit Lam
@@ -299,7 +294,7 @@ check ctx tm ty = case (tm, !(forceType ty)) of
(tm', ty') <- case !(infer ctx tm) of
-- Kovacs doesn't insert on tm = Implicit Lam, we don't have Plicity there
-- so I'll check the inferred type for an implicit pi
(tm'@(Lam{}), ty'@(VPi _ Implicit _ _)) => do debug "Lambda"; pure (tm', ty')
(tm'@(Lam{}), ty'@(VPi _ _ Implicit _ _)) => do debug "Lambda"; pure (tm', ty')
(tm', ty') => do
debug "RUN INSERT ON \{pprint names tm'} at \{show ty'}"
insert ctx tm' ty'
@@ -308,18 +303,18 @@ check ctx tm ty = case (tm, !(forceType ty)) of
unifyCatch ctx ty' ty
pure tm'
infer ctx (RVar nm) = go 0 ctx.types
infer ctx (RVar fc nm) = go 0 ctx.types
where
go : Nat -> Vect n (String, Val) -> M (Tm, Val)
go i [] = case lookup nm !(get) of
Just (MkEntry name ty def) => do
debug "lookup \{name} as \{show def}"
pure (Ref nm def, !(eval [] CBN ty))
Nothing => error [DS "\{show nm} not in scope"]
go i ((x, ty) :: xs) = if x == nm then pure $ (Bnd i, ty)
pure (Ref fc nm def, !(eval [] CBN ty))
Nothing => error fc "\{show nm} not in scope"
go i ((x, ty) :: xs) = if x == nm then pure $ (Bnd fc i, ty)
else go (i + 1) xs
-- need environment of name -> type..
infer ctx (RApp t u icit) = do
infer ctx (RApp fc t u icit) = do
(icit, t, tty) <- case the Icit icit of
Explicit => do
(t, tty) <- infer ctx t
@@ -330,51 +325,50 @@ infer ctx (RApp t u icit) = do
pure (Implicit, t, tty)
(a,b) <- case !(forceMeta tty) of
(VPi str icit' a b) => if icit' == icit then pure (a,b)
else error [DS "IcitMismatch \{show icit} \{show icit'}"]
(VPi fc str icit' a b) => if icit' == icit then pure (a,b)
else error fc "IcitMismatch \{show icit} \{show icit'}"
-- If it's not a VPi, try to unify it with a VPi
-- TODO test case to cover this.
tty => do
debug "unify PI for \{show tty}"
a <- eval ctx.env CBN !(freshMeta ctx)
b <- MkClosure ctx.env <$> freshMeta (extend ctx ":ins" a)
unify ctx 0 tty (VPi ":ins" icit a b)
a <- eval ctx.env CBN !(freshMeta ctx fc)
b <- MkClosure ctx.env <$> freshMeta (extend ctx ":ins" a) fc
unify ctx 0 tty (VPi fc ":ins" icit a b)
pure (a,b)
u <- check ctx u a
pure (App t u, !(b $$ !(eval ctx.env CBN u)))
pure (App fc t u, !(b $$ !(eval ctx.env CBN u)))
infer ctx RU = pure (U, VU) -- YOLO
infer ctx (RPi nm icit ty ty2) = do
ty' <- check ctx ty VU
infer ctx (RU fc) = pure (U fc, VU fc) -- YOLO
infer ctx (RPi fc nm icit ty ty2) = do
ty' <- check ctx ty (VU fc)
vty' <- eval ctx.env CBN ty'
let nm := fromMaybe "_" nm
ty2' <- check (extend ctx nm vty') ty2 VU
pure (Pi nm icit ty' ty2', VU)
infer ctx (RLet str tm tm1 tm2) = error [DS "implement RLet"]
infer ctx (RSrcPos x tm) = infer ({pos := x} ctx) tm
infer ctx (RAnn tm rty) = do
ty <- check ctx rty VU
ty2' <- check (extend ctx nm vty') ty2 (VU fc)
pure (Pi fc nm icit ty' ty2', (VU fc))
infer ctx (RLet fc str tm tm1 tm2) = error fc "implement RLet"
infer ctx (RAnn fc tm rty) = do
ty <- check ctx rty (VU fc)
vty <- eval ctx.env CBN ty
tm <- check ctx tm vty
pure (tm, vty)
infer ctx (RLam nm icit tm) = do
a <- freshMeta ctx >>= eval ctx.env CBN
infer ctx (RLam fc nm icit tm) = do
a <- freshMeta ctx fc >>= eval ctx.env CBN
let ctx' = extend ctx nm a
(tm', b) <- infer ctx' tm
debug "make lam for \{show nm} scope \{pprint (names ctx) tm'} : \{show b}"
pure $ (Lam nm tm', VPi nm icit a $ MkClosure ctx.env !(quote (S ctx.lvl) b))
pure $ (Lam fc nm tm', VPi fc nm icit a $ MkClosure ctx.env !(quote (S ctx.lvl) b))
-- error {ctx} [DS "can't infer lambda"]
infer ctx RImplicit = do
ty <- freshMeta ctx
infer ctx (RImplicit fc) = do
ty <- freshMeta ctx fc
vty <- eval ctx.env CBN ty
tm <- freshMeta ctx
tm <- freshMeta ctx fc
pure (tm, vty)
infer ctx tm = error [DS "Implement infer \{show tm}"]
infer ctx tm = error (getFC tm) "Implement infer \{show tm}"
-- I don't have types for these yet...
-- infer ctx (RLit (LString str)) = ?rhs_10

64
src/Lib/Parser.idr
View File

@@ -1,7 +1,7 @@
module Lib.Parser
import Lib.Types
-- The SourcePos stuff is awkward later on. We might want bounds on productions
-- The FC stuff is awkward later on. We might want bounds on productions
-- But we might want to consider something more generic and closer to lean?
-- app: foo {a} a b
@@ -51,22 +51,20 @@ optional pa = Just <$> pa <|> pure Nothing
lit : Parser Raw
lit = do
t <- token Number
pure $ RLit (LInt (cast t))
fc <- getFC
pure $ RLit fc (LInt (cast t))
-- typeExpr is term with arrows.
export typeExpr : Parser Raw
export term : (Parser Raw)
withPos : Parser Raw -> Parser Raw
withPos p = RSrcPos <$> getPos <*> p
-- the inside of Raw
atom : Parser Raw
atom = withPos (RU <$ keyword "U"
<|> RVar <$> ident
atom = RU <$> getFC <* keyword "U"
<|> RVar <$> getFC <*> ident
<|> lit
<|> RImplicit <$ keyword "_"
<|> RHole <$ keyword "?")
<|> RImplicit <$> getFC <* keyword "_"
<|> RHole <$> getFC <* keyword "?"
<|> parens typeExpr
-- Argument to a Spine
@@ -88,7 +86,8 @@ parseApp : Parser Raw
parseApp = do
hd <- atom
rest <- many pArg
pure $ foldl (\a, (c,b) => RApp a b c) hd rest
fc <- getFC
pure $ foldl (\a, (c,b) => RApp fc a b c) hd rest
parseOp : Parser Raw
parseOp = parseApp >>= go 0
@@ -96,13 +95,14 @@ parseOp = parseApp >>= go 0
go : Int -> Raw -> Parser Raw
go prec left =
do
fc <- getFC
op <- token Oper
let Just (p,fix) = lookup op operators
| Nothing => fail "expected operator"
if p >= prec then pure () else fail ""
let pr = case fix of InfixR => p; _ => p + 1
right <- go pr !(parseApp)
go prec (RApp (RApp (RVar op) left Explicit) right Explicit)
go prec (RApp fc (RApp fc (RVar fc op) left Explicit) right Explicit)
<|> pure left
export
@@ -113,16 +113,17 @@ letExpr = do
alts <- startBlock $ someSame $ letAssign
keyword' "in"
scope <- typeExpr
pure $ foldl (\ acc, (n,v) => RLet n RImplicit v acc) scope alts
fc <- getFC
pure $ foldl (\ acc, (n,fc,v) => RLet fc n (RImplicit fc) v acc) scope alts
where
letAssign : Parser (Name,Raw)
letAssign : Parser (Name,FC,Raw)
letAssign = do
fc <- getFC
name <- ident
-- TODO type assertion
keyword "="
t <- typeExpr
pure (name,t)
pure (name,fc,t)
pLetArg : Parser (Icit, String, Maybe Raw)
pLetArg = (Implicit,,) <$> braces ident <*> optional (sym ":" >> typeExpr)
@@ -139,7 +140,8 @@ lamExpr = do
args <- some pLetArg
keyword "=>"
scope <- typeExpr
pure $ foldr (\(icit, name, ty), sc => RLam name icit sc) scope args
fc <- getFC
pure $ foldr (\(icit, name, ty), sc => RLam fc name icit sc) scope args
pPattern : Parser Pattern
pPattern
@@ -163,10 +165,10 @@ caseExpr = do
sc <- term
keyword "of"
alts <- startBlock $ someSame $ caseAlt
pure $ RCase sc alts
pure $ RCase !(getFC) sc alts
-- This hits an idris codegen bug if parseOp is last and Lazy
term = withPos $ caseExpr
term = caseExpr
<|> letExpr
<|> lamExpr
<|> parseOp
@@ -187,10 +189,10 @@ ibind = do
mustWork $ do
names <- some ident
ty <- optional (sym ":" >> typeExpr)
pos <- getPos
pos <- getFC
sym "}"
-- getPos is a hack here, I would like to position at the name...
pure $ map (\name => (name, Implicit, fromMaybe (RSrcPos pos RImplicit) ty)) names
-- getFC is a hack here, I would like to position at the name...
pure $ map (\name => (name, Implicit, fromMaybe (RImplicit pos) ty)) names
arrow : Parser Unit
arrow = sym "->" <|> sym ""
@@ -202,10 +204,11 @@ binders = do
arrow
commit
scope <- typeExpr
pure $ foldr mkBind scope (join binds)
fc <- getFC
pure $ foldr (mkBind fc) scope (join binds)
where
mkBind : (String, Icit, Raw) -> Raw -> Raw
mkBind (name, icit, ty) scope = RPi (Just name) icit ty scope
mkBind : FC -> (String, Icit, Raw) -> Raw -> Raw
mkBind fc (name, icit, ty) scope = RPi fc (Just name) icit ty scope
typeExpr = binders
<|> do
@@ -214,7 +217,7 @@ typeExpr = binders
case scope of
Nothing => pure exp
-- consider Maybe String to represent missing
(Just scope) => pure $ RPi Nothing Explicit exp scope
(Just scope) => pure $ RPi !(getFC) Nothing Explicit exp scope
-- And top level stuff
@@ -222,20 +225,21 @@ typeExpr = binders
export
parseSig : Parser Decl
parseSig = TypeSig <$> ident <* keyword ":" <*> mustWork typeExpr
parseSig = TypeSig <$> getFC <*> ident <* keyword ":" <*> mustWork typeExpr
parseImport : Parser Decl
parseImport = DImport <$ keyword "import" <* commit <*> ident
parseImport = DImport <$> getFC <* keyword "import" <* commit <*> ident
-- Do we do pattern stuff now? or just name = lambda?
export
parseDef : Parser Decl
parseDef = Def <$> ident <* keyword "=" <*> mustWork typeExpr
parseDef = Def <$> getFC <*> ident <* keyword "=" <*> mustWork typeExpr
export
parseData : Parser Decl
parseData = do
fc <- getFC
keyword "data"
name <- ident
keyword ":"
@@ -244,12 +248,12 @@ parseData = do
commit
decls <- startBlock $ manySame $ parseSig
-- TODO - turn decls into something more useful
pure $ Data name ty decls
pure $ Data fc name ty decls
-- Not sure what I want here.
-- I can't get a Tm without a type, and then we're covered by the other stuff
parseNorm : Parser Decl
parseNorm = DCheck <$ keyword "#check" <*> typeExpr <* keyword ":" <*> typeExpr
parseNorm = DCheck <$> getFC <* keyword "#check" <*> typeExpr <* keyword ":" <*> typeExpr
export
parseDecl : Parser Decl

25
src/Lib/Parser/Impl.idr
View File

@@ -21,15 +21,18 @@ data Fixity = InfixL | InfixR | Infix
-- I was going to use a record, but we're peeling this off of bounds at the moment.
public export
SourcePos : Type
SourcePos = (Int,Int)
FC : Type
FC = (Int,Int)
emptyPos : SourcePos
emptyPos = (0,0)
%name FC fc
export
emptyFC : FC
emptyFC = (0,0)
-- Error of a parse
public export
data Error = E SourcePos String
data Error = E FC String
%name Error err
public export
@@ -64,14 +67,14 @@ Functor Result where
-- dunno why I'm making that a pair..
export
data Parser a = P (TokenList -> Bool -> (lc : SourcePos) -> Result a)
data Parser a = P (TokenList -> Bool -> (lc : FC) -> Result a)
export
runP : Parser a -> TokenList -> Bool -> SourcePos -> Result a
runP : Parser a -> TokenList -> Bool -> FC -> Result a
runP (P f) = f
error : TokenList -> String -> Error
error [] msg = E emptyPos msg
error [] msg = E emptyFC msg
error ((MkBounded val isIrrelevant (MkBounds line col _ _)) :: _) msg = E (line, col) msg
export
@@ -156,9 +159,9 @@ mutual
-- withIndentationBlock - sets the col
export
getPos : Parser SourcePos
getPos = P $ \toks,com, (l,c) => case toks of
[] => Fail False (error toks "End of file") toks com -- OK emptyPos toks com
getFC : Parser FC
getFC = P $ \toks,com, (l,c) => case toks of
[] => OK emptyFC toks com
(t :: ts) => OK (start t) toks com
||| Start an indented block and run parser in it

36
src/Lib/ProcessDecl.idr
View File

@@ -11,27 +11,23 @@ import Lib.Syntax
export
processDecl : Decl -> M ()
processDecl (TypeSig nm tm) = do
processDecl (TypeSig fc nm tm) = do
top <- get
putStrLn "-----"
putStrLn "TypeSig \{nm} \{show tm}"
ty <- check (mkCtx top.metas) tm VU
ty <- check (mkCtx top.metas) tm (VU fc)
ty' <- nf [] ty
putStrLn "got \{pprint [] ty'}"
modify $ claim nm ty'
processDecl (Def nm raw) = do
processDecl (Def fc nm raw) = do
putStrLn "-----"
putStrLn "def \{show nm}"
ctx <- get
let pos = case raw of
RSrcPos pos _ => pos
_ => (0,0)
let Just entry = lookup nm ctx
| Nothing => throwError $ E pos "skip def \{nm} without Decl"
| Nothing => throwError $ E fc "skip def \{nm} without Decl"
let (MkEntry name ty Axiom) := entry
| _ => throwError $ E pos "\{nm} already defined"
| _ => throwError $ E fc "\{nm} already defined"
putStrLn "check \{nm} = \{show raw} at \{pprint [] ty}"
vty <- eval empty CBN ty
putStrLn "vty is \{show vty}"
@@ -48,11 +44,11 @@ processDecl (Def nm raw) = do
debug "Add def \{nm} \{pprint [] tm} : \{pprint [] ty}"
put (addDef ctx nm tm ty)
processDecl (DCheck tm ty) = do
processDecl (DCheck fc tm ty) = do
top <- get
putStrLn "check \{show tm} at \{show ty}"
ty' <- check (mkCtx top.metas) tm VU
ty' <- check (mkCtx top.metas) tm (VU fc)
putStrLn "got type \{pprint [] ty'}"
vty <- eval [] CBN ty'
res <- check (mkCtx top.metas) ty vty
@@ -65,22 +61,22 @@ processDecl (DCheck tm ty) = do
-- norm <- nf [] x
putStrLn "NF "
processDecl (DImport str) = throwError $ E (0,0) "import not implemented"
processDecl (DImport fc str) = throwError $ E fc "import not implemented"
processDecl (Data nm ty cons) = do
processDecl (Data fc nm ty cons) = do
-- It seems like the FC for the errors are not here?
ctx <- get
tyty <- check (mkCtx ctx.metas) ty VU
tyty <- check (mkCtx ctx.metas) ty (VU fc)
-- FIXME we need this in scope, but need to update
modify $ claim nm tyty
ctx <- get
cnames <- for cons $ \x => case x of
-- expecting tm to be a Pi type
(TypeSig nm' tm) => do
(TypeSig fc nm' tm) => do
ctx <- get
-- TODO check pi type ending in full tyty application
-- TODO count arity
dty <- check (mkCtx ctx.metas) tm VU
dty <- check (mkCtx ctx.metas) tm (VU fc)
modify $ defcon nm' 0 nm dty
pure nm'
_ => throwError $ E (0,0) "expected constructor declaration"
@@ -92,8 +88,6 @@ processDecl (Data nm ty cons) = do
pure ()
where
checkDeclType : Tm -> M ()
checkDeclType U = pure ()
checkDeclType (Pi str icit t u) = checkDeclType u
checkDeclType _ = throwError $ E (0,0) "data type doesn't return U"
checkDeclType (U _) = pure ()
checkDeclType (Pi _ str icit t u) = checkDeclType u
checkDeclType _ = error fc "data type doesn't return U"

135
src/Lib/Syntax.idr
View File

@@ -27,27 +27,43 @@ data Pattern
public export
data RCaseAlt = MkAlt Raw Raw
-- FC = MkPair Int Int
data Raw : Type where
RVar : (nm : Name) -> Raw
RLam : (nm : String) -> (icit : Icit) -> (ty : Raw) -> Raw
RApp : (t : Raw) -> (u : Raw) -> (icit : Icit) -> Raw
RU : Raw
RPi : (nm : Maybe Name) -> (icit : Icit) -> (ty : Raw) -> (sc : Raw) -> Raw
RLet : (nm : Name) -> (ty : Raw) -> (v : Raw) -> (sc : Raw) -> Raw
-- REVIEW do we want positions on terms?
RSrcPos : SourcePos -> Raw -> Raw
RAnn : (tm : Raw) -> (ty : Raw) -> Raw
RLit : Literal -> Raw
RCase : (scrut : Raw) -> (alts : List RCaseAlt) -> Raw
RImplicit : Raw
RHole : Raw
RVar : FC -> (nm : Name) -> Raw
RLam : FC -> (nm : String) -> (icit : Icit) -> (ty : Raw) -> Raw
RApp : FC -> (t : Raw) -> (u : Raw) -> (icit : Icit) -> Raw
RU : FC -> Raw
RPi : FC -> (nm : Maybe Name) -> (icit : Icit) -> (ty : Raw) -> (sc : Raw) -> Raw
RLet : FC -> (nm : Name) -> (ty : Raw) -> (v : Raw) -> (sc : Raw) -> Raw
RAnn : FC -> (tm : Raw) -> (ty : Raw) -> Raw
RLit : FC -> Literal -> Raw
RCase : FC -> (scrut : Raw) -> (alts : List RCaseAlt) -> Raw
RImplicit : FC -> Raw
RHole : FC -> Raw
-- not used, but intended to allow error recovery
RParseError : String -> Raw
RParseError : FC -> String -> Raw
%name Raw tm
export
getFC : Raw -> FC
getFC (RVar fc nm) = fc
getFC (RLam fc nm icit ty) = fc
getFC (RApp fc t u icit) = fc
getFC (RU fc) = fc
getFC (RPi fc nm icit ty sc) = fc
getFC (RLet fc nm ty v sc) = fc
getFC (RAnn fc tm ty) = fc
getFC (RLit fc y) = fc
getFC (RCase fc scrut alts) = fc
getFC (RImplicit fc) = fc
getFC (RHole fc) = fc
getFC (RParseError fc str) = fc
-- derive some stuff - I'd like json, eq, show, ...
-- FIXME - I think I don't want "where" here, but the parser has an issue
public export
data Decl : Type where
@@ -57,11 +73,11 @@ Telescope = List Decl -- pi-forall, always typeSig?
data ConstrDef = MkCDef Name Telescope
data Decl
= TypeSig Name Raw
| Def Name Raw
| DImport Name
| DCheck Raw Raw
| Data Name Raw (List Decl)
= TypeSig FC Name Raw
| Def FC Name Raw
| DImport FC Name
| DCheck FC Raw Raw
| Data FC Name Raw (List Decl)
public export
record Module where
@@ -93,11 +109,11 @@ Show ConstrDef where
covering
Show Decl where
show (TypeSig str x) = foo ["TypeSig", show str, show x]
show (Def str x) = foo ["Def", show str, show x]
show (Data str xs ys) = foo ["Data", show str, show xs, show ys]
show (DImport str) = foo ["DImport", show str]
show (DCheck x y) = foo ["DCheck", show x, show y]
show (TypeSig _ str x) = foo ["TypeSig", show str, show x]
show (Def _ str x) = foo ["Def", show str, show x]
show (Data _ str xs ys) = foo ["Data", show str, show xs, show ys]
show (DImport _ str) = foo ["DImport", show str]
show (DCheck _ x y) = foo ["DCheck", show x, show y]
export covering
Show Module where
@@ -119,20 +135,18 @@ Show RCaseAlt where
covering
Show Raw where
show RImplicit = "_"
show RHole = "?"
show (RVar name) = foo ["RVar", show name]
show (RAnn t ty) = foo [ "RAnn", show t, show ty]
show (RLit x) = foo [ "RLit", show x]
show (RLet x ty v scope) = foo [ "Let", show x, " : ", show ty, " = ", show v, " in ", show scope]
show (RPi str x y z) = foo [ "Pi", show str, show x, show y, show z]
show (RApp x y z) = foo [ "App", show x, show y, show z]
show (RLam x i y) = foo [ "Lam", show x, show i, show y]
show (RCase x xs) = foo [ "Case", show x, show xs]
show (RParseError str) = foo [ "ParseError", "str"]
show RU = "U"
show (RSrcPos pos tm) = foo [ "#", show tm]
show (RImplicit _) = "_"
show (RHole _) = "?"
show (RVar _ name) = foo ["RVar", show name]
show (RAnn _ t ty) = foo [ "RAnn", show t, show ty]
show (RLit _ x) = foo [ "RLit", show x]
show (RLet _ x ty v scope) = foo [ "Let", show x, " : ", show ty, " = ", show v, " in ", show scope]
show (RPi _ str x y z) = foo [ "Pi", show str, show x, show y, show z]
show (RApp _ x y z) = foo [ "App", show x, show y, show z]
show (RLam _ x i y) = foo [ "Lam", show x, show i, show y]
show (RCase _ x xs) = foo [ "Case", show x, show xs]
show (RParseError _ str) = foo [ "ParseError", "str"]
show (RU _) = "U"
export
Pretty Raw where
@@ -146,31 +160,30 @@ Pretty Raw where
par p p' d = if p' < p then text "(" ++ d ++ text ")" else d
asDoc : Nat -> Raw -> Doc
asDoc p (RVar str) = text str
asDoc p (RLam str icit x) = par p 0 $ text "\\" ++ wrap icit (text str) <+> text "=>" <+> asDoc 0 x
asDoc p (RVar _ str) = text str
asDoc p (RLam _ str icit x) = par p 0 $ text "\\" ++ wrap icit (text str) <+> text "=>" <+> asDoc 0 x
-- This needs precedence and operators...
asDoc p (RApp x y Explicit) = par p 2 $ asDoc 2 x <+> asDoc 3 y
asDoc p (RApp x y Implicit) = par p 2 $ asDoc 2 x <+> text "{" ++ asDoc 0 y ++ text "}"
asDoc p RU = text "U"
asDoc p (RPi Nothing Explicit ty scope) = par p 1 $ asDoc p ty <+> text "->" <+/> asDoc p scope
asDoc p (RPi (Just x) Explicit ty scope) =
asDoc p (RApp _ x y Explicit) = par p 2 $ asDoc 2 x <+> asDoc 3 y
asDoc p (RApp _ x y Implicit) = par p 2 $ asDoc 2 x <+> text "{" ++ asDoc 0 y ++ text "}"
asDoc p (RU _) = text "U"
asDoc p (RPi _ Nothing Explicit ty scope) = par p 1 $ asDoc p ty <+> text "->" <+/> asDoc p scope
asDoc p (RPi _ (Just x) Explicit ty scope) =
par p 1 $ text "(" <+> text x <+> text ":" <+> asDoc p ty <+> text ")" <+> text "->" <+/> asDoc p scope
asDoc p (RPi nm Implicit ty scope) =
asDoc p (RPi _ nm Implicit ty scope) =
par p 1 $ text "{" <+> text (fromMaybe "_" nm) <+> text ":" <+> asDoc p ty <+> text "}" <+> text "->" <+/> asDoc 1 scope
asDoc p (RLet x v ty scope) =
asDoc p (RLet _ x v ty scope) =
par p 0 $ text "let" <+> text x <+> text ":" <+> asDoc p ty
<+> text "=" <+> asDoc p v
<+/> text "in" <+> asDoc p scope
asDoc p (RSrcPos x y) = asDoc p y
-- does this exist?
asDoc p (RAnn x y) = text "TODO - RAnn"
asDoc p (RLit (LString str)) = text $ interpolate str
asDoc p (RLit (LInt i)) = text $ show i
asDoc p (RLit (LBool x)) = text $ show x
asDoc p (RCase x xs) = text "TODO - RCase"
asDoc p RImplicit = text "_"
asDoc p RHole = text "?"
asDoc p (RParseError str) = text "ParseError \{str}"
asDoc p (RAnn _ x y) = text "TODO - RAnn"
asDoc p (RLit _ (LString str)) = text $ interpolate str
asDoc p (RLit _ (LInt i)) = text $ show i
asDoc p (RLit _ (LBool x)) = text $ show x
asDoc p (RCase _ x xs) = text "TODO - RCase"
asDoc p (RImplicit _) = text "_"
asDoc p (RHole _) = text "?"
asDoc p (RParseError _ str) = text "ParseError \{str}"
export
Pretty Module where
@@ -178,9 +191,9 @@ Pretty Module where
text "module" <+> text name </> stack (map doDecl decls)
where
doDecl : Decl -> Doc
doDecl (TypeSig nm ty) = text nm <+> text ":" <+> nest 2 (pretty ty)
doDecl (Def nm tm) = text nm <+> text "=" <+> nest 2 (pretty tm)
doDecl (DImport nm) = text "import" <+> text nm ++ line
doDecl (TypeSig _ nm ty) = text nm <+> text ":" <+> nest 2 (pretty ty)
doDecl (Def _ nm tm) = text nm <+> text "=" <+> nest 2 (pretty tm)
doDecl (DImport _ nm) = text "import" <+> text nm ++ line
-- the behavior of nest is kinda weird, I have to do the nest before/around the </>.
doDecl (Data nm x xs) = text "data" <+> text nm <+> text ":" <+> pretty x <+> (nest 2 $ text "where" </> stack (map doDecl xs))
doDecl (DCheck x y) = text "#check" <+> pretty x <+> ":" <+> pretty y
doDecl (Data _ nm x xs) = text "data" <+> text nm <+> text ":" <+> pretty x <+> (nest 2 $ text "where" </> stack (map doDecl xs))
doDecl (DCheck _ x y) = text "#check" <+> pretty x <+> ":" <+> pretty y

62
src/Lib/TT.idr
View File

@@ -7,7 +7,7 @@
-- Kovacs has icity on App, and passes it around, but I'm not sure where it is needed since the insertion happens based on Raw.
module Lib.TT
-- For SourcePos
-- For FC
import Lib.Parser.Impl
import Lib.Prettier
import Lib.Types
@@ -30,8 +30,8 @@ toDoc (DD x) = pretty x
toDoc (DS str) = text str
export
error : {auto ctx : Context} -> List ErrorSeg -> M a
error xs = throwError $ E ctx.pos (render 80 $ spread $ map toDoc xs)
error : FC -> String -> M a
error fc msg = throwError $ E fc msg
export
error' : String -> M a
@@ -41,18 +41,18 @@ error' msg = throwError $ E (0,0) msg
-- because of dependent types (if we want something well-typed back out)
export
freshMeta : Context -> M Tm
freshMeta ctx = do
freshMeta : Context -> FC -> M Tm
freshMeta ctx fc = do
mc <- readIORef ctx.metas
putStrLn "INFO at \{show ctx.pos}: fresh meta \{show mc.next}"
writeIORef ctx.metas $ { next $= S, metas $= (Unsolved ctx.pos mc.next ctx.bds ::) } mc
pure $ applyBDs 0 (Meta mc.next) ctx.bds
putStrLn "INFO at \{show fc}: fresh meta \{show mc.next}"
writeIORef ctx.metas $ { next $= S, metas $= (Unsolved fc mc.next ctx.bds ::) } mc
pure $ applyBDs 0 (Meta emptyFC mc.next) ctx.bds
where
-- hope I got the right order here :)
applyBDs : Nat -> Tm -> List BD -> Tm
applyBDs k t [] = t
-- review the order here
applyBDs k t (Bound :: xs) = App (applyBDs (S k) t xs) (Bnd k)
applyBDs k t (Bound :: xs) = App emptyFC (applyBDs (S k) t xs) (Bnd emptyFC k)
applyBDs k t (Defined :: xs) = applyBDs (S k) t xs
export
@@ -79,7 +79,7 @@ Show Context where
export
extend : Context -> String -> Val -> Context
extend ctx name ty =
{ lvl $= S, env $= (VVar ctx.lvl [<] ::), types $= ((name, ty) ::), bds $= (Bound ::) } ctx
{ lvl $= S, env $= (VVar emptyFC ctx.lvl [<] ::), types $= ((name, ty) ::), bds $= (Bound ::) } ctx
-- I guess we define things as values?
export
@@ -115,10 +115,10 @@ infixl 8 $$
export
vapp : Val -> Val -> M Val
vapp (VLam _ t) u = t $$ u
vapp (VVar k sp) u = pure $ VVar k (sp :< u)
vapp (VRef nm def sp) u = pure $ VRef nm def (sp :< u)
vapp (VMeta k sp) u = pure $ VMeta k (sp :< u)
vapp (VLam _ _ t) u = t $$ u
vapp (VVar fc k sp) u = pure $ VVar fc k (sp :< u)
vapp (VRef fc nm def sp) u = pure $ VRef fc nm def (sp :< u)
vapp (VMeta fc k sp) u = pure $ VMeta fc k (sp :< u)
vapp t u = error' "impossible in vapp \{show t} to \{show u}"
export
@@ -140,17 +140,17 @@ bind v env = v :: env
-- I need to be aggressive about reduction, I guess. I'll figure it out
-- later, maybe need lazy glued values.
-- TODO - probably want to figure out gluing and handle constructors
eval env mode (Ref x (Fn tm)) = eval env mode tm
eval env mode (Ref x def) = pure $ VRef x def [<]
eval env mode (App t u) = vapp !(eval env mode t) !(eval env mode u)
eval env mode U = pure VU
eval env mode (Meta i) =
eval env mode (Ref _ x (Fn tm)) = eval env mode tm
eval env mode (Ref fc x def) = pure $ VRef fc x def [<]
eval env mode (App _ t u) = vapp !(eval env mode t) !(eval env mode u)
eval env mode (U fc) = pure (VU fc)
eval env mode (Meta fc i) =
case !(lookupMeta i) of
(Unsolved _ k xs) => pure $ VMeta i [<]
(Unsolved _ k xs) => pure $ VMeta fc i [<]
(Solved k t) => pure $ t
eval env mode (Lam x t) = pure $ VLam x (MkClosure env t)
eval env mode (Pi x icit a b) = pure $ VPi x icit !(eval env mode a) (MkClosure env b)
eval env mode (Bnd i) = case getAt i env of
eval env mode (Lam fc x t) = pure $ VLam fc x (MkClosure env t)
eval env mode (Pi fc x icit a b) = pure $ VPi fc x icit !(eval env mode a) (MkClosure env b)
eval env mode (Bnd fc i) = case getAt i env of
Just rval => pure rval
Nothing => error' "Bad deBruin index \{show i}"
eval env mode (Case{}) = ?todo
@@ -161,17 +161,17 @@ quote : (lvl : Nat) -> Val -> M Tm
quoteSp : (lvl : Nat) -> Tm -> SnocList Val -> M Tm
quoteSp lvl t [<] = pure t
quoteSp lvl t (xs :< x) =
pure $ App !(quoteSp lvl t xs) !(quote lvl x)
pure $ App emptyFC !(quoteSp lvl t xs) !(quote lvl x)
-- quoteSp lvl (App t !(quote lvl x)) xs -- snoc says previous is right
quote l (VVar k sp) = if k < l
then quoteSp l (Bnd ((l `minus` k) `minus` 1)) sp -- level to index
quote l (VVar fc k sp) = if k < l
then quoteSp l (Bnd emptyFC ((l `minus` k) `minus` 1)) sp -- level to index
else ?borken
quote l (VMeta i sp) = quoteSp l (Meta i) sp
quote l (VLam x t) = pure $ Lam x !(quote (S l) !(t $$ VVar l [<]))
quote l (VPi x icit a b) = pure $ Pi x icit !(quote l a) !(quote (S l) !(b $$ VVar l [<]))
quote l VU = pure U
quote l (VRef n def sp) = quoteSp l (Ref n def) sp
quote l (VMeta fc i sp) = quoteSp l (Meta fc i) sp
quote l (VLam fc x t) = pure $ Lam fc x !(quote (S l) !(t $$ VVar emptyFC l [<]))
quote l (VPi fc x icit a b) = pure $ Pi fc x icit !(quote l a) !(quote (S l) !(b $$ VVar emptyFC l [<]))
quote l (VU fc) = pure (U fc)
quote l (VRef fc n def sp) = quoteSp l (Ref fc n def) sp
-- Can we assume closed terms?
-- ezoo only seems to use it at [], but essentially does this:

125
src/Lib/Types.idr
View File

@@ -4,7 +4,7 @@ module Lib.Types
-- maybe watch https://www.youtube.com/watch?v=3gef0_NFz8Q
-- or drop the indices for now.
-- For SourcePos, Error
-- For FC, Error
import public Lib.Parser.Impl
import Lib.Prettier
@@ -54,35 +54,47 @@ data CaseAlt : Type where
data Def : Type
data Tm : Type where
Bnd : Nat -> Tm
Bnd : FC -> Nat -> Tm
-- Maybe Def here instead of Maybe Tm, we'll have DCon, TCon, etc.
Ref : String -> Def -> Tm
Meta : Nat -> Tm
Ref : FC -> String -> Def -> Tm
Meta : FC -> Nat -> Tm
-- kovacs optimization, I think we can App out meta instead
-- InsMeta : Nat -> List BD -> Tm
Lam : Name -> Tm -> Tm
App : Tm -> Tm -> Tm
U : Tm
Pi : Name -> Icit -> Tm -> Tm -> Tm
Lam : FC -> Name -> Tm -> Tm
App : FC -> Tm -> Tm -> Tm
U : FC -> Tm
Pi : FC -> Name -> Icit -> Tm -> Tm -> Tm
-- REVIEW - do we want to just push it up like idris?
Case : Tm -> List CaseAlt -> Tm
Case : FC -> Tm -> List CaseAlt -> Tm
%name Tm t, u, v
export
getFC : Tm -> FC
getFC (Bnd fc k) = fc
getFC (Ref fc str x) = fc
getFC (Meta fc k) = fc
getFC (Lam fc str t) = fc
getFC (App fc t u) = fc
getFC (U fc) = fc
getFC (Pi fc str icit t u) = fc
getFC (Case fc t xs) = fc
Show CaseAlt where
show alt = "FIXME"
-- public export
Show Tm where
show (Bnd k) = "(Bnd \{show k})"
show (Ref str _) = "(Ref \{show str})"
show (Lam nm t) = "(\\ \{nm} => \{show t})"
show (App t u) = "(\{show t} \{show u})"
show (Meta i) = "(Meta \{show i})"
show U = "U"
show (Pi str Implicit t u) = "(Pi (\{str} : \{show t}) => \{show u})"
show (Pi str Explicit t u) = "(Pi {\{str} : \{show t}} => \{show u})"
show (Case sc alts) = "(Case \{show sc} \{show alts})"
show (Bnd _ k) = "(Bnd \{show k})"
show (Ref _ str _) = "(Ref \{show str})"
show (Lam _ nm t) = "(\\ \{nm} => \{show t})"
show (App _ t u) = "(\{show t} \{show u})"
show (Meta _ i) = "(Meta \{show i})"
show (U _) = "U"
show (Pi _ str Implicit t u) = "(Pi (\{str} : \{show t}) => \{show u})"
show (Pi _ str Explicit t u) = "(Pi {\{str} : \{show t}} => \{show u})"
show (Case _ sc alts) = "(Case \{show sc} \{show alts})"
-- I can't really show val because it's HOAS...
@@ -97,12 +109,12 @@ Eq Icit where
export
Eq (Tm) where
-- (Local x) == (Local y) = x == y
(Bnd x) == (Bnd y) = x == y
(Ref x _) == (Ref y _) = x == y
(Lam n t) == (Lam n' t') = t == t'
(App t u) == App t' u' = t == t' && u == u'
U == U = True
(Pi n icit t u) == (Pi n' icit' t' u') = icit == icit' && t == t' && u == u'
(Bnd _ x) == (Bnd _ y) = x == y
(Ref _ x _) == Ref _ y _ = x == y
(Lam _ n t) == Lam _ n' t' = t == t'
(App _ t u) == App _ t' u' = t == t' && u == u'
(U _) == (U _) = True
(Pi _ n icit t u) == (Pi _ n' icit' t' u') = icit == icit' && t == t' && u == u'
_ == _ = False
-- FIXME prec
@@ -112,30 +124,30 @@ pprint : List String -> Tm -> String
pprint names tm = render 80 $ go names tm
where
go : List String -> Tm -> Doc
go names (Bnd k) = case getAt k names of
go names (Bnd _ k) = case getAt k names of
Nothing => text "BND \{show k}"
Just nm => text "\{nm}:\{show k}"
go names (Ref str mt) = text str
go names (Meta k) = text "?m:\{show k}"
go names (Lam nm t) = text "(\\ \{nm} =>" <+> go (nm :: names) t <+> ")"
go names (App t u) = text "(" <+> go names t <+> go names u <+> ")"
go names U = "U"
go names (Pi nm Implicit t u) =
go names (Ref _ str mt) = text str
go names (Meta _ k) = text "?m:\{show k}"
go names (Lam _ nm t) = text "(\\ \{nm} =>" <+> go (nm :: names) t <+> ")"
go names (App _ t u) = text "(" <+> go names t <+> go names u <+> ")"
go names (U _) = "U"
go names (Pi _ nm Implicit t u) =
text "({" <+> text nm <+> ":" <+> go names t <+> "}" <+> "=>" <+> go (nm :: names) u <+> ")"
go names (Pi nm Explicit t u) =
go names (Pi _ nm Explicit t u) =
text "((" <+> text nm <+> ":" <+> go names t <+> ")" <+> "=>" <+> go (nm :: names) u <+> ")"
go names (Case _ _) = "FIXME CASE"
go names (Case _ _ _) = "FIXME CASE"
public export
Pretty Tm where
pretty (Bnd k) = ?rhs_0
pretty (Ref str mt) = text str
pretty (Meta k) = text "?m\{show k}"
pretty (Lam str t) = text "(\\ \{str} => " <+> pretty t <+> ")"
pretty (App t u) = text "(" <+> pretty t <+> pretty u <+> ")"
pretty U = "U"
pretty (Pi str icit t u) = text "(" <+> text str <+> ":" <+> pretty t <+> ")" <+> "=>" <+> pretty u <+> ")"
pretty (Case _ _) = text "FIXME CASE"
pretty (Bnd _ k) = ?rhs_0
pretty (Ref _ str mt) = text str
pretty (Meta _ k) = text "?m\{show k}"
pretty (Lam _ str t) = text "(\\ \{str} => " <+> pretty t <+> ")"
pretty (App _ t u) = text "(" <+> pretty t <+> pretty u <+> ")"
pretty (U _) = "U"
pretty (Pi _ str icit t u) = text "(" <+> text str <+> ":" <+> pretty t <+> ")" <+> "=>" <+> pretty u <+> ")"
pretty (Case _ _ _) = text "FIXME CASE"
-- public export
-- data Closure : Nat -> Type
@@ -159,28 +171,28 @@ data Closure : Type
public export
data Val : Type where
-- This will be local / flex with spine.
VVar : (k : Nat) -> (sp : SnocList Val) -> Val
VVar : FC -> (k : Nat) -> (sp : SnocList Val) -> Val
-- I wanted the Maybe Tm in here, but for now we're always expanding.
-- Maybe this is where I glue
VRef : (nm : String) -> Def -> (sp : SnocList Val) -> Val
VRef : FC -> (nm : String) -> Def -> (sp : SnocList Val) -> Val
-- we'll need to look this up in ctx with IO
VMeta : (ix : Nat) -> (sp : SnocList Val) -> Val
VLam : Name -> Closure -> Val
VPi : Name -> Icit -> (a : Lazy Val) -> (b : Closure) -> Val
VU : Val
VMeta : FC -> (ix : Nat) -> (sp : SnocList Val) -> Val
VLam : FC -> Name -> Closure -> Val
VPi : FC -> Name -> Icit -> (a : Lazy Val) -> (b : Closure) -> Val
VU : FC -> Val
Show Closure
covering export
Show Val where
show (VVar k sp) = "(%var \{show k} \{show sp})"
show (VRef nm _ sp) = "(%ref \{nm} \{show sp})"
show (VMeta ix sp) = "(%meta \{show ix} \{show sp})"
show (VLam str x) = "(%lam \{str} \{show x})"
show (VPi str Implicit x y) = "(%pi {\{str} : \{show x}}. \{show y})"
show (VPi str Explicit x y) = "(%pi (\{str} : \{show x}). \{show y})"
show VU = "U"
show (VVar _ k sp) = "(%var \{show k} \{show sp})"
show (VRef _ nm _ sp) = "(%ref \{nm} \{show sp})"
show (VMeta _ ix sp) = "(%meta \{show ix} \{show sp})"
show (VLam _ str x) = "(%lam \{str} \{show x})"
show (VPi fc str Implicit x y) = "(%pi {\{str} : \{show x}}. \{show y})"
show (VPi fc str Explicit x y) = "(%pi (\{str} : \{show x}). \{show y})"
show (VU _) = "U"
-- Not used - I was going to change context to have a List Binder
-- instead of env, types, bds
@@ -234,7 +246,7 @@ Can I get val back? Do we need to quote? What happens if we don't?
-}
public export
data MetaEntry = Unsolved SourcePos Nat (List BD) | Solved Nat Val
data MetaEntry = Unsolved FC Nat (List BD) | Solved Nat Val
export
covering
@@ -301,7 +313,6 @@ record Context where
types : Vect lvl (String, Val) -- types and names in scope
-- so we'll try "bds" determines length of local context
bds : List BD -- bound or defined
pos : SourcePos -- the last SourcePos that we saw
-- We only need this here if we don't pass TopContext
-- top : TopContext
@@ -320,7 +331,7 @@ M = (StateT TopContext (EitherT Impl.Error IO))
-- around top
export
mkCtx : IORef MetaContext -> Context
mkCtx metas = MkCtx 0 [] [] [] (0,0) metas
mkCtx metas = MkCtx 0 [] [] [] metas
||| Force argument and print if verbose is true
export