569 lines
19 KiB
Idris
569 lines
19 KiB
Idris
module Quox.Untyped.Erase
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import Quox.Definition as Q
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import Quox.Pretty
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import Quox.Syntax.Term.Base as Q
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import Quox.Syntax.Term.Subst
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import Quox.Typing
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import Quox.Untyped.Syntax as U
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import Quox.Whnf
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import Quox.EffExtra
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import Data.List1
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import Data.Singleton
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import Data.SnocVect
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import Language.Reflection
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%default total
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%language ElabReflection
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%hide TT.Name
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%hide AppView.(.head)
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public export
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data IsErased = Erased | Kept
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public export
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isErased : Qty -> IsErased
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isErased Zero = Erased
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isErased One = Kept
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isErased Any = Kept
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public export
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ErasureContext : Nat -> Nat -> Type
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ErasureContext = TyContext
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public export
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TypeError : Type
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TypeError = Typing.Error.Error
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%hide Typing.Error.Error
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public export
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data Error =
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CompileTimeOnly (ErasureContext d n) (Q.Term d n)
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| WrapTypeError TypeError
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| Postulate Loc Name
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| WhileErasing Name Q.Definition Error
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| MainIsErased Loc Name
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%name Error err
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private %inline
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notInScope : Loc -> Name -> Error
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notInScope = WrapTypeError .: NotInScope
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export
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Located Error where
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(CompileTimeOnly _ s).loc = s.loc
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(WrapTypeError err).loc = err.loc
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(Postulate loc _).loc = loc
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(WhileErasing _ def e).loc = e.loc `or` def.loc
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(MainIsErased loc _).loc = loc
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parameters {opts : LayoutOpts} (showContext : Bool)
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export
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prettyErrorNoLoc : Error -> Eff Pretty (Doc opts)
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prettyErrorNoLoc (CompileTimeOnly ctx s) =
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inTContext showContext ctx $
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sep ["the term", !(prettyTerm ctx.dnames ctx.tnames s),
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"only exists at compile time"]
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prettyErrorNoLoc (WrapTypeError err) =
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prettyErrorNoLoc showContext err
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prettyErrorNoLoc (Postulate _ x) =
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pure $ sep [!(prettyFree x), "is a postulate with no definition"]
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prettyErrorNoLoc (WhileErasing x def err) = pure $
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vsep [hsep ["while erasing the definition", !(prettyFree x)],
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!(prettyErrorNoLoc err)]
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prettyErrorNoLoc (MainIsErased _ x) =
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pure $ hsep [!(prettyFree x), "is marked #[main] but is erased"]
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export
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prettyError : Error -> Eff Pretty (Doc opts)
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prettyError err = sep <$> sequence
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[prettyLoc err.loc, indentD =<< prettyErrorNoLoc err]
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public export
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Erase : List (Type -> Type)
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Erase = [Except Error, NameGen]
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export
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liftWhnf : Eff Whnf a -> Eff Erase a
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liftWhnf act = lift $ wrapErr WrapTypeError act
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export covering
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computeElimType : Q.Definitions -> ErasureContext d n -> SQty ->
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Elim d n -> Eff Erase (Term d n)
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computeElimType defs ctx sg e = do
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let ctx = toWhnfContext ctx
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liftWhnf $ do
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Element e _ <- whnf defs ctx sg e
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computeElimType defs ctx sg e
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private %macro
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wrapExpect : TTImp ->
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Elab (Q.Definitions -> TyContext d n -> Loc ->
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Term d n -> Eff Erase a)
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wrapExpect f_ = do
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f <- check `(\x => ~(f_) x)
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pure $ \defs, ctx, loc, s => liftWhnf $ f defs ctx SZero loc s
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public export
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record EraseElimResult d n where
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constructor EraRes
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type : Lazy (Q.Term d n)
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term : U.Term n
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export covering
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eraseTerm' : (defs : Q.Definitions) -> (ctx : ErasureContext d n) ->
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(ty, tm : Q.Term d n) ->
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(0 _ : NotRedex defs (toWhnfContext ctx) SZero ty) =>
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Eff Erase (U.Term n)
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-- "Ψ | Γ | Σ ⊢ s ⤋ s' ⇐ A" for `s' <- eraseTerm (Ψ,Γ,Σ) A s`
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--
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-- in the below comments, Ψ, Γ, Σ are implicit and
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-- only their extensions are written
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export covering
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eraseTerm : Q.Definitions -> ErasureContext d n ->
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(ty, tm : Q.Term d n) -> Eff Erase (U.Term n)
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eraseTerm defs ctx ty tm = do
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Element ty _ <- liftWhnf $ Interface.whnf defs (toWhnfContext ctx) SZero ty
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eraseTerm' defs ctx ty tm
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-- "Ψ | Γ | Σ ⊢ e ⤋ e' ⇒ A" for `EraRes A e' <- eraseElim (Ψ,Γ,Σ) e`
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export covering
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eraseElim : Q.Definitions -> ErasureContext d n -> (tm : Q.Elim d n) ->
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Eff Erase (EraseElimResult d n)
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eraseTerm' defs ctx _ s@(TYPE {}) =
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throw $ CompileTimeOnly ctx s
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eraseTerm' defs ctx _ s@(IOState {}) =
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throw $ CompileTimeOnly ctx s
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eraseTerm' defs ctx _ s@(Pi {}) =
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throw $ CompileTimeOnly ctx s
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-- x : A | 0.x ⊢ s ⤋ s' ⇐ B
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-- -------------------------------------
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-- (λ x ⇒ s) ⤋ s'[⌷/x] ⇐ 0.(x : A) → B
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--
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-- x : A | π.x ⊢ s ⤋ s' ⇐ B π ≠ 0
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-- ----------------------------------------
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-- (λ x ⇒ s) ⤋ (λ x ⇒ s') ⇐ π.(x : A) → B
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eraseTerm' defs ctx ty (Lam body loc) = do
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let x = body.name
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(qty, arg, res) <- wrapExpect `(expectPi) defs ctx loc ty
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body <- eraseTerm defs (extendTy qty x arg ctx) res.term body.term
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pure $ case isErased qty of
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Kept => U.Lam x body loc
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Erased => sub1 (Erased loc) body
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eraseTerm' defs ctx _ s@(Sig {}) =
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throw $ CompileTimeOnly ctx s
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-- s ⤋ s' ⇐ A t ⤋ t' ⇐ B[s/x]
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-- ---------------------------------
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-- (s, t) ⤋ (s', t') ⇐ (x : A) × B
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eraseTerm' defs ctx ty (Pair fst snd loc) = do
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(a, b) <- wrapExpect `(expectSig) defs ctx loc ty
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let b = sub1 b (Ann fst a a.loc)
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fst <- eraseTerm defs ctx a fst
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snd <- eraseTerm defs ctx b snd
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pure $ Pair fst snd loc
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eraseTerm' defs ctx _ s@(Enum {}) =
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throw $ CompileTimeOnly ctx s
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-- '𝐚 ⤋ '𝐚 ⇐ {⋯}
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eraseTerm' defs ctx _ (Tag tag loc) =
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pure $ Tag tag loc
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eraseTerm' defs ctx ty s@(Eq {}) =
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throw $ CompileTimeOnly ctx s
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-- 𝑖 ⊢ s ⤋ s' ⇐ A
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-- ---------------------------------
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-- (δ 𝑖 ⇒ s) ⤋ s' ⇐ Eq (𝑖 ⇒ A) l r
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eraseTerm' defs ctx ty (DLam body loc) = do
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a <- fst <$> wrapExpect `(expectEq) defs ctx loc ty
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eraseTerm defs (extendDim body.name ctx) a.term body.term
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eraseTerm' defs ctx _ s@(NAT {}) =
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throw $ CompileTimeOnly ctx s
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-- n ⤋ n ⇐ ℕ
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eraseTerm' _ _ _ (Nat n loc) =
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pure $ Nat n loc
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-- s ⤋ s' ⇐ ℕ
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-- -----------------------
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-- succ s ⤋ succ s' ⇐ ℕ
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eraseTerm' defs ctx ty (Succ p loc) = do
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p <- eraseTerm defs ctx ty p
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pure $ Succ p loc
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eraseTerm' defs ctx ty s@(STRING {}) =
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throw $ CompileTimeOnly ctx s
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-- s ⤋ s ⇐ String
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eraseTerm' _ _ _ (Str s loc) =
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pure $ Str s loc
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eraseTerm' defs ctx ty s@(BOX {}) =
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throw $ CompileTimeOnly ctx s
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-- [s] ⤋ ⌷ ⇐ [0.A]
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--
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-- π ≠ 0 s ⤋ s' ⇐ A
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-- --------------------
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-- [s] ⤋ s' ⇐ [π.A]
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eraseTerm' defs ctx ty (Box val loc) = do
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(qty, a) <- wrapExpect `(expectBOX) defs ctx loc ty
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case isErased qty of
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Erased => pure $ Erased loc
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Kept => eraseTerm defs ctx a val
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-- s ⤋ s' ⇐ A
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-- ---------------------------------
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-- let0 x = e in s ⤋ s'[⌷/x] ⇐ A
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--
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-- e ⤋ e' ⇒ E π ≠ 0
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-- x : E ≔ e ⊢ s ⤋ s' ⇐ A
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-- -------------------------------------
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-- letπ x = e in s ⤋ let x = e' in s'
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eraseTerm' defs ctx ty (Let pi e s loc) = do
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let x = s.name
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case isErased pi of
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Erased => do
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ety <- computeElimType defs ctx SZero e
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s' <- eraseTerm defs (extendTyLet pi x ety (E e) ctx) (weakT 1 ty) s.term
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pure $ sub1 (Erased e.loc) s'
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Kept => do
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EraRes ety e' <- eraseElim defs ctx e
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s' <- eraseTerm defs (extendTyLet pi x ety (E e) ctx) (weakT 1 ty) s.term
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pure $ Let True x e' s' loc
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-- e ⤋ e' ⇒ B
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-- ------------
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-- e ⤋ e' ⇐ A
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eraseTerm' defs ctx ty (E e) =
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term <$> eraseElim defs ctx e
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eraseTerm' defs ctx ty (CloT (Sub term th)) =
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eraseTerm defs ctx ty $ pushSubstsWith' id th term
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eraseTerm' defs ctx ty (DCloT (Sub term th)) =
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eraseTerm defs ctx ty $ pushSubstsWith' th id term
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-- defω x : A = s
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-- ----------------
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-- x ⤋ x ⇒ A
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eraseElim defs ctx e@(F x u loc) = do
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let Just def = lookup x defs
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| Nothing => throw $ notInScope loc x
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case isErased def.qty.qty of
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Erased => throw $ CompileTimeOnly ctx $ E e
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Kept => pure $ EraRes (def.typeWith ctx.dimLen ctx.termLen) $ F x loc
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-- π.x ∈ Σ π ≠ 0
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-- -----------------
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-- x ⤋ x ⇒ A
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eraseElim defs ctx e@(B i loc) = do
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case isErased $ ctx.qtys !!! i of
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Erased => throw $ CompileTimeOnly ctx $ E e
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Kept => pure $ EraRes (ctx.tctx !! i).type $ B i loc
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-- f ⤋ f' ⇒ π.(x : A) → B s ⤋ s' ⇒ A π ≠ 0
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-- ---------------------------------------------
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-- f s ⤋ f' s' ⇒ B[s/x]
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--
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-- f ⤋ f' ⇒ 0.(x : A) → B
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-- -------------------------
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-- f s ⤋ f' ⇒ B[s/x]
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eraseElim defs ctx (App fun arg loc) = do
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efun <- eraseElim defs ctx fun
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(qty, targ, tres) <- wrapExpect `(expectPi) defs ctx loc efun.type
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let ty = sub1 tres (Ann arg targ arg.loc)
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case isErased qty of
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Erased => pure $ EraRes ty efun.term
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Kept => do arg <- eraseTerm defs ctx targ arg
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pure $ EraRes ty $ App efun.term arg loc
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-- e ⇒ (x : A) × B
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-- x : A, y : B | ρ.x, ρ.y ⊢ s ⤋ s' ⇐ R[((x,y) ∷ (x : A) × B)/z]
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-- -------------------------------------------------------------------
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-- (case0 e return z ⇒ R of {(x, y) ⇒ s}) ⤋ s'[⌷/x, ⌷/y] ⇒ R[e/z]
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--
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-- e ⤋ e' ⇒ (x : A) × B ρ ≠ 0
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-- x : A, y : B | ρ.x, ρ.y ⊢ s ⤋ s' ⇐ R[((x,y) ∷ (x : A) × B)/z]
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-- ----------------------------------------------------------------------------
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-- (caseρ e return z ⇒ R of {(x, y) ⇒ s}) ⤋
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-- ⤋
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-- let xy = e' in let x = fst xy in let y = snd xy in s' ⇒ R[e/z]
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eraseElim defs ctx (CasePair qty pair ret body loc) = do
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let [< x, y] = body.names
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case isErased qty of
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Kept => do
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EraRes ety eterm <- eraseElim defs ctx pair
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let ty = sub1 (ret // shift 2) $
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Ann (Pair (BVT 0 loc) (BVT 1 loc) loc) (weakT 2 ety) loc
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(tfst, tsnd) <- wrapExpect `(expectSig) defs ctx loc ety
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let ctx' = extendTyN [< (qty, x, tfst), (qty, y, tsnd.term)] ctx
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body' <- eraseTerm defs ctx' ty body.term
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p <- mnb "p" loc
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pure $ EraRes (sub1 ret pair) $
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Let False p eterm
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(Let False x (Fst (B VZ loc) loc)
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(Let False y (Snd (B (VS VZ) loc) loc)
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(body' // (B VZ loc ::: B (VS VZ) loc ::: shift 3))
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loc) loc) loc
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Erased => do
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ety <- computeElimType defs ctx SOne pair
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let ty = sub1 (ret // shift 2) $
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Ann (Pair (BVT 0 loc) (BVT 1 loc) loc) (weakT 2 ety) loc
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(tfst, tsnd) <- wrapExpect `(expectSig) defs ctx loc ety
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let ctx' = extendTyN0 [< (x, tfst), (y, tsnd.term)] ctx
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body' <- eraseTerm defs ctx' ty body.term
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pure $ EraRes (sub1 ret pair) $ subN [< Erased loc, Erased loc] body'
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-- e ⤋ e' ⇒ (x : A) × B
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-- ----------------------
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-- fst e ⤋ fst e' ⇒ A
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eraseElim defs ctx (Fst pair loc) = do
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epair <- eraseElim defs ctx pair
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a <- fst <$> wrapExpect `(expectSig) defs ctx loc epair.type
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pure $ EraRes a $ Fst epair.term loc
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-- e ⤋ e' ⇒ (x : A) × B
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-- -----------------------------
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-- snd e ⤋ snd e' ⇒ B[fst e/x]
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eraseElim defs ctx (Snd pair loc) = do
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epair <- eraseElim defs ctx pair
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b <- snd <$> wrapExpect `(expectSig) defs ctx loc epair.type
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pure $ EraRes (sub1 b (Fst pair loc)) $ Snd epair.term loc
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-- caseρ e return z ⇒ R of {} ⤋ absurd ⇒ R[e/z]
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--
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-- s ⤋ s' ⇐ R[𝐚∷{𝐚}/z]
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-- -----------------------------------------------
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-- case0 e return z ⇒ R of {𝐚 ⇒ s} ⤋ s' ⇒ R[e/z]
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--
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-- e ⤋ e' ⇒ A sᵢ ⤋ s'ᵢ ⇐ R[𝐚ᵢ/z] ρ ≠ 0 i ≠ 0
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-- -------------------------------------------------------------------
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-- caseρ e return z ⇒ R of {𝐚ᵢ ⇒ sᵢ} ⤋ case e of {𝐚ᵢ ⇒ s'ᵢ} ⇒ R[e/z]
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eraseElim defs ctx e@(CaseEnum qty tag ret arms loc) = do
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let ty = sub1 ret tag
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case isErased qty of
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Erased => case SortedMap.toList arms of
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[] => pure $ EraRes ty $ Absurd loc
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[(t, rhs)] => do
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let ty' = sub1 ret (Ann (Tag t loc) (enum [t] loc) loc)
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rhs' <- eraseTerm defs ctx ty' rhs
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pure $ EraRes ty rhs'
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_ => throw $ CompileTimeOnly ctx $ E e
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Kept => case List1.fromList $ SortedMap.toList arms of
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Nothing => pure $ EraRes ty $ Absurd loc
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Just arms => do
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etag <- eraseElim defs ctx tag
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arms <- for arms $ \(t, rhs) => do
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let ty' = sub1 ret (Ann (Tag t loc) etag.type loc)
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rhs' <- eraseTerm defs ctx ty' rhs
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pure (t, rhs')
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pure $ EraRes ty $ CaseEnum etag.term arms loc
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-- n ⤋ n' ⇒ ℕ z ⤋ z' ⇐ R[zero∷ℕ/z] ς ≠ 0
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-- m : ℕ, ih : R[m/z] | ρ.m, ς.ih ⊢ s ⤋ s' ⇐ R[(succ m)∷ℕ/z]
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-- -----------------------------------------------------------
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-- caseρ n return z ⇒ R of {0 ⇒ z; succ m, ς.ih ⇒ s}
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-- ⤋
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-- case n' of {0 ⇒ z'; succ m, ih ⇒ s'} ⇒ R[n/z]
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--
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-- n ⤋ n' ⇒ ℕ z ⤋ z' ⇐ R[zero∷ℕ/z]
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-- m : ℕ, ih : R[m/z] | ρ.m, 0.ih ⊢ s ⤋ s' ⇐ R[(succ m)∷ℕ/z]
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-- -----------------------------------------------------------
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-- caseρ n return z ⇒ R of {0 ⇒ z; succ m, 0.ih ⇒ s}
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-- ⤋
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-- case n' of {0 ⇒ z'; succ m ⇒ s'[⌷/ih]} ⇒ R[n/z]
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eraseElim defs ctx (CaseNat qty qtyIH nat ret zero succ loc) = do
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let ty = sub1 ret nat
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enat <- eraseElim defs ctx nat
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zero <- eraseTerm defs ctx (sub1 ret (Ann (Zero loc) (NAT loc) loc)) zero
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let [< p, ih] = succ.names
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succ' <- eraseTerm defs
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(extendTyN [< (qty, p, NAT loc),
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(qtyIH, ih, sub1 (ret // shift 1) (BV 0 loc))] ctx)
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(sub1 (ret // shift 2) (Ann (Succ (BVT 1 loc) loc) (NAT loc) loc))
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succ.term
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let succ = case isErased qtyIH of
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Kept => NSRec p ih succ'
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Erased => NSNonrec p (sub1 (Erased loc) succ')
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pure $ EraRes ty $ CaseNat enat.term zero succ loc
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-- b ⤋ b' ⇒ [π.A] πρ ≠ 0 x : A | πρ.x ⊢ s ⤋ s' ⇐ R[[x]∷[π.A]/z]
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-- ------------------------------------------------------------------
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-- caseρ b return z ⇒ R of {[x] ⇒ s} ⤋ let x = b' in s' ⇒ R[b/z]
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--
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-- b ⇒ [π.A] x : A | 0.x ⊢ s ⤋ s' ⇐ R[[x]∷[0.A]/z] πρ = 0
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-- -------------------------------------------------------------
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-- caseρ b return z ⇒ R of {[x] ⇒ s} ⤋ s'[⌷/x] ⇒ R[b/z]
|
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eraseElim defs ctx (CaseBox qty box ret body loc) = do
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tbox <- computeElimType defs ctx SOne box
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(pi, tinner) <- wrapExpect `(expectBOX) defs ctx loc tbox
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let ctx' = extendTy (pi * qty) body.name tinner ctx
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bty = sub1 (ret // shift 1) $
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Ann (Box (BVT 0 loc) loc) (weakT 1 tbox) loc
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case isErased $ qty * pi of
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Kept => do
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ebox <- eraseElim defs ctx box
|
||
ebody <- eraseTerm defs ctx' bty body.term
|
||
pure $ EraRes (sub1 ret box) $ Let False body.name ebox.term ebody loc
|
||
Erased => do
|
||
body' <- eraseTerm defs ctx' bty body.term
|
||
pure $ EraRes (sub1 ret box) $ body' // one (Erased loc)
|
||
|
||
-- f ⤋ f' ⇒ Eq (𝑖 ⇒ A) l r
|
||
-- ------------------------------
|
||
-- f @r ⤋ f' ⇒ A‹r/𝑖›
|
||
eraseElim defs ctx (DApp fun arg loc) = do
|
||
efun <- eraseElim defs ctx fun
|
||
a <- fst <$> wrapExpect `(expectEq) defs ctx loc efun.type
|
||
pure $ EraRes (dsub1 a arg) efun.term
|
||
|
||
-- s ⤋ s' ⇐ A
|
||
-- ----------------
|
||
-- s ∷ A ⤋ s' ⇒ A
|
||
eraseElim defs ctx (Ann tm ty loc) =
|
||
EraRes ty <$> eraseTerm defs ctx ty tm
|
||
|
||
-- s ⤋ s' ⇐ A‹p/𝑖›
|
||
-- -----------------------------------
|
||
-- coe (𝑖 ⇒ A) @p @q s ⤋ s' ⇒ A‹q/𝑖›
|
||
eraseElim defs ctx (Coe ty p q val loc) = do
|
||
val <- eraseTerm defs ctx (dsub1 ty p) val
|
||
pure $ EraRes (dsub1 ty q) val
|
||
|
||
-- s ⤋ s' ⇐ A
|
||
-- --------------------------------
|
||
-- comp A @p @q s @r {⋯} ⤋ s' ⇒ A
|
||
eraseElim defs ctx (Comp ty p q val r zero one loc) =
|
||
EraRes ty <$> eraseTerm defs ctx ty val
|
||
|
||
eraseElim defs ctx t@(TypeCase ty ret arms def loc) =
|
||
throw $ CompileTimeOnly ctx $ E t
|
||
|
||
eraseElim defs ctx (CloE (Sub term th)) =
|
||
eraseElim defs ctx $ pushSubstsWith' id th term
|
||
|
||
eraseElim defs ctx (DCloE (Sub term th)) =
|
||
eraseElim defs ctx $ pushSubstsWith' th id term
|
||
|
||
|
||
export
|
||
uses : Var n -> Term n -> Nat
|
||
uses i (F {}) = 0
|
||
uses i (B j _) = if i == j then 1 else 0
|
||
uses i (Lam x body _) = uses (VS i) body
|
||
uses i (App fun arg _) = uses i fun + uses i arg
|
||
uses i (Pair fst snd _) = uses i fst + uses i snd
|
||
uses i (Fst pair _) = uses i pair
|
||
uses i (Snd pair _) = uses i pair
|
||
uses i (Tag tag _) = 0
|
||
uses i (CaseEnum tag cases _) =
|
||
uses i tag + foldl max 0 (map (assert_total uses i . snd) cases)
|
||
uses i (Absurd {}) = 0
|
||
uses i (Nat {}) = 0
|
||
uses i (Succ nat _) = uses i nat
|
||
uses i (CaseNat nat zer suc _) = uses i nat + max (uses i zer) (uses' suc)
|
||
where uses' : CaseNatSuc n -> Nat
|
||
uses' (NSRec _ _ s) = uses (VS (VS i)) s
|
||
uses' (NSNonrec _ s) = uses (VS i) s
|
||
uses i (Str {}) = 0
|
||
uses i (Let _ x rhs body _) = uses i rhs + uses (VS i) body
|
||
uses i (Erased {}) = 0
|
||
|
||
export
|
||
inlineable : U.Term n -> Bool
|
||
inlineable (F {}) = True
|
||
inlineable (B {}) = True
|
||
inlineable (Tag {}) = True
|
||
inlineable (Nat {}) = True
|
||
inlineable (Str {}) = True
|
||
inlineable (Absurd {}) = True
|
||
inlineable (Erased {}) = True
|
||
inlineable _ = False
|
||
|
||
export
|
||
droppable : U.Term n -> Bool
|
||
droppable (F {}) = True
|
||
droppable (B {}) = True
|
||
droppable (Fst e _) = droppable e
|
||
droppable (Snd e _) = droppable e
|
||
droppable (Tag {}) = True
|
||
droppable (Nat {}) = True
|
||
droppable (Str {}) = True
|
||
droppable (Absurd {}) = True
|
||
droppable (Erased {}) = True
|
||
droppable _ = False
|
||
|
||
export
|
||
trimLets : U.Term n -> U.Term n
|
||
trimLets (F x loc) = F x loc
|
||
trimLets (B i loc) = B i loc
|
||
trimLets (Lam x body loc) = Lam x (trimLets body) loc
|
||
trimLets (App fun arg loc) = App (trimLets fun) (trimLets arg) loc
|
||
trimLets (Pair fst snd loc) = Pair (trimLets fst) (trimLets snd) loc
|
||
trimLets (Fst pair loc) = Fst (trimLets pair) loc
|
||
trimLets (Snd pair loc) = Snd (trimLets pair) loc
|
||
trimLets (Tag tag loc) = Tag tag loc
|
||
trimLets (CaseEnum tag cases loc) =
|
||
let tag = trimLets tag
|
||
cases = map (map $ \c => trimLets $ assert_smaller cases c) cases in
|
||
if droppable tag && length cases == 1
|
||
then snd cases.head
|
||
else CaseEnum tag cases loc
|
||
trimLets (Absurd loc) = Absurd loc
|
||
trimLets (Nat n loc) = Nat n loc
|
||
trimLets (Succ nat loc) = Succ (trimLets nat) loc
|
||
trimLets (CaseNat nat zer suc loc) =
|
||
CaseNat (trimLets nat) (trimLets zer) (trimLets' suc) loc
|
||
where trimLets' : CaseNatSuc n -> CaseNatSuc n
|
||
trimLets' (NSRec x ih s) = NSRec x ih $ trimLets s
|
||
trimLets' (NSNonrec x s) = NSNonrec x $ trimLets s
|
||
trimLets (Str s loc) = Str s loc
|
||
trimLets (Let True x rhs body loc) =
|
||
Let True x (trimLets rhs) (trimLets body) loc
|
||
trimLets (Let False x rhs body loc) =
|
||
let rhs' = trimLets rhs
|
||
body' = trimLets body
|
||
uses = uses VZ body in
|
||
if inlineable rhs' || uses == 1 || (droppable rhs' && uses == 0)
|
||
then sub1 rhs' body'
|
||
else Let False x rhs' body' loc
|
||
trimLets (Erased loc) = Erased loc
|
||
|
||
|
||
export covering
|
||
eraseDef : Q.Definitions -> Name -> Q.Definition -> Eff Erase U.Definition
|
||
eraseDef defs name def@(MkDef qty type body scheme isMain loc) =
|
||
wrapErr (WhileErasing name def) $
|
||
case isErased qty.qty of
|
||
Erased => do
|
||
when isMain $ throw $ MainIsErased loc name
|
||
pure ErasedDef
|
||
Kept =>
|
||
case scheme of
|
||
Just str => pure $ SchemeDef isMain str
|
||
Nothing => case body of
|
||
Postulate => throw $ Postulate loc name
|
||
Concrete body => KeptDef isMain . trimLets <$>
|
||
eraseTerm defs empty type body
|