Fix stray skolem issue
Sometimes a Bound variable on the LHS became Defined to itself. This commit also resurfaces INFO messages, to aid finding the root cause of errors.
This commit is contained in:
@@ -283,7 +283,7 @@ addConstraint env ix sp tm = do
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let (CheckAll) = mc.mcmode | _ => pure MkUnit
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updateMeta ix $ \case
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(Unsolved pos k a b c cons) => do
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debug $ \ _ => "Add constraint m\{show ix} \{show sp} =?= \{show tm}"
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debug $ \ _ => "Add constraint \{show ix} \{show sp} =?= \{show tm}"
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pure (Unsolved pos k a b c (MkMc (getFC tm) env sp tm :: cons))
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(Solved fc k tm) => error fc "Meta \{show k} already solved [addConstraint]"
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(OutOfScope) => error' "Meta \{show ix} out of scope"
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@@ -391,7 +391,7 @@ solve env m sp t = do
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| _ => do
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let l = length' env
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debug $ \ _ => "meta \{show m} (\{show ix}) applied to \{show $ snoclen sp} args instead of \{show size}"
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debug $ \ _ => "CONSTRAINT m\{show ix} \{show sp} =?= \{show t}"
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debug $ \ _ => "CONSTRAINT \{show ix} \{show sp} =?= \{show t}"
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addConstraint env m sp t
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let l = length' env
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debug $ \ _ => "meta \{show meta}"
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@@ -435,12 +435,10 @@ solve env m sp t = do
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(\case
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Postpone fc ix msg => do
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-- let someone else solve this and then check again.
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debug $ \ _ => "CONSTRAINT2 m\{show ix} \{show sp} =?= \{show t}"
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debug $ \ _ => "CONSTRAINT2 \{show ix} \{show sp} =?= \{show t}"
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addConstraint env m sp t
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-- I get legit errors after stuffing in solution
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-- report for now, tests aren't hitting this branch
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err => throwError err
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-- debug $ \ _ => "CONSTRAINT3 m\{show ix} \{show sp} =?= \{show t}"
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E fc msg => throwError (E fc "\{msg} for \{show ix} \{show sp} =?= \{show t}")
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-- debug $ \ _ => "CONSTRAINT3 \{show ix} \{show sp} =?= \{show t}"
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-- debug $ \ _ => "because \{showError "" err}"
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-- addConstraint env m sp t
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)
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@@ -628,7 +626,7 @@ freshMeta ctx fc ty kind = do
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debug $ \ _ => "fresh meta \{show mc.next} : \{show ty} (\{show kind})"
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-- need the ns here
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-- we were fudging this for v1
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let qn = QN top.ns "$m\{show mc.next}"
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let qn = QN top.ns "\{show mc.next}"
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let newmeta = Unsolved fc qn ctx ty kind Nil
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let autos = case kind of
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AutoSolve => qn :: mc.autos
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@@ -775,6 +773,9 @@ substVal k v tm = go tm
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updateContext : Context -> List (Int × Val) -> M Context
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updateContext ctx Nil = pure ctx
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updateContext ctx ((k, val) :: cs) =
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-- We were turning Bound into Defined
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if isSelf k val then updateContext ctx cs
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else
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let ix = cast $ lvl2ix (length' ctx.env) k in
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case getAt ix ctx.env of
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(Just (VVar _ k' Lin)) =>
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@@ -789,6 +790,10 @@ updateContext ctx ((k, val) :: cs) =
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updateContext ctx cs
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Nothing => error (getFC val) "INTERNAL ERROR: bad index in updateContext"
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where
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isSelf : Int → Val → Bool
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isSelf ix (VVar _ k Lin) = ix == k
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isSelf ix _ = False
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replaceV : ∀ a. Nat -> a -> List a -> List a
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replaceV k x Nil = Nil
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replaceV Z x (y :: xs) = x :: xs
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@@ -179,9 +179,9 @@ processModule importFC base stk qn@(QN ns nm) = do
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let modules = updateMap modns mod top.modules
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modifyTop [modules := modules]
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logMetas $ reverse $ listValues top.metaCtx.metas
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let (Nil) = top.errors
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| errors => exitFailure "Compile failed"
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logMetas $ reverse $ listValues top.metaCtx.metas
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pure src
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where
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tryProcessDecl : String -> List String → Decl -> M Unit
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1
tests/Data
Symbolic link
1
tests/Data
Symbolic link
@@ -0,0 +1 @@
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../src/Data
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@@ -1 +0,0 @@
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../../src/Data/SortedMap.newt
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75
tests/WellTyped.newt
Normal file
75
tests/WellTyped.newt
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@@ -0,0 +1,75 @@
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module WellTyped
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-- Idris2's "Well Typed Interpreter" example
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-- This is a little painful for lack of overloading.
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-- I can add idris/haskell style sections.
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-- This is revealing some issues. :/
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-- I had to put {0 ctxt : Vect n Ty} → in manually, the `∀ ctxt` wasn't inferring the type.
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-- This may be because we have `n`, which becomes a parameter when do it manually.
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-- That would explain why Idris adds those...
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-- This also revealed an issue in case tree building where a bound name was accidentally made into a defined one.
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import Prelude
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import Data.Vect
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import Data.Fin
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data Ty = TyInt | TyBool | TyFun Ty Ty
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interpTy : Ty → U
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interpTy TyInt = Int
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interpTy TyBool = Bool
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interpTy (TyFun x y) = interpTy x → interpTy y
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data HasType : ∀ n. (i : Fin n) → Vect n Ty → Ty → U where
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Stop : ∀ t n. {0 ctxt : Vect n Ty} → HasType FZ (t :- ctxt) t
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Pop : ∀ n t u. {0 ctxt : Vect n Ty} {0 k : Fin n} → HasType k ctxt t → HasType (FS k) (u :- ctxt) t
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data Expr : ∀ n. Vect n Ty → Ty → U where
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Var : ∀ t n. {0 ctxt : Vect n Ty} {0 i : Fin n} → HasType i ctxt t → Expr ctxt t
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Val : ∀ n. {0 ctxt : Vect n Ty} → (x : Int) → Expr ctxt TyInt
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Lam : ∀ a n t. {0 ctxt : Vect n Ty} → Expr (a :- ctxt) t → Expr ctxt (TyFun a t)
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App : ∀ n a t. {0 ctxt : Vect n Ty} → Expr ctxt (TyFun a t) → Expr ctxt a → Expr ctxt t
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Op : ∀ a b c n. {0 ctxt : Vect n Ty} → (interpTy a → interpTy b → interpTy c) →
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Expr ctxt a → Expr ctxt b → Expr ctxt c
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-- TODO Idris has Lazy on the arms, should work if we explicitly force
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If : ∀ n a. {0 ctxt : Vect n Ty} → Expr ctxt TyBool →
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(Expr ctxt a) →
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(Expr ctxt a) → Expr ctxt a
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infixr 4 _:::_
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data Env : ∀ n. Vect n Ty → U where
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Empty : Env VNil
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_:::_ : ∀ a n. {0 ctxt : Vect n Ty} → interpTy a → Env ctxt → Env (a :- ctxt)
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lookup : ∀ n t. {0 ctxt : Vect n Ty} {0 i : Fin n} → HasType i ctxt t → Env ctxt → interpTy t
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lookup Stop (x ::: xs) = x
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lookup () Empty
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lookup (Pop k) (x ::: xs) = lookup k xs
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interp : ∀ n t. {0 ctxt : Vect n Ty} → Env ctxt → Expr ctxt t → interpTy t
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interp env (Var i) = lookup i env
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interp env (Val x) = x
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interp env (Lam x) = \y => interp (y ::: env) x
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interp env (App x y) = interp env x $ interp env y
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interp env (Op f x y) = f (interp env x) (interp env y)
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interp env (If x y z) = if interp env x then interp env y
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else interp env z
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add : ∀ n. {0 ctxt : Vect n Ty} → Expr ctxt (TyFun TyInt (TyFun TyInt TyInt))
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add = Lam (Lam (Op _+_ (Var Stop) (Var (Pop Stop))))
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fact : ∀ n. {0 ctxt : Vect n Ty} → Expr ctxt (TyFun TyInt TyInt)
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-- TODO the `Bool =?= interpTy ...` is stuck on ?m14
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-- I think we may need to need to delay the constraint until m14 is solved?
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-- But I think I have code to do that already
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fact = Lam (If (Op {_} {_} {TyBool} _==_ (Var Stop) (Val 0))
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(Val 1)
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(Op _*_ (App fact (Op _-_ (Var Stop) (Val 1)))
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(Var Stop)))
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-- main : IO Unit
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-- main = do putStr "Enter a number: "
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-- Right x <- readLine | _ => putStrLn "EOF"
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-- printLn (interp Empty fact (stringToInt x))
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