definition system, repl

This commit is contained in:
Rachel Lambda Samuelsson 2022-07-26 23:07:13 +02:00
parent 79ad67ffec
commit c7fb1d5cd3
14 changed files with 384 additions and 500 deletions

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@ -22,12 +22,12 @@ A dependently typed system
# TODO
* Repl
* Defs
* Performence optimisation
* Parsing !!! (this is like 90% of the time currently lmao)
* Memoize normalisation and conversion somehow?
* Repl
* Universes
* Implicit arguments

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@ -1,6 +1,8 @@
.PHONY: all run
all:
idris2 --build pi.ipkg
clean:
idris2 --clean pi.ipkg
run:
./build/exec/pi
test:

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@ -5,7 +5,6 @@ modules = Core.Check
, Core.Misc
, Core.Normalize
, Core.Term
, Core.Tests
, Core.Value
, Parser.Parse

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@ -5,6 +5,8 @@ import Control.Monad.Either
import Control.Monad.Identity
import Data.Vect
import Data.Fin
import Data.IOArray
import Data.IORef
import Core.Term
import Core.Value
@ -12,21 +14,27 @@ import Core.Normalize
import Core.Misc
import Core.Convert
%default total
-- extend environment, used to ensure environment is always in normal form
extV : Ctx n -> Value -> PI (Ctx (S n))
extV : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Ctx n -> Value -> PI (Ctx (S n))
extV ctx val = whnf val >>= pure . (`Data.Vect.(::)` ctx)
-- to extend, closure env, term
extT : Ctx m -> Ctx n -> Term n -> PI (Ctx (S m))
extT : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Ctx m -> Ctx n -> Term n -> PI (Ctx (S m))
extT ctx env = extV ctx . VClos env
mutual
public export
-- terms types expected term
check : Ctx n -> Ctx n -> Value -> Term n -> PI Bool
check : {auto deftrs : RefA DTR Value}
-> {auto deftys : RefA DTY Value}
-> {auto frst : Ref NST Nat}
-> Ctx n -> Ctx n -> Value -> Term n -> PI Bool
check trs tys xpt' tr = do
xpt <- whnf xpt'
case tr of
@ -49,7 +57,11 @@ mutual
_ => convert xpt =<< infer trs tys tr
-- terms types term
infer : Ctx n -> Ctx n -> Term n -> PI Value
public export
infer : {auto deftrs : RefA DTR Value}
-> {auto deftys : RefA DTY Value}
-> {auto frst : Ref NST Nat}
-> Ctx n -> Ctx n -> Term n -> PI Value
infer trs tys TType = pure VType
infer trs tys TTop = pure VType
infer trs tys TBot = pure VType
@ -57,14 +69,19 @@ mutual
infer trs tys TStar = pure VTop
infer trs tys TZero = pure VNat
infer trs tys (TVar i) = pure (index i tys)
infer trs tys (TDef i) = do
res <- getArr DTY i
case res of
Just x => pure x
Nothing => oops "TDef type lookup"
infer trs tys (TApp f x) = infer trs tys f >>= whnf >>=
\case
VClos env (TPi a b) => do
guardS ("app x:\n" ++ show !(whnf (VClos env a))) =<< check trs tys (VClos env a) x
tr <- whnf (VClos trs x)
pure (VClos (tr :: env) b)
\case
VClos env (TPi a b) => do
guardS ("app x:\n" ++ show !(whnf (VClos env a))) =<< check trs tys (VClos env a) x
tr <- whnf (VClos trs x)
pure (VClos (tr :: env) b)
_ => oops "expected infer pi"
_ => oops "expected infer pi"
infer trs tys (TPi a b) = do
v <- VGen <$> fresh
@ -141,6 +158,9 @@ mutual
infer trs tys x = oops ("cannot infer type " ++ show x)
public export
typecheck : Term 0 -> Term 0 -> Either String (Bool, List String)
typecheck : {auto deftrs : RefA DTR Value}
-> {auto deftys : RefA DTY Value}
-> {auto frst : Ref NST Nat}
-> Term 0 -> Term 0 -> IO (Either String Bool)
typecheck tr ty = resolve $ (&&) <$> check [] [] VType ty
<*> delay <$> check [] [] (VClos [] ty) tr

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@ -11,102 +11,100 @@ import Control.Monad.Either
import Data.Nat
import Data.Vect
import Data.IOArray
import Data.IORef
%default total
public export
convert : Value -> Value -> PI Bool
convert : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Value -> Value -> PI Bool
convert u1 u2 = do
u1' <- whnf u1
u2' <- whnf u2
logS ("checking equality of terms '" ++ show u1 ++ "' and '" ++ show u2 ++ "'.")
logS ("with value representations '" ++ show u1' ++ "' and '" ++ show u2' ++ "'.")
assert_total $ -- :(
case (u1', u2') of
(VType, VType) => pure True
(VTop, VTop) => pure True
(VStar, VStar) => pure True
(VBot, VBot) => pure True
(VNat, VNat) => pure True
assert_total $ case (u1', u2') of
(VType, VType) => pure True
(VTop, VTop) => pure True
(VStar, VStar) => pure True
(VBot, VBot) => pure True
(VNat, VNat) => pure True
(VGen k1, VGen k2) => pure (k1 == k2)
(VGen k1, VGen k2) => pure (k1 == k2)
(VApp f1 x1, VApp f2 x2) => (&&) <$> convert f1 f2 <*> delay <$> convert x1 x2
(VApp f1 x1, VApp f2 x2) => (&&) <$> convert f1 f2 <*> delay <$> convert x1 x2
(VClos env1 (TLam sc1), VClos env2 (TLam sc2)) => do
v <- VGen <$> fresh
convert (VClos (v :: env1) sc1) (VClos (v :: env2) sc2)
(VClos env1 (TLam sc1), VClos env2 (TLam sc2)) => do
v <- VGen <$> fresh
convert (VClos (v :: env1) sc1) (VClos (v :: env2) sc2)
(VClos env1 (TPi a1 b1), VClos env2 (TPi a2 b2)) => do
v <- VGen <$> fresh
guardS (show a1 ++ " | " ++ show a2) =<< convert (VClos env1 a1) (VClos env2 a2)
convert (VClos (v :: env1) b1) (VClos (v :: env2) b2)
(VClos env1 (TPi a1 b1), VClos env2 (TPi a2 b2)) => do
v <- VGen <$> fresh
(&&) <$> convert (VClos env1 a1) (VClos env2 a2)
<*> delay <$> convert (VClos (v :: env1) b1) (VClos (v :: env2) b2)
(VClos env1 (TSigma a1 b1), VClos env2 (TSigma a2 b2)) => do
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TSigma a1 b1), VClos env2 (TSigma a2 b2)) => do
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TPair a1 b1), VClos env2 (TPair a2 b2)) => do
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TPair a1 b1), VClos env2 (TPair a2 b2)) => do
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TId ty1 a1 b1), VClos env2 (TId ty2 a2 b2)) => do
termGuard env1 env2 ty1 ty2
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TId ty1 a1 b1), VClos env2 (TId ty2 a2 b2)) => do
termGuard env1 env2 ty1 ty2
termGuard env1 env2 a1 a2
termConv env1 env2 b1 b2
(VClos env1 (TRefl ty1 tr1), VClos env2 (TRefl ty2 tr2)) => do
termGuard env1 env2 ty1 ty2
termConv env1 env2 tr1 tr2
(VClos env1 (TRefl ty1 tr1), VClos env2 (TRefl ty2 tr2)) => do
termGuard env1 env2 ty1 ty2
termConv env1 env2 tr1 tr2
(VClos env1 (TNatInd c1 z1 s1), VClos env2 (TNatInd c2 z2 s2)) => do
termGuard env1 env2 c1 c2
termGuard env1 env2 z1 z2
termConv env1 env2 s1 s2
(VClos env1 (TNatInd c1 z1 s1), VClos env2 (TNatInd c2 z2 s2)) => do
termGuard env1 env2 c1 c2
termGuard env1 env2 z1 z2
termConv env1 env2 s1 s2
(VClos _ TZero, VClos _ TZero) => pure True
(VClos _ TZero, VClos _ TZero) => pure True
(VClos env1 (TSuc n1), VClos env2 (TSuc n2)) => do
termConv env1 env2 n1 n2
(VClos env1 (TSuc n1), VClos env2 (TSuc n2)) => do
termConv env1 env2 n1 n2
(VClos env1 (TJ ty1 a1 b1 c1 d1), VClos env2 (TJ ty2 a2 b2 c2 d2)) => do
termGuard env1 env2 ty1 ty2
termGuard env1 env2 a1 a2
termGuard env1 env2 b1 b2
termGuard env1 env2 c1 c2
termConv env1 env2 d1 d2
(VClos env1 (TJ ty1 a1 b1 c1 d1), VClos env2 (TJ ty2 a2 b2 c2 d2)) => do
termGuard env1 env2 ty1 ty2
termGuard env1 env2 a1 a2
termGuard env1 env2 b1 b2
termGuard env1 env2 c1 c2
termConv env1 env2 d1 d2
(VClos env1 (TSigInd a1 b1 c1 f1), VClos env2 (TSigInd a2 b2 c2 f2)) => do
termGuard env1 env2 a1 a2
termGuard env1 env2 b1 b2
termGuard env1 env2 c1 c2
termConv env1 env2 f1 f2
(VClos env1 (TSigInd a1 b1 c1 f1), VClos env2 (TSigInd a2 b2 c2 f2)) => do
termGuard env1 env2 a1 a2
termGuard env1 env2 b1 b2
termGuard env1 env2 c1 c2
termConv env1 env2 f1 f2
(VClos env1 (TBotInd c1), VClos env2 (TBotInd c2)) => termConv env1 env2 c1 c2
(VClos env1 (TBotInd c1), VClos env2 (TBotInd c2)) => termConv env1 env2 c1 c2
(VClos env1 (TTopInd c1 st1), VClos env2 (TTopInd c2 st2)) => do
termGuard env1 env2 c1 c2
termConv env1 env2 st1 st2
(VClos env1 (TTopInd c1 st1), VClos env2 (TTopInd c2 st2)) => do
termGuard env1 env2 c1 c2
termConv env1 env2 st1 st2
-- η rules
-- fresh cannot appear in vsc, so this is fine
(vsc, VClos env (TLam (TApp sc (TVar 0)))) => do
v <- VGen <$> fresh
convert vsc (VClos (v :: env) sc)
(VClos env (TLam (TApp sc (TVar 0))), vsc) => do
v <- VGen <$> fresh
convert vsc (VClos (v :: env) sc)
-- η rules
-- fresh cannot appear in vsc, so this is fine
(vsc, VClos env (TLam (TApp sc (TVar 0)))) => do
v <- VGen <$> fresh
convert vsc (VClos (v :: env) sc)
(VClos env (TLam (TApp sc (TVar 0))), vsc) => do
v <- VGen <$> fresh
convert vsc (VClos (v :: env) sc)
-- VApp
-- (VApp v1 v2 , VClos env (TApp t1 t2)) => (&&) <$> convert v1 (VClos env t1) <*> delay <$> convert v1 (VClos env t1)
-- (VClos env (TApp t1 t2), VApp v1 v2) => (&&) <$> convert v1 (VClos env t1) <*> delay <$> convert v1 (VClos env t1)
(v1, v2) => oops ("cannot convert \n" ++ show v1 ++ "\n\n" ++ show v2)
where
termConv : Ctx n -> Ctx m -> Term n -> Term m -> PI Bool
termConv env1 env2 a1 a2 = do
a1' <- eval env1 a1
a2' <- eval env2 a2
convert a1' a2'
termGuard : Ctx n -> Ctx m -> Term n -> Term m -> PI ()
termGuard env1 env2 a1 a2 = guardS "termGuard" =<< termConv env1 env2 a1 a2
(v1, v2) => oops ("cannot convert \n" ++ show v1 ++ "\n\n" ++ show v2)
where
termConv : Ctx n -> Ctx m -> Term n -> Term m -> PI Bool
termConv env1 env2 a1 a2 = do
a1' <- eval env1 a1
a2' <- eval env2 a2
convert a1' a2'
termGuard : Ctx n -> Ctx m -> Term n -> Term m -> PI ()
termGuard env1 env2 a1 a2 = termConv env1 env2 a1 a2 >>=
guardS ("cannot convert \n" ++ show a1 ++ "\n\n" ++ show a2)

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@ -6,6 +6,8 @@ import Control.Monad.Either
import Data.Nat
import Data.Vect
import Data.IORef
import Data.IOArray
%default total
@ -19,13 +21,46 @@ Name = String
public export
PI : Type -> Type
PI = EitherT String (RWS () (List String) Nat)
PI = EitherT String IO
public export
resolve : PI a -> Either String (a, List String)
resolve a = case runRWS (runEitherT a) () 0 of
(Left e, _) => Left e
(Right r, _, s) => Right (r, s)
data NST : Type where
public export
data DTY : Type where
public export
data DTR : Type where
public export
data RefP : Type -> Type -> Type where
MkRefP : (label : Type) -> a -> RefP label a
public export
RefA : Type -> Type -> Type
RefA label a = RefP label (IOArray a)
public export
Ref : Type -> Type -> Type
Ref label a = RefP label (IORef a)
public export
getRef : HasIO io => (label : Type) -> {auto ref : Ref label a} -> io a
getRef _ {ref = MkRefP _ ref} = readIORef ref
public export
putRef : HasIO io => (label : Type) -> {auto ref : Ref label a} -> a -> io ()
putRef _ {ref = MkRefP _ ref} = writeIORef ref
public export
getArr : HasIO io => (label : Type) -> {auto ref : RefA label a} -> Int -> io (Maybe a)
getArr _ {ref = MkRefP _ ref} = readArray ref
public export
putArr : HasIO io => (label : Type) -> {auto ref : RefA label a} -> Int -> a -> io Bool
putArr _ {ref = MkRefP _ ref} = writeArray ref
public export
resolve : PI a -> IO (Either String a)
resolve a = runEitherT a
public export
oops : String -> PI a
@ -36,19 +71,9 @@ guardS : String -> Bool -> PI ()
guardS str True = pure ()
guardS str False = oops str
public export
fresh : PI Nat
fresh : {auto frst : Ref NST Nat} -> PI Nat
fresh = do
i <- get
put (S i)
i <- getRef NST
putRef NST (S i)
pure i
public export
logS : String -> PI ()
logS = tell . (`Prelude.(::)` [])
public export
headM : Vect n a -> Maybe a
headM [] = Nothing
headM (x :: _) = Just x

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@ -10,12 +10,16 @@ import Control.Monad.Either
import Data.Nat
import Data.Vect
import Data.IOArray
import Data.IORef
%default total
mutual
public export
app : Value -> Value -> PI Value
app : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Value -> Value -> PI Value
app (VClos env (TLam sc)) x = eval (x :: env) sc
app (VClos env (TTopInd c st)) VTop = eval env st
@ -36,8 +40,15 @@ mutual
app f x = pure (VApp f x)
public export
eval : Ctx n -> Term n -> PI Value
eval env (TVar i) = pure (index i env)
eval : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Ctx n -> Term n -> PI Value
eval env (TVar i) = pure (index i env)
eval env (TDef i) = do
res <- getArr DTR i
case res of
Just x => pure x
Nothing => oops "TDef term lookup"
eval env TType = pure VType
eval env TTop = pure VTop
eval env TStar = pure VStar
@ -55,7 +66,9 @@ mutual
eval env tr = pure (VClos env tr)
public export
whnf : Value -> PI Value
whnf : {auto deftrs : RefA DTR Value}
-> {auto frst : Ref NST Nat}
-> Value -> PI Value
whnf (VClos env tr) = eval env tr
whnf (VApp f x) = do
f' <- whnf f

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@ -9,6 +9,9 @@ import Core.Misc
{-
The type of terms is indexed by the size of the environment in which
they are valid, that is, it is impossible to construct an ill-scoped term.
Defs are used for performance reasons and are not implemented in a type safe manner.
if a def is not in scope the checker will scream at you.
-}
public export
data Term : (_ : Index) -> Type where
@ -40,8 +43,11 @@ data Term : (_ : Index) -> Type where
TPi : Term n -> Term (S n) -> Term n -- Pi type (∏ _ : A . B _ )
TApp : Term n -> Term n -> Term n -- Appliction
TVar : Fin n -> Term n -- Variable
TDef : Int -> Term n -- Def Variable
infixl 3 `TApp`
public export
@ -76,6 +82,7 @@ Show (Term n) where
show (TApp f x) = "(" ++ show f ++ ") TApp (" ++ show x ++ ")"
show (TVar i) = "Var " ++ show i
show (TDef i) = "Def " ++ show i
public export
weakTr : Term n -> Term (S n)
@ -105,6 +112,7 @@ weakTr = go 0
go n (TVar i) = if weaken i < n
then TVar (weaken i)
else TVar (FS i)
go n (TDef i) = TDef i
public export
weakTr2 : Term n -> Term (2+n)

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@ -1,155 +0,0 @@
module Core.Tests
import Core.Term
import Core.Check
import Core.Convert
import Core.Misc
import Core.Normalize
import Core.Value
import Control.Monad.RWS
import Control.Monad.Identity
import Control.Monad.Either
import Data.Fin
%default total
{- λA. λx. x : ∏ (A : Type) → A → A -}
test_id : Either String (Bool, List String)
test_id = typecheck (TLam (TLam (TVar 0)))
(TPi TType (TPi (TVar 0) (TVar 1)))
{- λA. λB. λf. λx. f x : ∏ (A : Type) ∏ (B : A → Type) ∏ (f : ∏ (x : A) B x) ∏ (x : A) B x -}
test_app : Either String (Bool, List String)
test_app = typecheck (TLam (TLam (TLam (TLam (TVar 1 `TApp` TVar 0)))))
(TPi TType
(TPi (TPi (TVar 0) TType)
(TPi (TPi (TVar 1) (TVar 1 `TApp` TVar 0))
(TPi (TVar 2) (TVar 2 `TApp` TVar 0)))))
{- λf. λx. f x ≃ λf. λx. (λy. f y) x -}
eta_test : Either String (Bool, List String)
eta_test = resolve action
where
action : PI Bool
action = do
x <- eval ctx0 (TLam (TLam (TVar 1 `TApp` TVar 0)))
y <- eval ctx0 (TLam (TLam (TLam (TVar 2 `TApp` TVar 0) `TApp` TVar 0)))
convert x y
addition : Term 0
addition = TNatInd (TLam (TPi TNat TNat))
(TLam (TVar 0))
(TLam {-n-} (TLam {-n+-} (TLam {-m-} (TSuc (TVar 1 `TApp` TVar 0)))))
additionty : Term 0
additionty = TPi TNat (TPi TNat TNat)
additionty_test : Either String (Bool, List String)
additionty_test = typecheck additionty TType
addition_test : Either String (Bool, List String)
addition_test = typecheck addition additionty
{- 2 + 1 = 3 -}
addition_compute_test : Either String (Bool, List String)
addition_compute_test = resolve action
where
action : PI Bool
action = do
x <- eval ctx0 (addition `TApp` TSuc (TSuc TZero) `TApp` TSuc TZero)
y <- eval ctx0 (TSuc (TSuc (TSuc TZero)))
convert x y
multi : Term 0
multi = TNatInd (TLam (TPi TNat TNat))
(TLam TZero)
(TLam {-n-} (TLam {-n*-} (TLam {-m-} (weakTr3 addition `TApp` TVar 0 `TApp` (TVar 1 `TApp` TVar 0)))))
multity : Term 0
multity = TPi TNat (TPi TNat TNat)
multity_test : Either String (Bool, List String)
multity_test = typecheck multity TType
multi_test : Either String (Bool, List String)
multi_test = typecheck multi multity
{- 2 * 3 = 6 -}
multi_compute_test : Either String (Bool, List String)
multi_compute_test = resolve action
where
action : PI Bool
action = do
x <- eval ctx0 (multi `TApp` TSuc (TSuc TZero) `TApp` TSuc (TSuc (TSuc TZero)))
y <- eval ctx0 (TSuc (TSuc (TSuc (TSuc (TSuc (TSuc TZero))))))
convert x y
-- no, not that kind
unit_test : Either String (Bool, List String)
unit_test = typecheck TStar TTop
absurd_test : Either String (Bool, List String)
absurd_test = typecheck (TLam (TBotInd (TLam (TVar 1)))) (TPi TType (TPi TBot (TVar 1)))
pr1ty : Term 0
pr1ty = TPi TType {- A : Type -}
(TPi (TPi (TVar 0) TType) {- B : A → Type -}
(TPi (TSigma (TVar 1) (TVar 0)) {- Σ A B -}
(TVar 2)))
pr1 : Term 0
pr1 = TLam {- A : Type -}
(TLam {- B : A → Type -}
(TSigInd (TVar 1) (TVar 0) (TLam {-ΣAB-} (TVar 2)) (TLam (TLam (TVar 1)))))
pr1ty_test : Either String (Bool, List String)
pr1ty_test = typecheck pr1ty TType
pr1_test : Either String (Bool, List String)
pr1_test = typecheck pr1 pr1ty
pr2ty : Term 0
pr2ty = TPi TType {- A : Type -}
(TPi (TPi (TVar 0) TType) {- B : A → Type -}
(TPi (TSigma (TVar 1) (TVar 0)) {- Σ A B -}
(TVar 1 `TApp` (TSigInd (TVar 2) (TVar 1) (TLam (TVar 3)) (TLam (TLam (TVar 1))) `TApp` TVar 0))))
pr2 : Term 0
pr2 = TLam {- A : Type -}
(TLam {- B : A → Type -}
(TSigInd (TVar 1)
(TVar 0)
(TLam {-ΣAB-}
(TVar 1 `TApp` (TSigInd (TVar 2) (TVar 1) (TLam (TVar 3)) (TLam (TLam (TVar 1))) `TApp` TVar 0)))
(TLam (TLam (TVar 0)))))
pr2ty_test : Either String (Bool, List String)
pr2ty_test = typecheck pr2ty TType
pr2_test : Either String (Bool, List String)
pr2_test = typecheck pr2 pr2ty
pr2ty_let : Term 0
pr2ty_let = TLet pr1ty pr1 {- pr1 : pr1ty -}
(TPi TType {- A : Type -}
(TPi (TPi (TVar 0) TType) {- B : A → Type -}
(TPi (TSigma (TVar 1) (TVar 0)) {- Σ A B -}
(TVar 1 `TApp` (TVar 3 `TApp` TVar 2 `TApp` TVar 1 `TApp` TVar 0)))))
pr2_let : Term 0
pr2_let = TLet pr1ty pr1 {- pr1 : pr1ty -}
(TLam {- A : Type -}
(TLam {- B : A → Type -}
(TSigInd (TVar 1)
(TVar 0)
(TLam {-ΣAB-}
(TVar 1 `TApp` (TVar 3 `TApp` TVar 2 `TApp` TVar 1 `TApp` TVar 0)))
(TLam (TLam (TVar 0))))))
pr2ty_let_test : Either String (Bool, List String)
pr2ty_let_test = typecheck pr2ty_let TType
pr2_let_test : Either String (Bool, List String)
pr2_let_test = typecheck pr2_let pr2ty_let

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@ -2,22 +2,59 @@ module Main
import Core.Check
import Core.Term
import Core.Value
import Core.Normalize
import Core.Misc
import Parser.Parse
import Control.Monad.Either
import Data.Vect
import Data.String
import Data.IORef
import Data.IOArray
import System
import System.File
unwrap : {a : Type} -> Show a => Either a b -> IO b
unwrap {a = a} = \case
smartPrint : {a : Type} -> Show a => a -> IO ()
smartPrint {a = String} = putStrLn
smartPrint {a = _} = printLn
isTrue : String -> Bool -> IO ()
isTrue _ True = pure ()
isTrue str False = putStrLn str >> exitFailure
unwrapCC : {a : Type} -> Show a => IO b -> Either a b -> IO b
unwrapCC {a = a} iob = \case
Left e => do
case a of
String => putStrLn e
_ => printLn e
exitFailure
smartPrint e
iob
Right s => pure s
unwrap : {a : Type} -> Show a => Either a b -> IO b
unwrap = unwrapCC exitFailure
createNST : IO (Ref NST Nat)
createNST = do
nstIoRef <- newIORef 0
pure (MkRefP NST nstIoRef)
createDTX : (label : Type) -> Int -> IO (RefA label Value)
createDTX label n = do
arr <- newArray n
pure (MkRefP label arr)
typeCheck : {auto deftrs : RefA DTR Value}
-> {auto deftys : RefA DTY Value}
-> {auto frst : Ref NST Nat}
-> Int -> List (Term 0, Term 0) -> IO ()
typeCheck i [] = pure ()
typeCheck i ((ty, tr) :: defs) = do
vty <- unwrap =<< resolve (eval [] ty)
vtr <- unwrap =<< resolve (eval [] tr)
isTrue "putArr DTY" =<< putArr DTY i vty
isTrue "putArr DTR" =<< putArr DTR i vtr
typeCheck (i+1) defs
replRead : IO String
replRead = do
line <- getLine
@ -27,19 +64,40 @@ replRead = do
":exit" => exitSuccess
_ => pure line
repl : (n : Nat) -> Vect n String -> IO ()
repl n env = do
repl : {auto deftrs : RefA DTR Value}
-> {auto deftys : RefA DTY Value}
-> {auto frst : Ref NST Nat}
-> List String -> IO a
repl strs = do
line <- replRead
printLn =<< unwrap (parseEnv n env line)
repl n env
term <- unwrapCC (repl strs) (parseEnv strs line)
type <- unwrapCC (repl strs) =<< resolve (whnf =<< infer [] [] term)
val <- unwrapCC (repl strs) =<< resolve (whnf =<< eval [] term)
putStr "inferred type: "
printLn type
putStr "weak head normal form: "
printLn val
repl strs
main : IO ()
main = getArgs >>= \case
(_ :: x :: _) => do
putStr (x ++ ": ")
res <- readFile x >>= unwrap >>= unwrap . parsetoplevel
>>= unwrap . (`typecheck` TTop)
if fst res
then putStrLn ("Success !")
else unwrap (Left res)
_ => repl 0 []
(_ :: x :: xs) => do
putStrLn (x ++ ": ")
putStr "Parsing: "
(strs, res) <- readFile x >>= unwrap >>= unwrap . toplevel
putStrLn " OK!"
let rlen = cast (length res)
nst <- createNST
dtr <- createDTX DTR rlen
dty <- createDTX DTY rlen
putStr "Typechecking: "
typeCheck 0 res
putStrLn "OK!"
case xs of
("repl" :: _) => repl strs
_ => exitSuccess
_ => do
nst <- createNST
dtr <- createDTX DTR 0
dty <- createDTX DTY 0
repl []

View File

@ -211,40 +211,40 @@ lexPi str =
{- Basic idea, parsing has a list of the identifiers to convert to -}
{- de bruijn indecies, and a Nat to keep track of context size -}
mutual
expr : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
expr n env = tpi n env
<|> tsigma n env
<|> tarr n env
<|> (do
e <- expr1 n env
tapp n env e <|> pure e)
expr : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
expr defs n env = tpi defs n env
<|> tsigma defs n env
<|> tarr defs n env
<|> (do
e <- expr1 defs n env
tapp defs n env e <|> pure e)
expr1 : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
expr1 n env = ttopind n env
<|> tbotind n env
<|> tsuc n env
<|> tnatind n env
<|> tsigind n env
<|> tid n env
<|> trefl n env
<|> tj n env
<|> (do
t <- term n env
tapp n env t <|> pure t)
expr1 : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
expr1 defs n env = ttopind defs n env
<|> tbotind defs n env
<|> tsuc defs n env
<|> tnatind defs n env
<|> tsigind defs n env
<|> tid defs n env
<|> trefl defs n env
<|> tj defs n env
<|> (do
t <- term defs n env
tapp defs n env t <|> pure t)
term : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
term n env = ttype
<|> ttop
<|> tstar
<|> tbot
<|> tnat
<|> tnum
<|> tpair n env
<|> tlet n env
<|> tlam n env
<|> tvar n env
<|> paren n env
term : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
term defs n env = ttype
<|> ttop
<|> tstar
<|> tbot
<|> tnat
<|> tnum
<|> tpair defs n env
<|> tlet defs n env
<|> tlam defs n env
<|> tvar defs n env
<|> paren defs n env
ttype : Grammar () PiToken True (Term n)
ttype = match PTType >> pure TType
@ -255,22 +255,22 @@ mutual
tstar : Grammar () PiToken True (Term n)
tstar = match PTStar >> pure TStar
ttopind : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
ttopind n env = do
ttopind : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
ttopind defs n env = do
match PTTopInd
commit
c <- term n env
st <- term n env
c <- term defs n env
st <- term defs n env
pure (TTopInd c st)
tbot : Grammar () PiToken True (Term n)
tbot = match PTBot >> pure TBot
tbotind : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tbotind n env = do
tbotind : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tbotind defs n env = do
match PTBotInd
commit
c <- term n env
c <- term defs n env
pure (TBotInd c)
tnat : Grammar () PiToken True (Term n)
@ -285,162 +285,161 @@ mutual
conv 0 = TZero
conv (S n) = TSuc (conv n)
tsuc : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsuc n env = do
tsuc : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsuc defs n env = do
match PTSuc
commit
TSuc <$> term n env
TSuc <$> term defs n env
tnatind : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tnatind n env = do
tnatind : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tnatind defs n env = do
match PTNatInd
commit
c <- term n env
z <- term n env
s <- term n env
c <- term defs n env
z <- term defs n env
s <- term defs n env
pure (TNatInd c z s)
tsigma : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsigma n env = do
tsigma : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsigma defs n env = do
match PTSigma
commit
match PTLParen
arg <- match PTIdentifier
match PTColon
a <- expr n env
a <- expr defs n env
match PTRParen
b <- expr (S n) (arg :: env)
b <- expr defs (S n) (arg :: env)
pure (TSigma a (TLam b))
tpair : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tpair n env = do
tpair : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tpair defs n env = do
match PTLParen
x <- expr n env
x <- expr defs n env
match PTComma
commit
y <- expr n env
y <- expr defs n env
match PTRParen
pure (TPair x y)
tsigind : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsigind n env = do
tsigind : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tsigind defs n env = do
match PTSigInd
commit
a <- term n env
b <- term n env
c <- term n env
f <- term n env
a <- term defs n env
b <- term defs n env
c <- term defs n env
f <- term defs n env
pure (TSigInd a b c f)
tid : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tid n env = do
tid : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tid defs n env = do
match PTId
commit
ty <- term n env
a <- term n env
b <- term n env
ty <- term defs n env
a <- term defs n env
b <- term defs n env
pure (TId ty a b)
trefl : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
trefl n env = do
trefl : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
trefl defs n env = do
match PTRefl
commit
ty <- term n env
tr <- term n env
ty <- term defs n env
tr <- term defs n env
pure (TRefl ty tr)
tj : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tj n env = do
tj : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tj defs n env = do
match PTJ
commit
ty <- term n env
a <- term n env
b <- term n env
c <- term n env
d <- term n env
ty <- term defs n env
a <- term defs n env
b <- term defs n env
c <- term defs n env
d <- term defs n env
pure (TJ ty a b c d)
tlet : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tlet n env = do
tlet : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tlet defs n env = do
match PTLet
commit
arg <- match PTIdentifier
match PTColon
ty <- expr n env
ty <- expr defs n env
match PTDefEq
tr <- expr n env
tr <- expr defs n env
match PTIn
tri <- expr (S n) (arg :: env)
tri <- expr defs (S n) (arg :: env)
pure (TLet ty tr tri)
tlam : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tlam n env = do
tlam : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tlam defs n env = do
match PTLambda
commit
arg <- match PTIdentifier
match PTDot
e <- expr (S n) (arg :: env)
e <- expr defs (S n) (arg :: env)
pure (TLam e)
tpi : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tpi n env = do
tpi : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tpi defs n env = do
match PTPi
commit
match PTLParen
arg <- match PTIdentifier
match PTColon
a <- expr n env
a <- expr defs n env
match PTRParen
b <- expr (S n) (arg :: env)
b <- expr defs (S n) (arg :: env)
pure (TPi a b)
tarr : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tarr n env = do
l <- expr1 n env
tarr : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tarr defs n env = do
l <- expr1 defs n env
match PTArrow
commit
r <- expr (S n) ("" :: env)
r <- expr defs (S n) ("" :: env)
pure (TPi l r)
tapp : (n : Nat) -> Vect n String -> Term n -> Grammar () PiToken True (Term n)
tapp n env e1 = do
e2 <- term n env
tapp1 n env (TApp e1 e2)
tapp : List String -> (n : Nat) -> Vect n String -> Term n -> Grammar () PiToken True (Term n)
tapp defs n env e1 = do
e2 <- term defs n env
tapp1 defs n env (TApp e1 e2)
tapp1 : (n : Nat) -> Vect n String -> Term n -> Grammar () PiToken False (Term n)
tapp1 n env e = tapp n env e <|> pure e
tapp1 : List String -> (n : Nat) -> Vect n String -> Term n -> Grammar () PiToken False (Term n)
tapp1 defs n env e = tapp defs n env e <|> pure e
tvar : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tvar n env = do
tvar : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
tvar defs n env = do
str <- match PTIdentifier
commit
fromMaybe (fail ("'" ++ str ++ "' not in env")) (pure . TVar <$> findIndex (== str) env)
fromMaybe (fromMaybe (fail ("'" ++ str ++ "' not idefs n env"))
(pure . TDef . cast . finToInteger <$> findIndex (== str) defs))
(pure . TVar <$> findIndex (== str) env)
paren : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
paren n env = do
paren : List String -> (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
paren defs n env = do
match PTLParen
commit
e <- expr n env
e <- expr defs n env
match PTRParen
pure e
definitions : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n)
definitions n env = do
definitions : List String -> Grammar () PiToken True (List String, List (Term 0, Term 0))
definitions defs = do
match PTLet
commit
arg <- match PTIdentifier
match PTColon
ty <- expr n env
ty <- expr defs 0 []
match PTDefEq
tr <- expr n env
next <- definitions (S n) (arg :: env) <|> pure TStar
pure (TLet ty tr next)
tr <- expr defs 0 []
next <- definitions (arg :: defs) <|> pure ([], [])
pure (arg :: fst next, (ty, tr) :: snd next)
toplevel : Grammar () PiToken True (Term 0)
toplevel = definitions 0 []
parsePi : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n) -> List (WithBounds PiToken) -> Either String (Term n)
parsePi n env parseEntry toks =
parsePi : List String -> Grammar () PiToken True a -> List (WithBounds PiToken) -> Either String a
parsePi defs parseEntry toks =
case parse parseEntry $ filter (not . ignored) toks of
Right (l, []) => Right l
Right (_, l) => Left ("contains tokens that were not consumed: " ++ show l)
@ -452,20 +451,20 @@ parsePi n env parseEntry toks =
public export
parse : (n : Nat) -> Vect n String -> Grammar () PiToken True (Term n) -> String -> Either String (Term n)
parse n env parseEntry x =
parse : List String -> Grammar () PiToken True a -> String -> Either String a
parse defs parseEntry x =
case lexPi x of
Just toks => parsePi n env parseEntry toks
Just toks => parsePi defs parseEntry toks
Nothing => Left "Failed to lex."
public export
parse0 : String -> Either String (Term 0)
parse0 = parse 0 [] (expr 0 [])
parse0 = parse [] (expr [] 0 [])
public export
parseEnv : (n : Nat) -> Vect n String -> String -> Either String (Term n)
parseEnv n env = parse n env (expr n env)
parseEnv : List String -> String -> Either String (Term 0)
parseEnv defs = parse defs (expr defs 0 [])
public export
parsetoplevel : String -> Either String (Term 0)
parsetoplevel = parse 0 [] (toplevel)
toplevel : String -> Either String (List String, List (Term 0, Term 0))
toplevel = parse [] (definitions [])

View File

@ -1,89 +0,0 @@
module Parser.Tests
import Core.Term
import Core.Check
import Core.Convert
import Core.Misc
import Core.Normalize
import Core.Value
import Control.Monad.RWS
import Control.Monad.Identity
import Control.Monad.Either
import Data.Fin
import Parser.Parse
%default total
convCheck : Term 0 -> Term 0 -> Either String (Bool, List String)
convCheck a b = resolve action
where
action : PI Bool
action = do
x <- eval ctx0 a
y <- eval ctx0 b
convert x y
{- λA. λx. x : ∏ (A : Type) → A → A -}
test_id : Either String (Bool, List String)
test_id = do
ty <- parse0 "Π ( A : Type ) A → A"
tr <- parse0 "λA.λx.x"
typecheck tr ty
{- λA. λB. λf. λx. f x : ∏ (A : Type) ∏ (B : A → Type) ∏ (f : ∏ (x : A) B x) ∏ (x : A) B x -}
test_app : Either String (Bool, List String)
test_app = do
ty <- parse0 "Π (A : Type) Π (B : A → Type) Π (f : Π (x : A) B x) Π (x : A) B x"
tr <- parse0 "λA. λB. λf. λx. f x"
typecheck tr ty
{- λf. f ≃ λf. λx. f x -}
eta_test : Either String (Bool, List String)
eta_test = do
a <- parse0 "λf. f"
b <- parse0 "λf. λx. f x"
convCheck a b
additionty_test : Either String (Bool, List String)
additionty_test = do
ty <- parse0 " → ℕ"
typecheck ty TType
addition_test : Either String (Bool, List String)
addition_test = do
ty <- parse0 " → ℕ"
tr <- parse0 "-ind (λ_. ) (λx.x) (λn.λnp.λm. suc (np m))"
typecheck tr ty
-- no, not that kind
unit_test : Either String (Bool, List String)
unit_test = do
ty <- parse0 ""
tr <- parse0 ""
typecheck tr ty
absurd_test : Either String (Bool, List String)
absurd_test = do
ty <- parse0 "Π(A : Type) ⊥ → A"
tr <- parse0 "λA. ⊥-ind (λ_. A)"
typecheck tr ty
pr1_test : Either String (Bool, List String)
pr1_test = do
tr <- parse0 $ "let pr1 : Π (A : Type) Π (B : A → Type) (Σ (a : A) B a) → A"
++ "≔ λA.λB. Σ-ind A B (λ_. A) (λa.λBa. a)"
++ "in ★"
typecheck tr TTop
pr1_pr2_test : Either String (Bool, List String)
pr1_pr2_test = do
tr <- parse0 $ "let pr1 : Π (A : Type) Π (B : A → Type) (Σ (a : A) B a) → A"
++ "≔ λA.λB. Σ-ind A B (λ_. A) (λa.λBa. a)"
++ "in let pr2 : Π (A : Type) Π (B : A → Type) Π (s : Σ (a : A) B a) B (pr1 A B s)"
++ "≔ λA.λB. Σ-ind A B (λs. B (pr1 A B s)) (λa.λBa. Ba)"
++ "in ★"
typecheck tr TTop

3
tests/id1.pi Normal file
View File

@ -0,0 +1,3 @@
let transport : Π (A : Type) Π (f : A → Type) Π (x : A) Π (y : A)
Id A x y → f x → f y
≔ λA.λf.λx.λy. J A x y (λa.λb.λ_. f a → f b) (λa.a)

3
tests/id2.pi Normal file
View File

@ -0,0 +1,3 @@
let ap : Π (A : Type) Π (B : Type) Π (f : A → B)
Π (x : A) Π (y : A) Id A x y → Id B (f x) (f y)
≔ λA.λB.λf.λx.λy. J A x y (λa.λb.λ_. Id B (f a) (f b)) (refl B (f x))